CA2325879A1 - Voacamine as anti-malarial agent and anti-malarial agent containing voacamine - Google Patents

Abstract

The invention concerns voacamine as anti-malarial agent active against Plasmodium falciparum strains, including the resistant strains, as well as an anti-malarial agent containing as main active principle voacamine. A basic Pescheria extract, in particular Pescheria Fuchsiaefolia, can be used as anti-malarial agent having in particular voacamine as active principle.

Description

ANTI-MALARIA AGENT CONTAINING VOACAMINE
The present invention relates to voacamine and its use in as an asti-malarial agent with strong activity all against all the resistant or not resistant Plasmodium strains. By resistant strains is meant of strains resistant to quinone alkaloids such as quinine and chloroquine, as well as strains resistant to aminocrinodines.
Voacamine or 12-methoxy-13 - [(3a) -17-methoxy-17-oxovobasan-3-yl] methyl ibogamine-18-carboxylate, C ~ H52N405, the structural formula of which (I) is given below. is a dimeric bis-indole alkaloid in many species of plants belonging to the genus Voacanga (see par free US 2,823,204).
Cü3C
I
This alkaloid is known for its cytotoxic activity (J. Nat. Prod., 1994, 57, 1517) and for its anti-bacterial activity both against Gram bacteria + that against Gram bacteria (Phytochemistry, 1984, 23 1771).
The object of the present invention is the use of voacamine as anti-malarial agent, against strains of Plasmodium, in particular Plasmodium falciparum, including resistant strains.
CONFIRMATION COPY

WO 99/48501

2 PCT / IB99 / 00524 Malaria or malaria is a serious endemic disease that affects populations of tropical and sub-tropical countries and which is conveyed by a mosquito. The parasite is a hematozoan of the genus Plasmodium, for example Plasmodium vivax, Plasmodium ovale, Plasmodium malariae and above all, the most dangerous, Plasmodium falciparum. This disease is fought by various drugs that are usually quinofitic alkaloids, such as chloroquine, or aminocrinodines. Unfortunately, Plasmodiums have little to little resistance, especially to chloroquine, and this drug East become ineffective in many parts of the world. We must replace it other medicines such as aminocrinodines, which unfortunately are toxic.
According to the invention, the inventors have demonstrated the effectiveness of the voacamine against Plasmodium strains, including those that have become resistant to quinolitic alkaloids and aminocrinodines, without effect secondary known to date. The invention therefore relates, in a first aspect, the voacamine as an anti-malarial agent.
In another aspect, the invention relates to anti-malarial agents containing voacamine, in particular plant extracts which contain this alkaloid. The invention therefore relates to basic extracts of plants of the Voacanga, but also basic extracts from other plants containing voacamine, in particular to basic extracts from plants of the genus Peschiera (or Tabernaemontana), in particular Peschiera van heurckü, Pescheria campestris, Peschiera affinis, Peschiera laeta and more particularly Peschiera Fuchsiaefolia.
Peschiera Fuchsiaefolia, an apocyanced of the subfamily of Tabernaemotanoideae, is a plant native to South America, in particular of Amazon basin. Called in Brazil "leitiero de vaca", it's a bad grass pasture infestant, which is treated with pesticides. We have reported recently that extracts from this plant can be used to neutralize the venom of cobra (J.
Venemous Anima Toxins 1997, 3, 22).
The invention therefore also relates to a basic extract of Peschiera, in particular of Pescheria Fuchsiaefolia and more particularly a extract WO 99/48501

