AP183A - Antiprotozoal composition and process for preparing the same. - Google Patents

Abstract

Disclosed herein is an antiprotozoal containing 2-nitroimidazole derivative as its active component. This drug is especially useful against trypanosoma cruzi. Process for the preparation is alos disclosed.

Description

PREPARING THE SAME

Background of the Invention

i) Field of the Invention:

This invention relates to an antiprotozoal composition which is especially effective against Trypanosomatidae and a process for preparing the same.

ii) Background Art:

In developing countries especially in South America, high death rate due to diseases caused by protozoa is a big issue. Not only the native people, foreign people sent by other countries to help develop the country are also exposed to danger of getting suffered from such diseases.

Among the diseases caused by protozoa, those caused by Trypanosoma cruzi are fatal because currently no effective antiprotozoals are known. Especially in the case of acute infections, it is not rare that the patients die from myocardosis. Meanwhile, tens of millions of people suffer from chronic infectious diseases caused by Trypanosoma cruzi. Prevention and treatment of these diseases, therefore, has been given top priority by the WHO.

It is believed that the development of an effective antiprotozoal, especially' against Trypanosoma cruzi is significant for the mankind welfare.

Summary of the Invention tO <90

BAD ORIGINAL

A primary object of the invention is to provide an antiprotozoal composition which contains as its active component a 2-nitroimidazole derivative of the following formula ( I ):

IjT ^xN0_a ( I )

R wherein R is -CH₂OCH₂CH=CHCH₂OH, -CH₂OCH(CH₂OH ) ₂ or

Another object of the invention is to provide an antiprotozoal composition which contains as its active component a 2-nitroimidazole derivative of formula (I):

AP 0 0 0 1 8 3 wherein R is -CH₂OCH₂CH=CHCH₂OH, -CH₂OCH(CH₂OH)₂ or θ'''- and an anionic polymer.

OH OH

A further object of the invention is to provide a process for preparing such compositions.

The above and other objects, features and advantages of the present invention will become apparent from the following description.

Detailed Description of the Invention and Preferred Embodiments

The 2-nitroimidazole derivative (I), which is an active component of the antiprotozoal of this invention, is a known compound, and is prepared, for example, by the reaction steps:

N0 a II ( Π ) + R^z—X ( m )

NO

I

R' ( IV )

N^^NOa I

R ( I ) wherein X is a halogen atom, R’ is -CF^OCF^CH^CHCP^OAcn

AP 0 0 0 1 8 3

CH₉0CH(CH₉0Ac)₉ or , „ ^ά ά ά AcO

OAc OAc . In other words, reaction between 2-nitroimidazole (II) and a halide (III) produces a compound (IV), and

deacetylation of the compound (IV) produces the

2-nitroimidazole derivative (I).

The reaction between 2-nitroimidazole (II) and a halide (III) is preferably carried out in the presence of a base such as triethylamine and in a solvent such as dimethylformamide. The deacetylation of compound (IV) is preferably carried out in a mixture solvent of acetonitrile-water in the presence of a base such as triethylamine, pyridine or the like. After completion of the reaction, purification of compound (I) is carried out by condensing the reaction mixture, separating through means such as column chromatography, and then condensing again for recrystalization.

The thus obtained 2-nitroimidazole derivatives (I) have excellent anti-protozoan actions as will hereafter be illustrated in Examples, and are very safe, too.

Accordingly, they are useful as a drug against protozoa, namely as an antiprotozoal.

Dosage of the antiprotozoal containing 2nitroimidazole derivative (I) according to this invention differs depending on the patients’ age, sex, weight, administration route, body conditions and the illness. In the case of oral administration, 30 mg - 1500 mg/day is suggested and in the case of non-oral administration,

10-500 mg/day is suggested, both for an adult.

AP 0 0 0 1 8 3 r

Further, the anti-protozoan activity of compound (I) is remarkably enhanced when it is used in combinaton with an anionic polymer. Especially, it is noted that such combination completely clears up the protozoa from the body of the infected patient, which enables to prevent the symptoms from becoming chronic.

The usable anionic polymers are any of natural origin or synthesized ones. Exemplary natural anionic polymers include mucopolysaccharides such as hyaluronic acid, chondroitin sulfuric acid and their salts; hemicelluloses such as alginic acid, carboxymethylcellulose, hydroxymethyIcellulose , hvdroxyethyIcellulose , hydroxypropylcellulose , hydroxypropylethyIcellulose , methylcellulose, carboxymethyl amylose and their salts. Exemplary synthetic anionic polymers include polymers obtained from the polymerization of the followng monomers:

(a) Unsaturated carbonic acid monomers such as acrylic acid, methacrylic acid, maleic acid, etc.

