[COXTRIBVTIOX FROM
THE
DEPARTMENT CHEMISTRY, NEW iMEXIC0 HIGHLANDS
OF
UNIVERSITY]
Potential Purine Antagonists. VI. Synthesis of I-Alkyl- and I-Aryl-4-substituted PyrazoI0[3,4-d]pyrimidines~~~
C. C. CIIENG
ROLAND K. ROBINS
AND
Received M a y 21, 1956
Various monosubstituted hydrazines have been reacted with ethoxymethylenemalononitrile to yield the corresponding
l-substituted-5-amino-4-cyanopyrazolcs (IV). Treatment of IV with concentrated sulfuric acid gave the corresponding
l-substituted-5-aminopyr~zole-4carbosmides (XVI). The structure of 5-amino-1-phenylpyrazole-4-carbosamide
was
established by an unambiguous synthesis.
The preparation of 1-alkyl- and l-argl-l-aminoayrazolo[3,4-d]pyriniidines been accomplished by treating the correhas
sponding 1-alkyl(or aryl)-5-amino-4-cyanopyrazole (IV) with boiling formamide. Heating 1-alkyl( or aryl)-5-amino-4pyrazolecarboxamide (XVI) with formamide in a similar manner gave the corresponding 1-alkyl( or aryl)-4-hydrosypyrazolo[3,4d]pyrimidine (XVII). Phosphorus osychloride and XVII yielded the 1-alkyl- or l-aryl-4-chloropyrazolo[3,4-d]
pyrimidine (XVIII) which then was utilized for the synthesis of various additional 4-substituted pyrazolo[3,4d] pyrimidines
by nucleophilic displacement of the chlorine atom.
I n accord with a program for the synthesis of
various puriiie antagonists, a number of compounds containing the pyrazolo [3,4-d]pyrimidine
nucleus hare recently been prepared in this laboratory.3 The inhibition of the growth of Adenocarcinoma 755 and Leukemia 51'78 in mice by 4-aminopyrazolo [3,4-d]pyrimidine and 1-methyl-4-aminopyrazolo [3,4-d]pyrimidine4as well as the inhibition
of cellular growth by 4-aminopyrazolo [3,4-d]pyrimidine in rertnin tissue culture studies5has prompted
XI'.,
R,
"C.
Yield (%) of U. V. Absorption
Purified
xmsx. (mp)
Product
pH = 1 pH = 11
222-223
158-160
140
187-167.5
168-170
124
224-225
86.4
83.5
80 0
77.5
40.0
61.0
81.0
238
225
224
230
233
158- 159
84.0
Since in the early synthetic studies of this series
1-met hyl-4-aminopyrazolo [3,4-d]pyrimidiiie was
prepared and found to possess anti-tumor activity,4
a complete investigation of the preparation of 1alkyl- and 1-aryl-4-subst itut ed pyrazolo [3,4-d ]pyrimidines was undertaken.
It was discovered that when a mono-substituted
hydrazine (I), either aliphatic or aromatic, was reacted with ethoxyniethylenemalononitrile (11) in
boiling alcoholic solution, the corresponding l-al-
Recrystallization
Solvents
Water
Ethanol
Water
Ethanol
Ethanol
Ethanol
Ethanol
226
285
'
235
235
235
234
238
285
Analyses
Found
N
C
H
Calc'd
C
H
49.2 4 92 45.9 49.2 4.62
26.8
65.1 4.40 30.4 65 2 4 35
25.7
21 3
25 7
30 c,
46.0
20.8
30.8
25 7
21.4
25.7
30 1
28.3
28 2
Ethanol and water
further investigation of derivatives containing this
ring system. In particular, it seemed desirable to
synthesize various substituted 4-aminopyrazolo [3,4dlpyrimidines.
N
kyl- or l-aryl-5-amino-4-cyanopyrazole (IV) was
formed in good yield. The various l-substituted-5amino-4-cyanopyrazoles synthesized in this manner
are listed in Table I.
( 1 ) This investigation was supported by research grant
C-2105(C) from the National Cancer Institute of the National Institutes of Health, Public Health Service.
(2) Presented in part before the Division of Organic
Chemistry, 129th Meeting of the American Chemical Society, Dallas, Texas, ,4pril, 1956.
( 3 ) Robins, J. Am. Chem. SOC., 784 (1956).
78,
(4) Skipper, Robins, and Thompson, Proc. Sac. Ezptl.
Biol. Med., 89, 594 (1955).
(5) HSU,Flobins, and Cheng, Science, 123, 848 (1956).
1240
RiNHNHz
+
,G N
C
CzH@CH=C,
I
I1
r
\
111
C-N
CENJ
--
-
Ri
l
H2N --?/N-N
I I1
NI C
IV
The question of the condensation of a mono-substituted hydrazine (I) and ethoxymethylenemalononitrile (11) to form the alternative structure, 1alkyl(aryl)-3-amino-4-cyanopyrazole(VI), although
rather unlikely, cannot entirely be eliminated sincc
the reaction could conceivably proceed as follows :
2
"
I
+
RINH
/
X
I
CH&O
CEN
A
CiH5OCH=C,
I
4-ethylcarboxylate (XII), was prepared by Michaelis and Remy' by the reaction of ethoxymethylenemalonic ester (VIII) n-ith P-acetglphenylhydrazine (XI) in phosphorus oxychloride.
The syntheses of X and XI1 were repeated in
this laboratory. The ultraviolet absorption spectra
CEN
HO
HsCzOOC - XI1
VI
V
Several investigations were carried out in order
to support the assigned structure of I-alkyl(ary1)5-amino-4-cyanopyrazole (IV) .
Claisen and Haase6 prepared 5-hydroxy-1-phenylpyrazole-4-ethylcarboxylate (X) by the reaction
of phenylhydrazine (VII) and ethoxymethylenemalonic ester (T'III) in diethyl ether:
of X and XI1 were found to differ considerably. At
pH 1, X had Amax, 219 mp and XI1 had A,,.
275 nip.
At p H 11,X had A,,
237 nip and XI1 had A,,. 306
mp. 5-Amino-4-cyano-1-phenylpyrazole (IV, R1 =
C6H5) was converted by concentrated sulfuric acid
to 5-amino-1-phenylpyrazole-4-carboxamide
(XVI,
R1 = CtH5). This latter compound was found to
@,
/ COOCrHj
of 22.5 mp a t pH 1and A,.,
of 240 mp a t
possess A,,.
C~H~OCH=C;
pH 11. This information suggests that the structure
COOCzHs
assigned to 5-amino-1-phenylpyrazole-4-carboxVI1
VI11
amide is correct since the ultraviolet absorption
spectra resemble that of X rather closely.
/ COOCiHs
I
The structure of 5-aniino-l-phenylpyrazole-4~NHNHCH=C<
+ HO --f"'f;'
carboxamide (XV) was definitely established in the
COOCzHs HsCzOOC
following manner. 5-Hydroxy-l-phenylpyrazole-4v
IX
ethylcarboxylate (X) was treated lyith phosphorus
The intermediate I X was isolated, m.p. 112", oxychloride and phosphorus pentachloride to give
and cyclization of the pyrazole ring required heat- 5 - chloro - 1 - phenylpyrazole - 4 - ethylcarboxylate,
ing IX to 170-175". The structure of 5-hydroxy-l- which was treated with alcoholic ammonia in a
phenylpyrazole-4-ethylcarboxylate was definitely bomb a t 170" to give 5-amino-I-phenylpyrazoleestablished by Claisen and Haase by hydrolysis of 4-carboxamide (XV). This compound v a s shown to
=
X followed by decarboxylation to give the known be identical to XVI (R, CsHs),synthesized from
5-amino-4-cyano-1-phenylpyrazole (ITr, R, = Ca5-h ydroxy-1-phenylp yrazole.
The other isomer, 3-hydroxy-1-phenylpyrazole- Hb).
LJNHNH,
+
fi
Y
~
L
'
TABLE I1
M.P.,
"C.
Ri
Yield (yo) U. V. Absorption
of
Purified
~ r n a x (m/4)
.
Product
pH = I pH = 11
CHP
237-239
95
CHZCHZOH
CBH~
p-cl-C~H4
p-CH3-Ce,H'
273-275
172-1 73
204-208
173-175
98
84
86
80
223
280
262
225
230
223
259
Recrystallization
Solvents
C:tlc'd
C
I
-
Analyses
Found
I
N
C
H
281
Water
42 9 5 7 2 40 0 43 3 5 GO 40.0
259
240
239
23G
Ethanol
Ethanol and water
Ethanol and water
Water
20.9
21 0
59.4 4.95 27.7 50 5 4.87 28.1
23.6
23 3
25 9
25 8
~~~~
(6) Clnisen and Haase, Ber., 28, 36 (1895).
N
(7) Michaelis and Remy, Ber., 40, 1020 (1907).
