DE2065698B2 - Process for the preparation of 2-isopropyl-6-methyl-4 (3H) -pyrimidone - Google Patents

Description

The invention relates to a process for the preparation of 2-isopropyl-6-methyl-4 {3H) -pyrimidone and in particular to a process for the preparation of 2-isopropyl-6-methyl-4 {3H) -pyrim! don by reacting jJ-aminocrotonamide with an ester of a organic acid.

There is a process for the preparation of pyrimidone derivatives known in which 0-aminocrotonamide (I) with an organic acid anhydride or

CH ₃ -C = CH-C = O NH ₈ NH _H

(D

an organic acid halide is reacted to to produce a p-acylamino compound (II), which is then cyclized by heating or alkali treatment to form a To prepare pyrimidone derivative (III) (Tetsuzo Kato et al, Journal of the Pharmaceutical Society of Japan, Volume 87, page 955 [1967], and Volume 89, page 4 [1969]). This procedure can be represented as follows:

+ (RCO) ₃ O or RCOCI

H
C.
\ C = O ► CH ₃ -C H
C.
Λ \ \
C = O
I. CH ₃ -C NH ₂ I.
N _s Y I.
NH
/ NH
\ C = O
I. \ I.
R. (III) ^v c ⁷
I. (II) I.
R.

Herein R is alkyl or aryl.

However, this method has the following disadvantages: The acid anhydrides or acid halides, which must be used as starting materials are quite expensive; the process itself is time-consuming, since it comprises two stages and the overall yield is low. Since a solvent must be used, is also the separation and recovery of the solvent and any formed as a by-product Acid required after the reaction product has been separated off.

The process and the yield of the process mentioned (Kato et al) will be explained in more detail werdm: The acylation of jS-aminocrotonamide is in chloroform using isobutyric anhydride as acylating agent for 1 hour Heating carried out under reflux. The yield of the isobutyric acid amine compound is 62% by weight. After isolation, the acyl compound is heated with a 10% sodium methylate methanol solution and the ring closure to the 2-isopropylpyrimidone derivative carried out, which in a yield of 75 wt .-% is obtained. The total yield of pyrimidone is thus 46% by weight.

The reaction of primary or secondary amines with carboxylic acid esters as acylating agents is known (see Weygand - Hilgetag, Organisch-Chemische Experimentierkunst, 3rd edition, Leipzig 1964, pages 556 to 558). However, it can be seen from the literature (cf. G. Stork et al, J. Am. Chem. Soc. 85, 207-222, and Kato et al, Chem. Pharm. Bull. 17 [91 1889-1895, 1969) that from jJ-aminocrotonamide under

4-> Using conventional acylating agents, no / J-N-acyl compounds can be produced.

In the case of D. J. Brown, "The Pyrimidines", 1962, Interscience Publishers, p. 87, described ring closure reaction in an alkaline medium to form a Pyrimidine nucleus is a ring closure reaction with an isolated 0-acyl compound.

The aim of the invention is to create an improved process for the preparation of 2-isopropyl-6-methyl-4 (3H) -pyrimidone, in which a cheap raw material

«Material is used, a usable product in one

Level can be obtained using a Solvent is unnecessary and a high yield

is achieved.

The invention is a method for

bo Preparation of 2-isopropyl-6-methyl-4 (3H) -pyrimidone by acylation of / I-aminocrotonamide and subsequent ring union with elimination of water, the characterized in that 0-aminocrotonamide is used with at least 3 moles of isobutyl isobutyl ester

b5 heated at least three hours at a temperature between 6O ⁰ C and the boiling temperature of the reaction mixture in the presence of 2 to 4 moles Natriumisobutylat.

The process according to the invention can be represented by the following formula:

CH ₃ -C = CH-C = O
NH ₂ NH ₂

(D

+ RCO ₂ R ' CH ₃ - H
C.
y \
"CH ₁ -CC = O (IV) N NH
\ /
C.
I. CjH ₇ H
C.
y \
-CC = O
II NH NH-,
\
C = O CjH ₇

(HI)

where R and R 'are the isopropyl and isobutyl groups, respectively.