(b) Unsaturated sulfonic acid monomers such as styrene sulfonic acid, etc.

(c) Unsaturated phosphoric acid monomers such as vinyl sulfonic acid, acid phosphoxyethy1 methacrylate, etc.

Polymers obtained form the copolymerization of the above monomers and other polymerizable monomers may also be used. An example of such copolymer is an acrylic acidAP 0 0 0 1 8 3 diisobutylvinyl ether copolymer.

The above-mentioned anionic polymers are preferably water-soluble. The proportion of the anionic polymers to compound (I) ranges form 1/1000 to 1/1 on the weight basis.

The antiprotozoal composition of this invention can take various forms. By conventional processes, it is formed into tablets, granule, powder, capsules, suspensions, injections, suppositories and the like.

In order to make a solid preparation, compound (I) is first blended with pharmaceutically acceptable carriers or additives such as an excipient, and if necessary, with a binder, disintegrator, lubricant, coloring agent, taste and smell modifier, filler, coating material or the like and then formed into tablets, granule, powder, capsules and suppositories by known methods. Here, the excipient includes saccharides, starch, inorganic excipient and plant powders; the binder includes starch paste solution, gum arabic, gelatin, polyvinyl pyrrolidone and polyvinyl alcohol; the disintegrator includes starch, agar, gelatin powder, calcium carbonate and sodium hydrogencarbonate; the lubricant includes magnesium stearate, talc, hydrogenated vegetable oils and silicone oils; and the coating material includes sugars, glues (gelatin, glycerol, sorbitol) and film coating materials.

To prepare an injection drug, compound (I) is

AP 0 0 0 1 8 3

BAD ORIGINAL (/1 dissolved, dispersed or emulsified in an aqueous medium such as distilled water in advance, or is made into a powder, which is dissolved in an aqueous medium upon use.

As for the injection route, intravenous, intra-arterial, intra-portal, intraperitoneal, intramuscular and subcutaneous routes are mentioned.

Examples

This invention will now be explained by way of Examples, which however should not be construed as limiting the invention thereto.

Example 1. Anti-protozoan action 1 ( in vitro):

A204 cells (derived from a rhabdomyoma), which had been infected in advance with Trypanosoma cruz i and maintained by subculture at 37‘C, were cultured in a 24-well plate for tissue culture. The protozoa in the number of about 10 were confirmed to be present. After the cells were treated with 50 //mol, 100 μπιοί and 500 //mol of compounds 1) to 3), they were cultured at 37‘C for 24 hours. Life and death of the protozoa was observed under microscope and scored. Criteria for the scoring and the results are given below. The medium used was Dulbecco

Modified Eagle Medium manufactured by

Dainihon-Seiyaku K.K. added with 10% bovine serum. Control was free of any of compounds 1 to 3).

Compound 1): Compound (I), wherein r ' ¹

BAD ORIGINAL

AP 0 0 0 1 8 3

Compound 2):

Compound 3):

R is -CH₂OCH₂CH=CHCH₂OH Compound ( I ), wherein R is -CH₂OCH(CH₂OH)₂ Compound (I), wherein

OK OH

Criteria for Scoring +++ : same number of protozoa alive as control

Results slightly less number alive than control less number alive than control only a few alive all dead

Table 1

IX <

Concentration	50 /zmol	100 //mol	500 pmol
Compounds
Compound	1)	±	-	-
II	2)	+ +	+ +	-
»1	3)	+ +	+ +	+

The above results show that compounds 1) to 3) have an

BAD ORIGINAL excellent anti-protozoan action.

Example 2 Anti-protozoan action 2 ( in vitro):

Trypanosoma cruzi was cultured at 27’C in a GIT medium (serum-free medium) manufactured by Nippon Seiyaku K.K.

which was modified to contain 12.4 mol of hemine.

/zmol, 100 pmol, 250 μπιοί and 500 μπιοί of each of compounds 1) to 3) were added thereto. 120 hours later, life or death of the protozoa was observed under microscope and scored according to the criteria in Example 1. The results are shown in Table 2. Control was free of any of compounds 1) to 3).