1212
CHENG AXD KOBINS
m
MQ
w-l
m
H
*
0
I.
- - -
M
m
k
CI
m
3
NOVEMBER
1956
POTENTI.4L PURINE SNT.4GONISTS.
n
3
w
Am
4
w
2
8
0
0
8
cc
n
A
A
5
7
H
R
2
C
q
0"
7.
Y
x"
s
d
VI
1243
124 1
I
CIIENG ANI) TlOllINS
VOI,.
I
k
t ; : -
x
x
21
NOVEMBER
1956
POTENTIAL PURINE ANTAGONISTS.
1245
VI
00
9
t
,
9
r"
r3
1 0
l
i
0
3
x
s
"
3
c
(
?
E
s
;
'
w,
u u" u
iz E
u u"
Y
L?
I
R
5
%
E G d c
Y
b 2
1246
VOL.
CHENG AND ROBINS
Y
?
e
N
8
d:
d
.
n?
m
L
?
CJ
m
0
F?
p1
F7
*
-44
4
F3
-4
4
4
-
4
4
b
M
3
x x x z x
x
x x" x w
u
w
M
w
x
@
u
c
@
21
NOVEMBER
1966
Y
m
cy
POTENTIAL PURINE ANTAGONISTS.
09
cy
cy
Y"
09
3
c
y
0
i
3
c
y
m
3
c
m
y
1247
VI
Q
l
POC1,
PCL
Alc.
F
i NH,
u
u
H.N+?
H2N-C
0
i
f
-
ll
xv
This established the structure of 5-amino-4-cyano-1-phenylpyrazole. Since the ultraviolet absorption spectra for 5-amino-1-methylpyrazole-4-carboxamide and 5-amino-1-phenylpyrazole-&carboxamide are quite similar, it would follow that the
structure assigned to 5-amino-4-cyano-1-methylpyrazole (IV, R, = CH3) was also correct.
It was found that treatment of the 1-alkyl(ary1)5-amino-4-pyrazoles (IV) with cold concentrated
sulfuric acid gave the corresponding 1-alkyl(ary1)5-amino-4-pyrazole carboxaniide (XVI) ; (See Table
11.) This reaction proceeds in a manner similar to
the preparation of 3-aminopyrazole-4-carboxamide
f roni 3-amino-4-cyanopyrazole. 1-illkyl (Aryl)-5amino-4-pyrazole carboxamide then was converted
to the corresponding l-alkyl(aryl)-4-hydroxypyrazolo [3,4-d]pyrimidine (XVII), (Table 111), with
boiling formamide.
The 1-alkyl- or 1-aryl-4-chloropyrazolo [3,4-d]pyriniidiiies (XVIII) listed in Table I11 were obtained
by refluxing the corresponding 4-hydroxy derivatives (XVII) with phosphorus oxychloride. Chlorination proceeded smoothly, and it was found that
the addition of dimethylaniline to the reaction misRi
I
ljl
I
7'
Ri
1248
C H E S G A N D ROBINS
VOL.
21
ture was unnecessary. This observation is interR
1
esting since the chlorination of 4-hydroxypyrazolo[3,4-d]pyriniidine requires both dimethylaiiiline and phosphorus oxy~hloride.~
The preparation of the various l-alkyl(aryl)-4OH
0
aininopyrazolo [3,4-d]pyrimidines (XIX) listed in
XVII
XXIII
Table I T - vias acconiplished by two routes. The
treatment of l-alkyl(aryl)-5-aniino-4-cyaiiopyrazole (IY)with boiling formaniide offered the most
direct niethod oi synthesis. It is to be noted that
thc treatment of nii o-substituted aminonitrile with
forniamide to rlose the pyrimidine ring was first]
applied successfully to the synthesis of 4-amiiiopyrazolo [3,4-d]pyrimidi1ie.~
This method has since
been utilized effectively in the synthesis of 4-aminopyriniido i~,j-l,]cluiiioliiie.s To check 011 the
structures formed b y this ring closure, several 4aminoderivatives were also prepared from the corresponding 4 - chloropyrazolo [3,4 - dlpyrimidines
(XT-111).
n'umerous K-substituted amino derivatives
(XXJ?) were prepared by the reaction of XVIII
RI
R
i
with various primary and secondary amines in al1
t
p
T
i p
coholic or benzene solution refluxed on the steam
bath.
N
,
N
,
The 1-alkyl (aryl)-4-mere apt opyrazolo [3,4-d]pyrimidines (XX) were synthesized from either the
Ra-N-Ra
0-R,
correspondiiig 4-hydroxy derivative (XT'II) with
xxv
XXVI
XXVII
phosphorus pentasulfide in tetralin or pyridine, or
REACTION SCHEhIE
by treatment of the corresponding 4-chloro compounds (ST7111)
with thiourea in boiling ethanol.
Alkylation of XX with alkyl iodides resulted in 1,5-dimethylpyrazolo[3,4-d]pyriniidone-i (XXIII,
R1, Rz = CH,). Treatment of this compound with
the 4-alkylmercapto derivatives (XXI).
Several of the 4-alkylmercapto derivatives were phosphorus pentasulfide in tetralin gave a cornalso obtained from the l-alkyl(aryl)-4-chloropy- pound which is apparently 1,5-dimethylpyrazolorazolo r3,4-d]pyrimidine (XVIII) and the appropri- /3,4-d]pyrimidine-4-thione (XXIV, R,, R2 =
CH,). A similar thiation has previously been reate alkyl mercaptan in basic media.
4-(p-Chlorophenylmercapto)-l
-niethylpyrazolo- ported by Elion and Hitchings.lo
l-Methylpyrazolo[3,4-d]pyrimidine(XXV, R, =
[3,&d]pyrimidine (XXI, R2 = p-ClC,&) was madc
by the reaction of p-chlorothiophenol and 4-chloro- CH,) was prepared by catalytic dehalogenation of
1-met hylpyrazolo [3 , ~ ]
pyrimidine. However, it 1 - methyl - 4 - chloropyrazolo[3,4 - dlpyrimidine
was fourid that this reaction proceeded only in an- (XVIII, R, = CH,) using a palladium on charcoal
hydrous benzene. The ultraviolet absorption spec- catalyst, This procedure has been used successfully
tra of this conipound in ethanol is similar t o that of for the preparation of purine.g
Inspection of the ultraviolet absorption spectra
the corresponding 4-niethylmercapto derivative ;
however, in aqueous solution (pH 1 and pH 11) the of XT'II, (R, = CH3), XXIII, (RI, R, = CHZ),
spectra is identical to that of 4-hydroxy-1-methyl- and XXVII, (Rl, R, = CH?) in methanol (see Figpyrazolo [3,4-d]pyrimidine, indicating the rapid Iiy- ure 1) reveals that in neutral solution the structure
drolysis of the p-chlorophenylniercapto group in of XVII, (R,= CH,), is probably best represented
as 1-methyl - 5 - €1 - pyrazolo [3,4- dlpyrimidone - 4
aqueous solution.
Various 4-alkoxy derivatives (&XXVII)were ob- (XXII). Similarly, the ultraviolet absorption
tained from the appropriate l-alkyl(aryl)-4-chloro'743
pyrazolo [3,4-d]pyrimidine (XVIII) and the correI
sponding sodium aikoside. AIethylation of 1N N,N
methyl - - - hydrosypyrazolo[3,4 - dlpyrimidine
1
) 1
(XT'II, l L == CH?) resulted in the preparation of
I
c
p
H-$p
( 8 ) Taylor :tnd Knlenda, J . A m . Chem. Soc., 78, 5108
(19.56).
(9) Berrdich, Russell, and Fox, J. Am. Chenz. Soc., 76,
GO73 (1954).
0
XXII
(10) Elion and Hitchings, J . A m . Chem. SOC.,
69, 2138
(1947).
NOVEMBER
1956
POTENTIALPURINE ANTAGONISTS.
1249
VI
1.0
A
”
,
u1
S
Q)
a
0
I
)
.4
a
0
0.I
0. I
ai o
a40
260
280
300
320
A (my)
FIG. 1.
ULTRAVIOLET
ABSORPTIOK
SPECTRA CERTAIN~-METHYLPYRAZOLO] P Y R I ~ I I D I S E S ,
OF
[~,~-~
concentration 10
mg./liter, run in methanol.