However, the above reaction does not proceed when the acid anhydride is used in the above-mentioned known method or the acid halide can only be replaced by an ester of an organic acid. It was However, it was surprisingly found that in the reaction of jJ-aminocrotonamide with the isobutyl isobutyl ester in the presence of 2 to 4 moles of sodium isobutoxide, the condensation reaction and the ring closure reaction run simultaneously and very smoothly in one stage.

It is not clear about which mechanism of action the sodium isobutylate causes the reaction, since there is still an ester / amide exchange reaction of this type is not known. It is believed, however, that a so-called N-acylation process, which is the first half of the present reaction forms, as an exchange reaction between the alcohol part of the ester and the amino part des / f-aminocrotonamide and the effect of the Sodium isobutylate in the present reaction has the effect of an alkali catalyst in an ester interchange reaction is similar

It is assumed that an active interconnection, such as e.g. B.

H
C.

CH., -C C -NH ₂

NHNa

exists and that the sodium isobutylate contributes to the formation of the compound. However, it should be noted that that the present invention by the above assumptions about the reaction mechanism is not should be restricted.

The method according to the invention will now be explained in more detail below.

Isobutyl alcohol is used to prepare the sodium isobutylate used according to the invention, which Sodium isobutylate is not noticeably hydrolyzed and which can be prepared anhydrous. The isobutyl alcohol is in When used in a sufficient amount, it will hate all of the sodium metal in the sodium isobutylate is convicted. It is possible to use an excess amount of isobutyl alcohol as the inert solvent for this purpose to use like this in the sequence

is described, but too large an excess is undesirable because it reduces the yield will.

To get the jS-aminocrotonamide in good yield

jo to implement the isobutyl isobutyl ester according to the invention at least 3 moles of isobutyl isobutyl ester and 2 to 4 moles of sodium isobutylate per mole /? - aminocrotonamide used.

In carrying out the process, sodium isobutylate is dissolved in isobutyl isobutyl ester or anhydrous isobutyl alcohol is added to metallic sodium to produce sodium isobutylate, and isobutyl isobutyl ester is then added. Anhydrous isobutyl alcohol can also be added to the isobutyl isobutyrate and the sodium metal can then be added. In this way, sodium isobutylate dissolved in isobutyl isobutyl ester is obtained. The JJ-aminocrotonamide is then added to this. The addition is carried out with cooling because of the exothermic reaction. The reaction is then continued for 3 hours or more while the reaction system is kept at a temperature of 60 ^° C. to the boiling point.
After the reaction has ended, the product can

-, o by a usual. Procedure can be obtained. For example, the sodium isobutylate present in the reaction mixture can be mixed with an inorganic Acid such as B. hydrochloric acid, sulfuric acid or the like, neutralize, filter off the precipitated salt, the resulting mother liquor under a reduced pressure to produce crude crystals concentrate and remove the crude crystals from a suitable solvent, e.g. B. acetone, chloroform, Methanol, ethanol or the like, recrystallize.

ho The invention is illustrated by the following example explained in more detail.

example

Production of
^b) 2-Isopropyl-6-methyl-4 (3H) -pyrimidone

20 g of metallic sodium were dissolved in 150 ml of ¹ anhydrous isobutanol to obtain an isobutanol

To prepare a solution of sodium butylate, 40 g ß-aminocrotonamide and 300 g of isobutyl isobutyrate were then added. The resulting mixture was then refluxed with stirring for 5 hours At the end of the reaction, the resulting reaction mixture was neutralized with 10% aqueous HCl followed by concentration by heating under reduced pressure and extraction with Connected to chloroform. The crystals obtained from the resulting chloroform phase vfurden out Recrystallized acetone

Thus, there was 51.8 g of 2-isopropyl-6-methyl-4 (3H) -pyrimidone (colorless, needle-shaped crystals) obtained (yield 85.5%). Mp 170-171 ° C.

Elemental analysis (chemical composition CgH ^ ON?)

Theoretical: C 63.13, H 7.95, N 18.41%; Found: C 63.15, H 8.00, N 18.50%.

Claims (1)

Claim: Process for the preparation of 2-isopropyl-6-methyl-4 (3H) -pyrimidone by acylation of 0-ami- nocrotonamide and subsequent ring closure under Dehydration, characterized in that one J3-aminocrotonamide with at least 3MoI isobutyl isobutyl ester in the presence from 2 to 4 moles of sodium isobutylate to a temperature between 60 "C and the for at least three hours The boiling point of the reaction mixture is heated