Table 2

Concentration	50 μιηοΐ	100 /zmol	250 μ mol	500 /zmol
Compounds
Compound 1)	+ +	+ +	+	-
Compound 2)	+ + +	+ + +	+ + +	+ + +
Compound 3)	+ + +	+ + +	+ + +	+

AP 0 0 0 1 8 3

Example 3 Anti-protozoan action (in vivo) :

Trypanosoma cruzi (Tulahuen strain) in the number of

400,000 was intraperitoneally administered to a group of 4 week old male ICR mice. At each of fifth, sixth, seventh, eighth and ninth day of the administration, 200 mg/kg of compound 1) was given to the mice. Control group was given saline solution instead of compound 1). The anti-protozoan effect of compound 1) was determined based on the days of survival of the mice.

As a result, 2 mice out of 3 mice of control survived 14 days and the other 15 days, while all of 3 mice administered with compound 1) survived more than 50 days. Compound 1) was thus proved to have an excellent in vivo anti-protozoan action.

Example 4 Anti-protozoan action (in vivo)

Trypanosoma cruzi (Tulahuen strain) in the number of 200,000 was intraperitoneally administered to a group of 5 week old male C3H/Hecrj mice. At each of fourth, fifth, sixth, seventh and eighth day of the administration,

200 mg/kg of compound 1) was given to the mice. Control group was given saline solution instead of compound 1).

The anti-protozoan effect of compound 1) was determined based on the days of survival of the mice.

As a result, 2 mice of the control group survived 12 days while 4 mice administered with compound 1 ) survived more than 20 days. Compound 1) was thus proved to have excellent anti-protozoan action.

Example 5

Five groups (Groups 1 to 5) of four week old ICR male mice, each group consisting of 3 mice, were provided.

AP 0 0 0 1 8 3

Group 2 and Group 5 mice were given 4.4 mg of acrylic acid-diisobutylvinyl ether copolymer (monomer ratio = 1:1, average molecular weight = 1.29 X 10$) as dissolved in a 0.2 ml saline. On the second day, all animals were intraperitoneally given Trypanosoma cruzi (Tulahuen Strain) in the number of 40,000 for each. On the fifth, sixth, seventh, eighth and ninth day of the administration of the

Tripanosoma, Group 1 and Group 2 mice were given saline, and Group 3 and Group 5 mice were given compound 1) (200 mg/kg) as dissolved in saline. Group 4 mice were intraperitoneally given 4.4 mg of acrylic acid-diisobutyl vinyl ether copolymer (monomer ratio = 1:1, average molecular weight = 1.29 X 10^) and compound 1) (200 mg/kg) on the fifth day of the administration of the Trypanosoma, and on the sixth, seventh, eighth and ninth day of the administration, compound 1) (200 mg/kg) was intraperitoneally administered. Observation was continued until 60th day of the administration of Trypanosoma. The mice which were alive on the 60th day were killed and dissected to check the presence or absence of the protozoa in blood, the heart and in the liver under microscope. The results are shown in Table 4.

AP 0 0 0 1 8 3

Γ) » · Οί Β.

⁴ 1 * „ I , < t

Table 4

Mice Group No.	Number of Dead Samples	Presence Blood	of Protozoa Heart	(60th day) Liver
1.	1 on the 13th day of Trypanosoma Administration 1 on the 14th day of Trypanosoma Administration	+	+	+
2 .	1 on the 17th day of Trypanosoma Administration 1 on the 18th day of Trypanosoma Administration	+	+	+
3.	0	+	+	+
4.	0	+*	±*	±*
δ .	0	-	-	-

*: ± means that although protozoa were observed, the number of the same was very small. I

The data in Table 4 shows that there was no death in the groups (Group Nos. 3,4 and 5) which were given compound 1), which indicates effective anti-Trypanosoma action of compound 1). Further almost no protozoa was observed in the body of the animals of the groups (Group Nos. 4 and 5) which were given compound 1) and an anionic copolymer. Example 6 Acute toxicity:

ICR mice were intraperitoneally administered with compound 1) for the acute toxicity test. Observation was

BAD ORIGINAL continued for 14 days after the administration. The results are shown in Table 3.