-0-0-0- 1-Methyl-4-methoxypyrazolo [3,4-d] pyrimidine (XXVII, R1, R, = CHI); -A-A-A1-Methy1-41,s-Dimethylpyrazolo [3,4-d]pyrimidone-4 (XXIII
hydroxypyrazolo [3,4-d] pyrimidine (XVII, R1 = CH,); -X-X-XRi, R,
C&).
curves of XX, (R,= CH,), XXIV, (R1, R =
z
CHs), and XXI, (R1, z = CHI) (see Figure 2)
R
indicate that XX, (R1= CH,) in neutral solution is
predominantly 1-methyl-5-H-pyrazolo[3,4-d]pyrimidine-4-thione (XXJ’III).
accomplished by still another route. 4-Mercaptopyrazolo [3,4-d]pyrimidine3 treated with an excess
of methyl iodide in the presence of base gave a good
yield of XXI, (Rl, R2 = CHI). Similarly, methylation of 4-hydroxypyrazolo [3,4-d]pyrimidine3 with
methyl iodide yielded 1,5-dimethylpyrazolo[3,4CHs
dlpyrimidone-4 (XXIII, R1, Ra = CH,). 4-DiI
methylaminopyrazolo [3,1-dlpyrimidine3 methyl
and
N N.N
iodide gave 1-methyl-4dimethylaminopyrazolo [3,4dlpyrimidine (XXVI, R1, R = CH,). In these
R3, q
methylation studies in each instance none of the
S
theoretically possible “2-methyl” isomers were obFXVIII
tained. The structure of the 1-methyl derivative in
The synthesis of 1-methyl-4-methylmercaptopyr-each case had been previously determined by inazolo[3,4-d]pyrimidine (XXT, R1, = CH,) was dependent synthesis.
.-;p
1250
CHENG AXD ROBINS
220
240
260
VOI,.
300
x
340
21
360
(my)
FIG. 2. ULTRAVIOLET
ABSORPTIOX
SPECTRA CERTAIN1-METHYLPYRAZOLO
OF
[3,4-d]PYRIJIIDINES, concentration 10
mg./liter, run in methanol.
-0-0-0- 1-Methyl-4-methylmercaptopyrazolo[3,4-d]pyrimidine (XXI, R1, Ra = CHI); -A-A-A1-Methyl4-mercaptopyrazolo [3,4-d]pyrimidine (XX, R1 = CHa); -X- X- X- 1,5-Dimethylpyrazolo [3,4-d]pyrimidine-4-thione
(XXIV, Ri, R, = CH,).
The general method of synthesis of pyrazolo [3,4dlpyrimidines from a pyrazole intermediate3 has
nom been further extended to include the synthesis
of various 3-methylpyrazolor3,4-d]pyrimidines.
The synthesis of methylethoxymethylenemalononitrile (XXIX) was accomplished from triethyl orthoacetate, malononitrile, and acetic anhydride.
XXIX and hydrazine gave 3-amino-4-cyano-5methylpyrazole (XXX) in a manner similar to the
H
f
p
H
N
I
NHa
4-Aminopyrazolo [3,4-d]pyrimidine
I
NHz
XXXI
Methylethoxymethylenemalononitrile (XXIX)
mas also reacted with several substituted hydrazines to give the corresponding l-alkyl(aryl)-3methyl-5-amino-4-cyanopyrazoles (XXXII). HyCHa
NEC,
1
drolysis of XXXII with concentrated sulfuric acid
H
gave l-alkyl(aryl)-3-methyl-5-aminopyrazole-4-car'C=C-OC2H6 + H2NNHz-+ H2N*N-N
/
boxamide (XXXIII). Compounds XXXIV and
NEC
N rc
CH,
X X X V were synthesized in the usual manner by
XXIX
xxx
heating XXXII and XXXIII respectively with
synthesis of 3-amino-4-cyanopyrazole. Treatment formamide.
With regard to the biological interest in this
of XXX with boiling formamide yielded 3-methyl4-aminopyrazolo [3,4-d]pyrimidine (XXXI). This group of compounds, the anti-tumor activity of 1compound is of interest due to its structural rela- methyl-4-aminopyrazolo[3,4-d]pyrimidine (XIX,
tionship to 4-aminopyrazolo[3,4-d]pyrimidine3 R1 = CH,) has already appeared in a preliminary
which has been shown to possess antitumor activ- report.4
it,y.4,5
1-Methyl-4 - methylaminopyrazolo [3,4- dlpyrimi-
I
NOVEMBER
1956
POTEKTIAL I'UlZINE ANTBGONISTS.
VI
1251
addition caused a smooth boiling of the solution, and a
yellow, needle-like substance gradually precipitated from
the hot solution. The reaction mixture was boiled gently for
H2N
15 minutes after the final addition of ethoxymethyleneHZN-C
CHa
malononitrile. The solution then was cooled and the product
II
was filtered and washed with a small amount of ether. The
O XXXIII
yield was 125 g. (77.5y0), m.p. 159-163'. Light-yellow
crvstals. m.D. 167-167.5', were obtained after recrystallizaH - L I ,
tion froin et6anol.
Anal. Calc'd for ClOH7ClN4: N, 25.7. Found: N, 25.7.
Preparation of 6-amino-~-cyano-l-~-hydroxyethylpyrazole
RI
R
L
(IV, R1 = CH2CH20H).T o 42 g. of 70% B-hydroxyethylI
hydrazine in 100 ml. of ethanol was added carefully 50 g.
of ethoxymethylenemalononitrile. The mixture was then
boiled gently on a steam-bath for 30 minutes. A white precipitate gradually appeared from the hot solution. The
reaction mixture was cooled and filtered and the solid washed
OH
2
"
with ether. White crystals, m.p. 158-160", were obtained
XXXIV
after recrystallization of the crude product from ethanol.
Thc yield of purified material was 54 g. (83.570).
dine (XXVI, R,, = CHa,R3 = H) has recently"
Rq
Anal. Calc'd for CeHsN10: N, 26.8. Found: N, 26.8.
been found to exhibit a similar activity against
The other l-aryl-5-amino-4-cyanopyrazoles listed in Table
Adenocarcinoma 755 and Leukemia 5178. Further I were prepared by essentially the same procedure.
Preparation of 6-amino-l-methylpyrazoEe-4-carboxamide
biological testing is now in progress. A complete re(XVI, R1 = CHI). To 100 ml. of concentrated sulfuric acid
port will appear elsewhere.
cooled in an ice-bath was gradually added, with stirring,
Acknowledgment. The authors wish to express 40 g. of powdered 5-amino-4cyano-I-methylpyrazole
(IV,
t'heir thanks to Merien Lamon Robins and Kwei- R1 = CH8). The inside temperature was kept between 1520". The addition n-as accomplished over a period of 2
Chao Chao for their valuable technical assistance.
hours, and the solution then was stirred a t room temperature for an additional 30 minutes and then was poured,
with stirring, onto 500 g. of crushed ice. The solution was
EXPERIMEXTAL'~
adjusted to pH 8 with concentrated ammonium hydroxidc.
Preparation oj"5-amino-4-cyano-l-methylpyrazole (IV, It1 = Enough ice was added during the neutralization in order to
CHI). To 700 mi. of absolute ethanol and 70 g. of 98% maintain a temperature below 50'. The final volume was
methylhydrazine was carefully added, a little a t a time, approximately 1200 ml. The solution was cooled overnight
The
121 g. of eth~xymethylenemalononitrile.~~ addition was and finally filtered to yield 30 g. of colorless crystals, m.p.
carried out a t such a rate that the solution was kept boiling 232-235". An additional portion of the product, 13 g., was
4
smoothly. ' white precipitate gradually appeared. The obtained by evaporating the volume of the filtrate to 400
reaction mivture was heated on the stcam-bath for 30 min- ml. Recrystallization of the crude product from water raised
utes to insure the completion of thc reaction and then was the melting point to 237-239'.
placed in a refrigerator overnight. The product was filtered
Anal. Calc'd for C6H8N40: C, 42.9; H, 5.72; N, 40.0.
and washed with a small amount of cold absolute ethanol. Found: C, 43.3; H, 5.60; N, 40.0.
The yield %-as 109 g. (86.4%), m.p. 221-222'. RecrystallizaPreparation of &amino-l-phenylpyrazolc-4-carboxamide
tion from water raised the m.p. t o 222-223'.
(SVI, R1 = e&). To 400 ml. of concentrated sulfuric acid
Anal. Calc'd for C&N4: C, 49.2; H, 4.9; N, 45.9. Found: cooled in an ice-bath was added, with stirring, 88 g. of 5C, 49.2; H , 4.6; N,46.0.
amino-4cyano-1-phenylpyrazole.