Table 3

Compounds	LD50 (mg/kg)
Compound 1)	830
Compound 2)	4,300
Compound 3)	>5,000

The antiprotozoal composition according to this invention has an excellent anti-protozoan action, and is very useful for the prevention or treatment of acute and chronic infectious diseases caused by various protozoa, especially Trypanosoma cruzi

Claims (15)

1. What is Claimed is:

   1. An antiprotozoal composition containing as its active component a 2-nitroimidazole derivative of formula (I):

   wherein R is -CH₂OCH₂CH=CHCH₂OH,
2. 2. An antiprotozoal composition derivative of formula (I):

   OH OH

   -CH₂OCH(CH₂OH)₂ or containing a 2-nitroimidazo ( I )

   -CH₂OCH(CH₂OH)₂ or anionic polymer.

   £ 8 I 0 0 0 dV ·
3. 3. A process for preparing an antiprotozoal composition, which comprises a step that a 2-nitroimidazole derivative of formula (I ) :

   R wherein R is -CH₂OCH₂CH=CHCH₂OH, -CHgOCH(CH₂OH)₂ or

   OH OH is added with an anionic polyer.
4. 4. A process for preparing an antiprotozoal composition, comprises a step that a 2-nitroimidazole derivative of formula (I ):

   R wherein R is -CH₂OCH₂CH=CHCH₂OH, -CH₂OCH(CH₂OH)₂ or is added with a pharmaceutically acceptable additive or an aqueous carrier.
5. 5. A process for preparing a solid antiprotozoal composition, which comprises a step that a 2-nitroimidazole derivative of formula (I):

   wherein R is -CH₂OCH₂CH=CHCH₂OH, -CHgOCH(CHgOH)₂ or is added with a pharmaceutically acceptable additive for a solid preparation.

   AP 0 0 0 1 8 3
6. 6. A process for preparing an injection preparation of an antiprotozoal composition, which comprises a step that a 2-nitroimidazole derivative of formula (I):

   Cl ^VN^NO₂ ( I )

   I

   R wherein R is -CH₂OCH₂CH=CHCH₂OH, -CH₂OCH(CH₂OH)₂ or

   DH OH is added with an aqueous carrier.
7. 7. A process for preparing an antiprotozoal composition, which comprises a step that a 2-nitroimidazole derivative of formula ( I ):

   OH OH is blended with an anionic polymer and a pharmaceutically <

   acceptable additive or an aqueous carrier.
8. 8. A process for preparing a solid antiprotozoal composition, which comprises a step that a 2-nitroimidazole derivative of formula (I):

   R wherein R is -CH₂OCH₂CH=CHCH₂OH, -CHgOCH(CHgOH)₂ or is blended with an anionic copoymer

   OH OH and a pharmaceutically acceptable preparation .

   additive for a solid
9. 9. A process for preparing an injection preparation of an antiprotozoal composition, which comprises a step that a 2-nitroimidazole derivative of formula (I):

   wherein R is -CH₂OCH₂CH=CHCH₂OH, -CH₂OCH(CH₂OH)₂ or ^H

   HO—1/ is blended with an anionic polymer

   X-T

   OH OH and an aqueous carrier.

   AP 0 0 0 1 8 3
10. 10. A method of treatment of an infectious disease caused by a protozoan, which comprises the administration to a patient a therapeutically effective amount of an antiprotozoal containing as its active component a 2nitroimidazole derivative of formula (I):

    fK ^xN0 I

    R

    -ch₂och₂ch=chch₂oh,

    -CH₂OCH(CH₂OH)₂ or wherein R is
11. 11. The method according to Claim 5, wherein the protozoan is Trypanosoma cruzi.
12. 12. A method of treatment of an infectious disease caused by a protozoan, which comprises the administration to a patient a therapeutically effective amount of an antiprotozoal containing as its active component a 2nitroimidazole derivative of formula (I):

    fK ^xN0₂

    I

    R

    AP 0 0 0 1 8 3 wherein R is -CH₂OCH₂CH=CHCH₂OH, -CH₂OCH(CHgOH)₂ dr

    H

    HQ-lX N [\u Η λ , and an anionic polymer.

    η ί-r

    OH OH
13. 13. The method according to Claim 12, wherein the protozoan is Trypanosoma cruzi.
14. 14. .The method according to Claim 12, wherein the anionic polymer is water-soluble.
15. 15. The method according to Claim 12, wherein the proportion of the anionic polymer to the compound (I) is 1/1000 to 1/1 on the weight basis.

    DATED THIS 27th DAY OF May 1991 ftp 0 0 0 1 8 3

    Disclosed herein is an antiprotozoal containing a 2-nitroimidazole derivative as its active component. This drug is especially useful against Trypanosoma cruzi. Process for the preparation is also disclosed.