During the addition, which
Preparation of 6-amino-~-cyano-l-phenylpyraaole (IV, required three hours, the inside temperature was maintained
R1 = C6H6).T o 88 g. of phenylhydrazine (I, R1 = CoH6) between 10-15'. The mixture was stirred a t room temperin 360 ml. of absolute ethanol was added slowly, with ature until solution was complete. The dark sulfuric acid
shaking, 100 g. of cthoxymethylenemalononitrile. After solution then was poured onto crushed ice, and the solution
about half of the addition was completed, the solution was was neutralized with concentrated ammonium hydroxide. The
carefully heated t o boiling. The remaining ethoxymethyl- reaction mixture, which was allowed t o reach 65-70' during
enemalononitrile was added at such a rate as to maintain neutralization, was cooled to room temperature and filtered
gentle boiling of the solution. After all the ethoxymethylene to yield 90 g. of yellow crystalline product, m.p. 169-170'.
malononitrile had been addea, the solution was gently boiled Recrystallization of thc crude compound from water raised
for an additional 30 minutes and finally was set aside over- the m.p. to 172-173'.
night in the refrigerator. The product was filtered and washed
Anal. Calc'd for CloHloNaO: C, 59.4; €I, 4.95; N, 27.7.
with a littlt. ethcr to give 120 g. of crude material, m.p. Found: C, 59.5; H, 4.87; N, 28.1.
138-139'. The compound was further purified by recrystalThe other 1-substituted 5-aminopyrazole-~-carrboxamides
lization from water to give white crystals, m.p. 140".
were prcpared by essentially the same procedure.
Anal. Calc'd for CloIIsN4:C, 65.1; H, 4.4; N,30.4.
Found:
Preparation of I-alk?jl(aryl)-4-hydroxypyrazolo[S,(i-d]pyrimC, 65.2; €I, 4.4; N,30.8.
idines (XVII). See Table 111. 4-Hydroxy-1-niethylpyrazoloPreparation of 5-amino-l-(p-chlorophenyl)-~-cyanopyrazole [S,4-d]pyrimidine (XVII, R, = CH,). A solution of 40 g. o
f
(IV, R1 = pCl-C6H4).Ethoxymethylenemalononitrile (90 g.) 5-amino-I-methylpyrazole-4earboxamide
(XVI, RI = CHI)
was added slowly to 500 ml. of hot ethanol containing 105 g. and 100 ml. of C.P. formaniide was boiled gently on a hot
of p-chlorophenylhydrnzine (I, R1 = p-Cl-C&). The slow plate for 2 hours. An equal volume of water was added to
the cooled mixture which then was set aside in a refrigerator
(11) Skipper, Robins, Thomson, Brockman, Schabel, overnight and finallv was filtered. The crude product was
and Cheng, Proceedings of the American Association for purified by solution in hot, dilute potassium hydroxide followed by reprecipitation from the hot solution with glacial
Cancer Research, 2, 147 (1956).
(12) All melting points are uncorrected and were taken acetic acid. Final purification was accomplished by recrystallization from water to give 36 g. of white crvstals, in p. >
on a Fisher-Johns melting point apparatus.
300".
(13) Huhw, J . Am. Chena. SOC., 2224 (1913).
65,
R1
RI
I
3
"
I
I
xxxv
1252
CHEKG AND ROBIKS
VOL.
21
Anal. Calc'd for Cd3JVrO: C, 48.0; H, 4.30; K, 37.3. tallization from water gave 21.0 g. (49%) of an analytically
pure product, m.p. 266-268'.
Found: C, 48.1; H, 4.39; N, 37.5.
~-Hydroxy-l-phenylpyrazoEo[S,~-d]pyrimidine
(XVII, R1
Anal. Calc'd for C6HiN6:C, 48.3; H, 4.6; K,47.0. Found:
= C a s ) . 5-Amino-1-phenylpyrazole-4-carboxamide
(15 g.) C, 48.7; H, 4.6; N, 47.3.
Method ( 9 ) . To 5 g. of 4-ehloro-l-methylpyrazolo[3,4-d]was heated with 50 ml. of C.P. formamide a t 190-200' for
30 minutes. The cooled solution was diluted with 50 ml. of pyrimidine (XVIII, R1= CHI) was added 70 ml. of absolute
water and allowed to stand in a refrigerator overnight. The ethanol previously saturated with dry ammonia gas a t 0'.
product then was filtered and washed with water, and re- The mixture was heated a t 160" in a glass-lined bomb for
crystallized from water to yield 11.0 g. of small needles, 6 hours. The solution then was evaporated to dryness on a
steam-bath and the solid was crystallized from 95% ethanol
m.p. 299".
Anal. Calc'd for C11H8N40:C, 62.2; H, 3.78; N,26.4. containing a small amount of potassium hydroxide. The
Found: C, 62.3; H, 3.78; N, 26.9.
yield was 3 g. (68y0),
m.p. 266'. &4
mixture m.p. of this prodPreparation of 1 -alkyl(aryl)-4-~hloropyrazolo[S,4-d]pyrimi- and that obtained by Method ( 1 ) showed no depression.
uct
dines (XVIII). See Table 111. 4-Chloro-I-methylpyrazolo- Both preparations gave identical ultraviolet spectra a t
pH 11and pH 1.
[3,4-d]pyrimidine (XVIII, R1 = CH3). 4-Hydroxy-I-methyl4-Amino-l-phenylpyrazolo[S,4-d]py~in~idine I X , R, =
(S
pyrazolo[3,4-d]pyrimidine (XVII, R1 = CH,) (100 9.)
wa,s suspended in 600 ml. of phosphorus oxychloride. The C6H5). Method (I). A mixture of 5 g. of 4-chloro-1-phenyl1
mixture was refluxed for two hours after solution had oc- pyrazol0[3,4-d]pyriniidine (XVIII, R = C&5) arid 150
curred (a total of 4 hours). The excess phosphorus oxy- ml. of absolute ethanol saturated with dry ammonia gas a t
chloride was distilled from the clear, yellow solution under 0' was heated a t 160" in a bomb for 10 hours. The solution
reduced pressure, and the residual syrup was poured very was evaporated to dryness and the residue was recrystalslowly, with vigorous stirring, onto 1 kg. of finely crushed lized from dilute ethanol to u-hich a small amount of potasice. The mixture was allowed to stand for 30 minutes, and sium hydroxide had been added. The J ield \vas 3.2 g. (70%)
the whit,e suspension was extracted with et8her (approxi- of white needles, m.p. 210".
Method (2). ~-~4mino-4-cyano-l-phenylp~-razole R1 =
(IV,
mately 6 X 600 ml.). The ethereal extract was washed well
with ice-water. After drying the extract over magnesium C6HS) (20 g.) was added to '75 ml. of C.P. formamide. The
sulfate for 12 hours, the ether was distilled t o yield 95 g. of solution was boiled gently for 1 hour. To the marm mixture
long, white needles, m.p. 97-98'. Recrystallization from was carefully added 200 ml. of water and the solution was
cooled overnight. The yield of crude product was 22.0 g.,
heptane raised the m.p. to 98-99'.
Anal. Calc'd for C&ClN4: c, 42.7; H, 2.97; N,33.3. m.p. 208-210". Recrystallization from an ethanol-water mixture raised the m.p. to 210".
Found: C, 42.7; H, 2.91; N, 33.3.
Anal. Calc'd for CIIHgPiS: 62.5; H, 4.2; N, 33.2. Found:
C,
/t-Chloro-l-phenylpyrazolo[S,~-dlpyrimidine
(XVIII, RI =
33.4.
C&,). A mixture of 300 mi. of phosphorus oxychloride and C, 62.4; H. 3.9; K,
44 g. of 4-hydroxy-l-phenylpyrazolo[3,4-d]pyrimidine This product, was identical to that prepared by Method
(XVII, Rl = C6H5) was refluxed for three hours. Excess ( 1 ) as judged on the basis of mixture melting points and
phosphorus oxychloride was distilled under reduced pres- identical ultraviolet absorption spectra a t pH 1 and pH 11.
sure, and the residual syrup was poured, with stirring, onto Other 4-amino-1-substituted phenylpyrazolo[3,4-d]pyrimicrushed ice. The aqueous suspension was extracted with dines ( X I X ) were prepared in a manner similar to Method
chloroform. After drying overnight over sodium sulfate the (2) for the preparation of 4-arnino-l-phenylpyrazolo[3,4-d]chloroform was distilled to yield a slightly yellow-colored pyrimidine.
4-Amino-1 -( P-hydroxyethyl)pyrazolo [S,4-d]
p yrimzdina
product, n1.p. 121-124". This crude product was recryst.al( X I S , R1 = CH2CH20H).To 150 ml. of G.P. formamide
lized from hept.ane to give 45 g. of white needles, m.p. 128'.
Anal. Calc'd for C11HiClNd: C, 57.3; H, 3.04; N, 24.3. was added 70 g. of 5-amino-4-cyano-l-(~-hydroxyethyl)pyrazole (IV, R1 = CH2CH20H).The solution was boiled
Found: C, 57.1; H, 3.04; N, 24.6.
4-Chloro-l-( p-nitropheny1)pyrazolo [3,4-d]pyrimidine for 1 hour and 30 minutes and the warm solution was di(XVIII, R1 = p-NOz-C6H4).To 260 ml. of phosphorus luted with 100 ml. of water. Upon cooling the solution overoxychloride was added 16 g. of finely powdered 4-hydroxy- night, no crystals appeared; theiefore, the excess formamidc
I-(p-nitropheny1)pyrazolo [3,4-dlpyrimidine (XVII, R = and water were removed under reduced pressure using a
1
p-NOn-CsH4).The mixture was refluxed vigorously for six steam-bath as a source of heat. To the residue was added
hours until solution was finally effected. The excess phos- 200 ml. of water and 30 ml. of conrentratcd hydrochloric
phorus oxychloride was distilled off under reduced pressure, acid. The solution was boiled for 15 minutes, treated with
and the syrupy residue was pured very slowly, with stirring, charcoal, and filtered. The filtrate was made basic v-ith
onto 500 g. of crushed ice. The crude product was only spar- potassium hydroxide and the warm solution was chilled overingly soluble in ether or chloroform. It was filtered with night. The yield of crude product n-as 54.0 g. RccrystallizaRuction and washed well with ice-water until free from acid. tion from water yielded 34.0 g. (42.57,), m.p. 217-219'.
The crude compound was dried in air and recrystallized A second recrystallization from R-ater raised the m.p. to
from n-heptane to yield 14.0 g. of yellow needles, m.p. 223-224'.
Anal. Calc'd for CiH9Xs0: C, 47.0; H, 5.0; N, 39.1. Found:
204-205'.
Anal. Calc'd for Cl1H.&1Ns02: c, 48.0; H, 2.20; N, 25.4. C, 47.3; H, 4.9; N, 39.1.
Preparation of 1 -alkyl( aryl)-4-nzercaptopyrazolo[S,d-d]
Found: C, 47.6; H, 2.32; N, 25.4.
Preparation of I-alkyl(aryl)-4-aminopyrazolo[3,4-d]
pyrimi- pyrimidines (XX). See Table 111. 4Prlercapto-1-methylpyrdines (XIX). See Table 111. 4-Amino-I-methylpyrazolo- azolo[3,4-d]pyrimidine (XX, R1 = CH3). Method ( 1 ) .
(XVIII, R1 =
[3,4-d]pyrimidine (XIX, R1 = CHI). Method ( 1). To 100 ml. 4-Chloro-l-methylpyrazolo[3,4-d]pyrimidine
CH,) (5 g . ) and 2.5 g. of C.P. thiourea wwc added to 100
of C.P. formamide was added 35 g. of 5-amino-4-cyano-lmethylpyrazole (IV, R1 = CHI). The solution was boiled ml. of absolute ethanol. The mixture was refluxed for 1
for 1 hour and allowed to cool. To the reaction mixture was hour, during which time a white rrybtallirie pi otlurt deposited
added 100 ml. of water and the solution was placed in the in the hot solution. The prodiict was filtered and washed
refrigerator overnight. After filtration, the crude product with cold 957, ethanol. The yield xas 4 g. (81%), m.p. >
was suspended in 300 ml. of boiling water and 20 ml. of con- 300".
Anal. Calc'd for CGHGN~S:43.4; H, 3.6; N, 33.8. Found:
C,
centrated hydrochloric acid was added. The solut.ion was
boiled 3 minutes a-ith charcoal and filtered, The hot filtrate C, 43.4: H, 4.0: N, 34.0.
iZTethod ( 2 ) .Tetralin (400 ml.) was heated to 16jo,and an
was made basic with a solution of sodium hydroxide and
allowed to cool. The product cryst,allixed in colorless crystals intimate mixture of 10 g. of finely powdered 4-hydroxy-lpyrimidine (XT'II, I? = CEI,) and
:tnd was filtered and wv:ishcd with ice-water. A final recrys- meth~-lpyrazolo[3,4-d]
-
NOVEMI3ER
1gstj
POTEKTIAI. PUfi.INE ANT:IGOhTSTS.
VI
1253
50 g. of phosphorus pentasulfide was slowly added to the nolic solution of 5 g. of 4-chloro-l-methylpyrazolo[3,4-d]mixture, with stirring, over a period of 45 minut,es. During pyrimidine. The mixture n-as cooled in an ice-bath for 10
that time the temperature of the mixture was allowed to minutes, thcn allowed to warm up to room temperature, and
finally \vas heated gently on a steam-bath for 30 minutes,
climb to 185'. The reaction mixt,ure then was heat,ed a t 190195' for six hours with continuous stirring. The solution The fiolution was filtered, and white, silky needles crystallized
then was t:ooled overnight and filtered, and the solid was from the filtrate. The erudr product was recrystallized
washed n-it,h petroloiim t.ther and dried. The crude mat,eria,l fiom methanol to yield 2.5 g. (,51.2y0), m.p. 105-106".
A n d . Cdc'd for C,HsN40: N, t34.2. Found: N, 34.2.
then mis : ~ d d e dsloivly to 1000 ml. of boiling watcr. Just
~-Ethox~~-i-phenyIpyrazolo[S,~-d]pyrinzidine
(XXVII, R1
enough potnssiiim hydroxide n'as added to effect complrte
solution. The solution v a s treated with charcoal and fil- = C6H6, R2 = C&). 4-Chloro-1-phenylpyrazolo [3,4-d]tered and the filtrate vias acidified while hot with acetic pyrimidine (5 g.) (XVIII) was dissolved in 150 ml. of warm
acid. The solid was filtered immediat,ely and washed viith absolute ethanol. To this solution, cooled to I O o , was added
water to yield 8.0 g. (i2.2vO)of crude product. Reprecipi- 150 ml. of absolute ethanol in which 2 g. of sodium had been
tation of this material yielded a product which showed ult,ra- dissolved. The mixture was allowed to warm to room temviolet absorpticn ciirvcs identical with the product obtained perature and then was heated gently on a steam-bath for
two hours. The sodium chloride was filtered from the hot
by Method ( 1 ).
solution, and the filtrate on cooling yielded the crude prodPreparation OJ l-(p,-chlorophenyl)-~-~nercaptopyrazolo[S,4uct. Recrystallization from ethanol gave 3.2 g. of long,
dlpyrirnidiize ( S X , It1 = p-CI-C6H:4). 4-Chloro-l-(p-chlorophenyl)pyrazolo[3,4-d]pyrimidine(XVIII, R = p-CI-CoH4) white needles, m.p. 92-94'.
1
Anal. Calc'd for C13H12N40: C, 65.0; H, 5.03; N, 23.3.
(5 g.) and 5.0 g. of thiourea was added to 180 ml. of absolute
ethanol. Thc~
solution was refliixed for 6 hours. The solid was Found: C, 65.2; H, 5.28; N, 23.1.
4-( p-Bromophenoxy)-l-methylpyrazolo[ SJ-d] p yrimzdine
filt,ered and purified by dissolving in hot, dilute potassium
hydroxide followed by precipitation with acetic acid. The (XXVII, Rl = CH3, RI = p-Br-CeH4). To a mixture of 5
g. of p-bromophenol was added 5 g. potassium hydroxide
yield of white uccdles was 4.3 g., m.p. >300'.
Anal. C:rlc'd for C1111?C1S4Fj:C, 50.2; H , 3.7; X, 21.3. and 150 ml. of water. To this solution was added, a little at
a time, 5 g. of finely powdered 4-chloro-1-methylpyraxoloFound: C, 50.2: H, 4.0; N, 21.5.
[3,4-d]pyrimidine (XVIII, R1 = CH3). The mixture then
Other l-sr~-l-~-merca~topyrazolo[3,4-d]pyrimidines
listed
in Table 111 were prepared in a similar manner from XVIII. was heated on a stem-bath for 30 minutes. A white solid
Preparation o j 1-/neth yl-4-methylmercaptopyrazolo[5,4-d]- precipitated from the hot solution. The product was filpyriviidine ( S S I , XI, Rz = CH,). dlethod (1). To 8 g. of tered and recrystallized from methanol to yield 5.5 g. of
4-mercapto-l-methylpyr:izolo[3,4-d]pyrimidine
(XX, R1 = white needles, m.p. 167".
Anal. Calc'd for CI2H9BrN10:X, 18.4. Found: N, 18.6.
CH8), dissolvcd in a solution of 5 g. of potassium hydroxide a n d 100 nil. of water, wa.s slovily added, with
Preparation of i-aEkyl(aryl)-4-substitzctedamino-pyrazolostirring, 12 g. of methyl iodide. The mixture was trans- [S,(t-d].pyrimidines(XXVI). See Table IV. The compounds
ferred to a separatory-furiIirl and 15 ml. of methanol was listed in Table IV were prepared by either Gentral dfethod
added. The solution was shaken vigorously for 30 minutes. ( A ) or General Method ( B ) .
At the end of this period a vhite crystalline substance apGeneral Method ( A ) is illustrated by the following specific
peared, which was filtered and recrystallized from water. examples:
of
The yield vias 7 g. (80.7y0) a white crystalline product
i-Methyl-~melhylaminopyrazolo[S,4-d]pyrinzidine
(XXT'I,
whichmelted a t 133".
Rl = CH,, RS = H, R = CH,). To a mixture of 70 ml. of
d
Anal. Caic'd for C7HglS:4S: N, 31.1. Found: N, 31.0.
4OYc methylamine in 50 ml. of 95Yc ethanol was added I 1
Method (2). A mixture of 2.5 g. of 4-mercapt~opyrazolo- g. of 4-chloro-l-methylpyrazolo[3,4-d]pyrin~idine
(XVIII,
[3,4-d]pyrirnidine,, 2.5 g. of potassium hydroxide, 30 ml. Rl = CH,). The solution was refluxed on a steam-bath for
of wat,er, 15 g. of methyl iodide, and 50 ml. of methanol was 8 hours. The rn hite solid which formed in the hot solution
refluxed on a stcnm-hsth for 6 hours. Thc product crystal- was filtered after the solution had cooled. Recrystallization
lized from the hot solution as yelloar needles. I t was recrys- from methanol yielded 8.5 g., m.p. 200-201".
tallized from n-at,er to yield 1.5 g., m.p. 135". The comAnal. Calc'd for C ~ H Q N ~51.5; H, 5.6; 1,
C, :
42.9. Found:
pound, vhcn mixed with that made from illethod ( I ) , C, 51~2; 5.8; N, 42.5.
H,
showed no depression iri melting point.
4-(0-3lethylanilino)-1-methylpyrazolo
[S,/i-d]pyrimidine
illethod ( 3 ) .To a mixture of 10 g. of methyl mercaptan, 5
g. of potassinm hydroxide: and 20 g. of methanol was added, (XXVI, R1 = CH,, R8 = H , R4 = o-CHa-CSH4). A mixture
and
a little a t a time, 5 g. of finely pondered 4-chloro-1-methyl- of 5 g. of 4-chloro-l-methylpyrazolo[3,4-d]p~~rimidine
pyrazolo[3,-L-d]pyrilnidine (XVIII, Ri = CH3). The reac- 4.5 g. of o-toluidine in 200 ml. of absolute ethanol was ret,ion proceeded instantly, and a white preeipita t'e appeared in fluxed on a steam-bath for 5 hours. A m-hite solid crystallized
the alkaline sohition. The mixture x i s heated gently on a after the solution was cooled overnight. After recrystallizasteam-cone for 30 minut,es and the solution was cooled and tion from ethanol the product melted a t 104-166', jield
filtered. Tht: product recrystdlized from water to give white 4.3 g.
-4nal. Calc'd for CI3Hl3N~: , 65.2; H, 5.5; T, 29 3.
C
needles, m.p. 135". This product, was ident,ical to that prepared by Jlethoda ( 1 ) and ( 2 ) as judged by mixture melting Fonnd: C, 65.2: H, 5 . 5 ; N, 29.2.
~-Hydrazzno-l-niethylpyraeolo[S./i-d]
pyrimidine (XXVI, R,
point d a h :md identical ultraviolet absorption spectra.
Preparation of ~-(p-chlorophen?~lmercapto)-l-wiethylpyra- = CH3, R3 = H, R4 = P I " 2 ) . To a mixture of 300 ml of
zolo[S,/i-d]p~irimidine
(XXI, R1 = CHI, R, = p-Cl-CaH4). 95ycethanol and 90 g. of 85y0hydrazine hydrate was added
30 g. of finely powdered 4-ehloro-l-methylpyrazolo[3,4-d~
p-Chlorothiophenol (6.5 g.) and 7.5 g. of 4-chlororl-methylpyrazolo [3,4-d]pyrimidine (XJTII, RI = CH3) were added pyrimidine. 4 xhite precipitate formed instantly. The mixto 200 ml. of anhydrous benzene and the solution was ture was warmed on a steam-bath for ten minutes and filrefluxed for 4 hours. The mixture solidified on cooling to tered. The product was recrystallized from 507, ethanol to
give a product, m.p. 153-156'. Recrystallization from ben- yield 29 g. of white needles, m.p. 246.5-247'.
Anal. Calc'd for C6H,Ns: N, 51.1. Found: N, 50.8.
zene raised the m.p. t,o 156-157", yield 7.2 g.
Anal. Calc'd for C12H,C1N4S: , 20.2. Found: N, 20.0.
S
4 9 l e t h y l h ydrazino-1-phtnylpyrazolo[S,4-d]pyrznudine
4
Preparation of 4-alkoxy-l-alkyl(aryl)pyruzololS,4-d]pyrimi- (XXVI, Rl = CSH5, R3 = H , R = NHCH?). A solution of
6 g.
dine (XXVII). See Table 111. ~-Methoxy-i-methylpyruz- 5 g. of 4-chlo~o-l-phenylpyrazolo[3,4-d]p~rimidine, of
olo[J,4-dlpy-imidine
(XXVII, R1 = CHI, R, = CH3). One methylhydrazine, and 200 ml. of methanol was heated on
gram of sodium was dissolved in 50 ml. of methanol. To the steam-bath until the volume of the solution had heen
this solutior was nddpd, very carefully, 50 ml. of a metha- reduced to 50 ml. The solution, upon cooling, yielded white
I254
CHENG AND ROBINS
VOL.
21
Anal. Calc'd for C I ~ H Z ~ N64.5; H, 8.9; N, 26.8. Found:
C, ~ :
C, 64.0; H, 9.1; N, 26.7.
4-Furjurylamino-1-methylpyrazolo
[S,4-d] pyrimidine
1
(XXVI, R = CH3, R3 = H. Rg = C&O). 4 mixture of 5
g. of 4-chloro-1-methylpyrazolo [3,4-d]pyrimidine (XVIII,
R = CH,) and 4 g. of furfurylamine dissolved in 60 ml. of
1
absolute ethanol was heated on the steam-bath for 8 hours.
The solvent then nas alloKed to evaporate to leave a glassy,
gummy substance which mould not crystallize after long
standing. This substance was treated with dilute potassium
hydroxide and the solution was extracted n-ith chloroform.
A light-yellow residue, which was obtained after the distillation of the excess chloroform, was rerrystallized from
hcnzenc to yicld 6.1 g. of white needles, m.p. 150".
Ana/. Calc'd for C1lH1lP\T~O: 30.6. Found: i ,
N,
Y 30.7.
&-Cyclohexylamino-1-methylpyrazolo[,?,&-dl
p?lrinzidine
(XXVI, Rl = CH3, R3 = H, R4 = C&). A misturc of 10
6
g. of 4-chloro-l-methylpyrazolo[3,4-d]pyrimidine, g. of
cyclohexylamine, and 120 g. of methanol was refluxed on a
steam-bath for 4 hours and finally was evaporated to dryness. The product mas crystallized by treating the residue
with a mixture of ether and methanol. Reciystnllization from
methanol gave 4.0 g. of white needles, m.p. 05-96O.
Ana/. Calc'd for CI2H17N5: 30.3. Found: N, 30.3.
K,
4-n-Butylaniino-1-methylpyrazolo[SJ4-d]
pyrimidzne (XXVI,
R, = CHs, R3 = H, R4 = n-CdH9). To 40 g. of n-butylamine
in 120 ml. of methanol was added 13 g. of 4-c~hloro-l-methyl\cH~-cH~/
was added 8 g. of 4-chloro-l-(p-chlorophenyl)pyrazolo[3,4- pyrazolo[3,4-d]pyrimidine.The solution TTXS refluxed on a
dlpyrimidine (XVIII, R1 = p-C1-C6H4)and 8 g. of %mor- steam-bath for 8 hours and then was evaporated to dryness.
pholino-n-propylamine. Bfter boiling on a steam-bath for The rcsidue was extracted with boiling benzene, and a small
40 minutes, a solid appeared which was filtered and recrys- amount of heptane was added to the hot filtrate xhich
tallized from 2-ethoxyethanol to yield 10.0 g., m.p. 182- crystallized on cooling the solution to givc 12 g. of white
needles, m.p. 87-88'.
184'.
Anal. Calc'd for CIOHIENL: X, 34.2. Found: N, 34.1.
Anal. Calc'd for C18H21C1Nt,0: 22.5. Found: N, 22.8.
N,
4 4 N-Mdhylanilino)-l-phenylpyrazolo[3,4-d]pyrimidine
1-( p-Chlorophenyl)-4-(2'-N,N-diethylaminoethylanzino)(XXVI, Itl = C&, R3 = CH3, R4 = CaH5).A solution of pyrazolo[S,&-dlpyrimidzne [ XXVI, R1 = p-Cl-C&, R3 =
(XVIII, H, R4 = CH2CH2S(C2116)2].
2.5 g. of 4-chloro-l-phenylpyrazolo[3,4-d]pyrimidine
4-Chloro-l-( p-rhlorophrny1)R1 = C6HS) and 2 g. of N-methylaniline dissolved in 200 pyrazolo[3,4-d]pgrimidine (5 9.) was added to a solution of
ml. of absolute ethanol was heated on a steam-bath for 10 300 ml. of absolute ethanol and 5 g. of 2-N,S-dicthylaminohours. On cooling, colorless needlcs crystallized slomly from ethylamine (8-diethylaminoethylamine). T h r solution was
the purple solution. The product was recrystallizcd from refluxed on a steam-bath for 12 hours and then was evapoethanol to yield 2.2 g. (64.57,), m.p. 115-116'.
rated to dryness. Thc residue was treated n ith cold bcnzene
Anal. Calr'd for CisHldNa: 71.7; H, 5.0; N, 23.3. Found: to which had been added a small amount of methanol, and
C,
C, 71.2; H, 4.7; N, 23.3.
thc product slow~ly
solidified in a refrigcrator. The solid was
l+-(~-Hydroxyethylhydrazino)-1-methylpyrazolo
[9,4-d]- recrystallized from m t e r and a small amount of methanol
pyrimidine (XXVI, Rl = CH,, R3 = H, Rg = NHCH2CH2- to yield 4.5 p. of white needles, m.p. 105-106".
OH). To 100 ml. of methanol was added 9 g. of 707, 0-hyAnal. Calc'd for C17HZ1C1N6: 24.4. Vound: N, 21.4.
N,
droxyeth3-lhyclrazine and 8.5 g. of 4-chloro-1-methylpyra4-( 2'-N-~-Hydroxyethylaminoethylamino)-l-(
p-chlorophenzolo[3,4-d]pyrimidine. The mixture was refluxed on a steam- yl)pyrazo/o[S,4-d]pyrimidzne
[XXVI, RI = p-Cl-CeH4, Ra =
bath for 6 hours. The solid which formed on cooling was H, R4 = (CH2)2-KH(CH2)20H]. solution of 8 g. of 4A
recrystallized from mcthanol to yield 12 g. of white needles, chloro-l-(p-chlorophenyl)pyrazolo[3,4-d]pyrimidincJ g.
8
m.p. 133-134'.
of 2-K-8-hydroxyethylaminoethylamine (S-aminoethylethAnal. Calc'd for C8H12N60: N, 40.3. Found: N, 40.1.
anolamine), and 150 ml. of mcthanol was refluxed on a
T this particular preparation methanol was found to be steam-bath for three hours and finally was evaporated to
n
much superior to ethanol as a reartion solvent. When the dryness on the steam-bath. The residual product was rereaction v a s carried out in ethanol, no product could bc crystallized three times from a mixture of benzene and
isolated.
methanol. There finally was obtained 4 p. of pure product
General Method (B) for the preparation of 1-alkyl( aryl)-4- n-hich melted at 154-155".
is
X,
substituted aminopyrazolo[3,4-d]pyrimidines illustrated
Anal. Calc'd for ClSH1~C1N~O: 25.2. Found: N, 25.2.
by the following specific examples:
Preparation of 1-methy/pyrazolo[SJ4-d
]pyrimidine (XXV,
I-Methyl-&-( ',1',3',S'-tetramethyl-n-hulylamino)pyrazolo- Rl = CHI) 4-Chloro-1-methylpyrazolo [3,4-d]pyrimidine
1
(XVIII, Rl = CH,) (5 g . ) was added to a solution of 150
[S&d]pyrimidine (XXVI, R1 = CH,, R3 = H, R =
4
C8H17). To 7 g. of 4-chloro-1-methylpyrazolo [3,4-d]pyrimi- ml. of methanol and 4 ml. of concentrated ammonium hydine (XVIII, R1 = CH3) dissolved in 100 ml. of methanol droxide. To this solution was added 1.5 g. of 5 7 , palladiumwas added, with stirring, 12 g. of 1,1,3,3-tetramethyl-non-charcoal. The mixture was shaken on a hydrogenator a t
butylaminc. The mixture was heated on the steam-bath for 20 lb. per sq. in. pressure until the uptake of hydrogen
8 hours and finally was allowed to evaporate to a syrupy ceased (six hours was required). The solution then was filliquid. To the crude product was added 40 ml. of absolute tered and the black residue was extracted with 100 ml. of
ethanol. The mixture was boiled, treated with charcoal, and methanol. The combined methanolic solution was evapoheated with a small amount of diatomaceous earth. To the rated to dryness on a steam-bath. The product was recrystalfiltrate was added 20 ml. of water and the product crystal- lized from benzene and then was sublimed twice a t 130"
lized after standing two weeks in the refrigerator. The yield under reduced pressurc to givc 1 g. of white nerdles, m.p.
of white needles, m.p. 132-133.5", wns 9 g.
125-126".
crystals. Recrystallization of the crude product from ethanol
gave 4.1 g., m.p. 153-155'.
Anal. Calc'd for C12H12N6: 60.0; H, 5.03; N, 35.0.
C,
Found: C, 60.2; H, 5.01; N, 34.3.
4-( o-Ch1oroanilino)-I-phenylpyrazolo3,4-d]p yrimidine
[
(XXVI, R1 = CH3, R3 = H, R4 = o-Cl-C&). 4-Chloro-lphenylpyrazolo[3,4-d]pyrimidine (5 g.) and 11 g. of ochloroaniline were added to 200 ml. of absolute ethanol.
The solution was boiled gently on a steam-bath for 4 hours.
A solid prodirt separated from the hot solution. Recrystallization from 2-ethoxyethanol gave 4.5 g. of white needles,
m.p. 157-158'.
Anal. Calc'd for C17Hl2C1Xa: 63.6; H,3.77; N, 21.8.
C,
Found: C, 63.0; H, 3.72; N, 21.9.
4-Benzylamino-1-methylpyrazo/o[3,4-d]pyrimidine
(XXVI,
R1 = CH3, R3 = H, R4 = CH2-C6H5).
Benzylamine (10 g.)
and 8 g. of 4-chloro-1-methylpyrazolo [3,4-d]pyrimidine
were added to 200 ml. of absolute ethanol, and the solution
was heatrd for 8 hours on the steam-bath. The solid, which
separated on cooling, was recrystallized from ethanol to
give 11 g. of white leaflets, m.p. 158-159.5'.
Anal. Calc'd for Cl3H13N5:N, 29.3. Found: N, 29.1.
1-( p-Chlorophenyl)-~-(S'-morpholzno-n-prop~lamino)p
yrazolo[S,&-d]pyrzmidine(XXVI, R1 = p-C1-C6HgJ R3 = H,
/CHz-CH*\
R, = n-C3H6-N
0). To 160 ml. of methanol
NOVEMBER
195G
POTEKTIAL PURINE rlNTAGONISTS.
VI
1255
Preparation of 5-a?nano-i,S-dimethylpyrazole-4-carboxamide
Anal. Calc'd for CsHeNr: C, 53.7; H, 4.50; X, 41.8. Found:
(XXXIII, RI = CH,). 5-Amino-4-cyano-1,3-dimethylpyraC, 53.9; H, 4.55; N, 41.9.
Preparation of 1,6-dimethylpyrazolo[3,4-d]pyrimidine-C- zole (XXXII, RI = CH,) (50 9.) was added portionwise to
thione (XXIV, R1, Rz = CH3). A mixture of 8.6 g. of phos- 150 ml. of concentrated sulfuric acid. The isolation and
py- purification process was similar to that employed for 5phorus pentasulfide, 4 g. of 1,5-dimethylpyrazolo[3,4d]
Thus 42 g. (74y0)
rimidone-4 (XXIII, R1, R = CHa), 45 ml. of o-xylene, and amino-1-methylpyrazole-4-carboxamide.
g
of white needles were obtained, m.p. 203.5-204.5".
45 ml. of toluene m s refluxed for 3.5 hours. The mixture,
Anal. Calc'd for CsHloNp0: C, 47.0; H, 6.5; N, 36.3.
after cooling overnight, A as filtered. The solid was recrystallized from 120 ml. of hot water to give light-yellow Found: C, 47.3; H, 6.5; N, 36.2.
Preparation of 1,3-dimethyl-4-hydroxypyrazolo [5,4-d]pyrimneedles, m.p. 242-243" (sublimed a t 210"), yield 2.0 g.
Anal. Colc'd for C?HgN4S: C, 46.4; H, 4.44; N, 31.1. idine (XXXV, R1 = CH,). -4mi re of 35 g. of 5-aminoPound: C, 43.1; H, 4.56; N, 31.0.
1,3-dimethylpyrazole-4-carboxam (XXXIII, Ri = CH3)
and
Preparotion of 5-am~no-i-phen~ylpyrazole-4-carboxaniide 120 ml. of formamide was boiled on a hot plate for 4
(XV) from ci-hydroxy-l-phenylpyrazole-4-ethylcarboxylate
(X). hours. An equal volume of water was addcd to the mixture
A mixture of 20 g. of 5-hydroxy-1-phenylpyrazole-4-ethyl- and the R hite solid was filtered after standing overnight.
carboxylate, 5 g. of phosphorus pentachloride, and 500 ml. The product was recrystallized from ethanol to give m.p.
of phosphorus ovychloride was refluxed vigorously for 10 276.5'. The yield was 27 g. (72.5%).
hours. All ihe excess phosphorus oxychloride was distilled
Anal. Calc'd for CiH8N40: C, 51.3; 11, 4.0; N, 34.1.
off under rcduccd pressure. The residue, without purifica- Found: C, 51.5; H, 4.7; K, 34.0.
tion, was transferred to a container with 150 nil. of satuPreparation of 4-amino-3-nicfhylpyrazolo [3,6-d]pyriniidine
rated alcoholic ammonia. The mixture was heated a t 180' in a (XXXI). A mixture of 50 g. of 5-amino-4-cyano-3-methylbomb for G hours. The solution was evaporated to dryness, pyrazole (XXX) and 100 ml. of formamide was boiled on a
and the residue then was recrystallized from 957, ethanol. hot plate for 45 minutes. The isolation and purification proA small axr-ount of product mas obtained which melted a t cedure was followed as recorded for the preparation of 41G5-168". I t was recrystallized twice more from mater to aminopyrazolo [3,4- d ] pyrimidine3 from 3-amino -4- cyanoraise the melting point to 171-172'. The yield of white pyrazole and 20 g. (437,) of the purified product was obcrystals was 0.5 g. A mixture of this compound and that tained, m.p. > 300".
obtained by the hydrolysis of 5-amino-4-cyano-1-phenylAnal. Calc'd for C&7N5: C, 48.4; H, 4.7; N, 4G.9. Found:
pyrazole (IV, Rl = C&t6)did not lower the melting point.
C, 48.6; H, 4.8; N, 4G.8.
Anal. Colc'd for CloHloN40: N, 27.7. Found: N, 27.9.
Preparatzon of Q-amino-l,S-dimefhylpyrazolo[S,4-d]pyrinzPreparation of methylethoxymethylenemalononitrile(XXIX ). zdine (XXXIV, R1 = CH3). rl mixture of 50 g. of 5-aminoMalononitrile (81 g.), 200 g. of triethyl orthoacetate, and 4-cyano-1,3-dimethylpyrazole (XXXII, R1 = CHs) and
270 g. of acetic anhydride %-eremixed in a 2 1. three-necked, 100 ml. of formamide was boiled on a hot plate for 45 minround-bottom flask. The mixture was refluxed for 3 hours. utes. The isolation and purification procedure was identical
During the prriod the color of the solution changed from to that employed in the preparation of l-(P-hydroxgethyl)light yclloa to dark hrown. The solvents then were removed 4-aminopyrazolo[3,4-d]pyrimidine
(XIX, R, = CH2CH2by distillation at reduced pressure. The residue, which solidi- OH). The yield of product was 32.0 g. (53.47,), m.p. 203filtered and washed with a little cold 204". This compound vas recrystallized from m-ater as the
fied on cooling, w a ~
ethanol to give nhitc c stals, m.p. 88.5-89.5'. The yield monohydrate n hich lost matcr of hydration when heated
was 40 g. (83.77,). Rec stallization from ethanol did not at 140'.
change the melting point.
Anal. Calc'd for C711sN5.1120:C, 4G.G; H, 6.1. Found:
Anal. C ~ l c ' d for C ~ H S K ~ O : G1.7; H, 5.9; N, 20.6.
C,
C, 46.5; H, 5.0.
Found: C, (i2.0; €-I,5.G; N, 20.8.
-4fter heating a t 140" it had: Anal. Calc'd for C7H9?iS:
Preparation of 5-amino-4-cyano-S-methylpyrazole
(XXX). K, 43.0. Found: N, 43.4.
To 35 g. of 35% hydrazine hydrate in 20 ml. of ethanol was
Preparation of 1,5-dimethylpyrazolo[S,/t-d]pyrimidone-4
added 50 g. of methylethoxymethylenemalonitrile (XXIX), (XXIII, R1, = CH,). Method (1). T o 30 ml. of water
Rz
a little a t a 1 ime, with outside cooling. The mixture then was was added 3 g. of potassium hydroxide, 5 g. of l-methyl-4heated on the stcam-bath for 2 hours. The solution was hydroxypyrazolo[3,4-d]pyrimidine (XVII, R1 = CH3),
diluted n'itli 100 ml. of water and allowed to cool. The 10 g. of methyl iodide, and 100 ml. of methanol. The solucrude product, m.p. 160-163", was filtered and recrystallized
tion was shaken for 30 minutes with occasional cooling.
from ethanol and water to give white needles, m.p. 163", Then it was allowed to stand a t room temperature for 1
yield 43 g. ( 0 G : ' C ) .
hour followed by refluxing on a steam-cone for 4 hours.
Anal. Calc'd for C,H,NI: C, 49.1; H, 5.0; N, 45.9. Found: The solid, which separated from the alkaline sohition on
C, 49.3; H, 5.8; N, 45.9.
cooling, was recrystallized from methanol to yield white
Preparation of 5-amino-~-cyano-l,5-dimethylpyrazole needles, 4.1 g. (77yc), m.p. 193-195" (sublimed a t 130").
(XXXII, R , = CHI). To GO g. of 987Gmethylhydrazine in
Anal. Calc'd for C;H8N40: N, 34.1. Found: N, 33.9.
300 ml. of ethanol was added 96 g. of methylethoxymethylMethod ( 6 ) . To a solution of 25 g. of 4-hydroxypyrazoloenemalononitrile ( X S I X ) . The isolation and purification
[3,4-d]pyrimidine,330 ml. of mater, and 2.5 g. of potassium
procedure v a s carried out in the same fashion as for the hydroxide was slowly added 10 g. of methyl iodide in 50 ml.
White of methanol. Thc solution was refluxed gently for 5 hours on
preparation of 5-amino-4-cyano-I-methylpyrazole.
needles werci obtained, m.p. 194", yield 75 g. (87%).
a water-bath and then was evaporated to dryness. The criide
Anal. Calc'd for CaHsN4: C, 53.0; H, 5.9; K,41.1. Found: compound was recrystallized from water to give m.p.
C, 53.5; H, (1.3;T 41.1.
I,
190-193". Another recrystallization from water raised the
Preparation of 6-amino-4-cyano-3-methyl-1-phenylpyrazoE
melting point to 193-195". The final yield was 0.3 g. This
(XXXII, Rl = C6Hs).Methylethoxymethylenemalononitrile product was identical to thnt prepared by Method ( 1 ) as
(50 g , ) was slowly added to 45 g. of phenylhydrazine dis- judged by mixture melting point data and identical ultrasolved in 150 ml. of ahsolute ethanol. The reaction proceeded violet absorption spectra.
in a similar manner as for the preparation of 5-amino-4Preparatzon of 4-dimethylamino-I-niethylpyrazolo[S,4-d]
cyano-I-phenylpyrazole (IV, R1 = CsHS). The crude pyrimidine (XXVI, R,, R,= CH3). Method ( 1 )4-ChloroR3,
product, yield 58 g. (S070), melted a t 131-132'. Recrystall-niethylpyraaolo[3,4-d]pyrimidine (XVII, R1 = CHI)
lization from water gave long needles, m.p. 132-133'.
(12 g.) and 150 g. of
aqueous dimethylamine were
Anal. Cnlc'd for CI1HloN4: C, D G . 3 ; H, 5.1; N, 28.2. mixed in 50 ml. of ethanol. The solution was refluxed on a
Found. C, 65 7 ; H, 5 . 2 ; N, 28.3.
steam-bath for tn-o hours and then was evaporated to dry-
ness. The d i i t e solid was recrystallized from ethanol t o
yield 10 g. (95%) of u-hite crystals. Sublimation gave long,
I\ hite needles, m.p. 132".
Anal. Calc'd for CsHllNs: N, 39.5. Found: N, 39.5.
Method ( 2 ) .One gram of 4-dimethylaminopyraxolo[3,4-d]pyrimidine3 was dissolved in a solution of 75 ml. of methanol, 20 g. of methyl iodide, 2 g. of potassium hydroxide,
and 10 ml. of water. The solution was gently refluxed on a
water-bath for 8 hours and then ivas evaporated to dryness.
The white solid was rerrystallized from absolute ethanol
to yield white crystals, 0.4 g., m.p. 130-131". This compound was identical to that made by Method ( 1 ) as judged
by mixture melting point determination and comparison of
ultraviolet absorption spectra.
LASVEGAS,
NEWMEXICO