3 PGT / IB99 / 00524 basic seeds, bark of stems or Peschiera roots Fuchsiaefolia, rich in tertiary alkaloids.
We have also found, without explanation known to date, that the extract basic consisting of the fraction rich in tertiary alkaloids of the roots bark de Peschiera Fuchsiaefolia had an activity superior to voacamine alone, probably by synergistic effect with one or other of the other alkaloids present in this extract, namely perivine, 16-epi-affinises, f'affinisine, voacamidine, the 16'-decarbomethoxyvoacamine, Nb of demethylvoacamine, tabernamine, ervahanin A, vobasin, voachalotin, heyneanin, voacristin conopharyngine, coronaridine and voacangine. of formulas II, II or IV
respectively, given on the next page.
Tabernamine, ervahanin A, vobasin, conopharygin, ta heyneanine, voacristaine and coronaridine were for the first time isolated from this plant.
The other alkaloids are known and their developed formulas are data in The Merck Index, page 9944.
Using voacamine or basic plant extract containing voacamine, it is possible to manufacture medicines in which the or the alkaloids present, in the form of the free base or of physiologically salts acceptable, are incorporated in a support or excipient pharmacologically acceptable.
Yet another aspect of the invention is a method of isolating from Peschiera, in particular from Pescheria Fuchsiaefolia, of a basic extract having anti-malarial properties, as well as a process for isolating voacamine from go of these same plants.
The extract in question can be prepared by treatment with a dilute acid a dry grind of Pescheria Fuchsiaefolia or part of the plant only (root bark, stem bark) to extract the basic principles, followed by the alkalization of the aqueous extract thus obtained at a pH of the order of 9 and from (extraction of the fraction rich in tertiary alkaloids with an organic solvent, for example of WO 99/48501

4 PCT / IB99 / 00524 t "II

Perivine H ~ H COOCH3 ~! 20H22N2 ~ 3 16-epiaffinin CH3 CH20H H
C20H24N2 ~ 2 Vobasin III
t Affisine C20H21 N2 ~
Voacalotine COOCH3 CH20H
C21 H23N2 ~ 3 IV
--L ..J
Coronaridin HHH

C2oH2sN202 Voacangine OMe HH

C20H28N2 ~ 3 Conopharyngine OMe OMe H

C23H30N2 ~ 4 Heynanine HH OH

Voacristine OMe H OH

(Voacangrine) WO 99/48501

5 PCT / 1B99 / 00524 dichloromethane.
Isolation of voacamine from this alkaloid-rich fraction tertiary is carried out by counter-current distribution between a phase aqueous and a organic phase by varying the pH of the aqueous phase.
Voacamine, as well as the basic extracts containing it, in particular the extracts of Pescheria Fuchsiaefolia, can be formulated under form mediators, according to conventional galenic techniques, for example under form of injections, syrups, suppositories, tablets or tablets, effervescent or not, or capsules. We will of course use excipients and pharmacologically acceptable carriers, such as sugar, lactose, etc.
In these pharmaceutical formulations, voacamine and the alkaloids which possibly accompanies it, can be in the form of free bases or of physiologically acceptable sets, such as hydrochlorides, etc.
The invention will be better understood by reference to the examples which follow, given purely by way of illustration and not limitation.

The starting material is Peschiera Fuchsiaefolia root bark collected in Brazil, at Porto Alegre, which was identified locally, on the plan botanical, by the pharmaceutical industry Cibecol.
630 g of the finely pulverized plant material are treated by extraction (3 successively) with 296 aqueous acetic acid, the eluates that alkalinizes to pH 9 with sodium carbonate, then extracted three times at again the aqueous alkaline phase with dichloromethane.
After the organic phases have been combined and the dichloromethane has been removed, obtains residue (12.1 g) comprising tertiary alkaloids, or extract it basic desired.
The activity of this basic extract against strains is measured in vitro Plasmodium falciparum, both chloroquine resistance (W2) strains and of strains sensitive to chloroquine (D6). The activity is evaluated by evaluating HERE

WO 99/48501

6 PCT / IB99 / 00524 (inhibitor concentration). The results are collated in Table 1 located after (example 3.

The various tertiary alkaloids contained in the basic extract are separated of Example 1 by distribution against the current with dichloromethane as stationary phase and an aqueous buffer with decreasing pH in steps (phase mobile).
The alkaloids are recovered from the aqueous phase by extraction with dichloromethane.
The apparatus used is a Craig type Post apparatus consisting of 200 glass tubes (l0ml volumes for the lower phase and lml for the phase superior).
At pH 7, a first series of minor alkaloids is obtained, then at pH 5.2 are eluted in order the perivine (K ~ xKb = 4.10'9), the 16-epi-affinine (K ~ xKb = 2.5.10 ' then faffinisine (K, xKb = ?. 10- '°). At pH 4 the N- is eluted demethylvoacamine (K, xKb = 3-5.10 '") and vobasin (K ~ xKb = 4.10-"). At pH 3.2, voachalotin is eluted (K, xKb = 2.10- ") and voacamine (IC ~ xKb = 1.310 '"). At pH 3.0 the heyneamine (K ~ xKb = 5.10''2) and voacristin (K ~ xKb = 3.5.10''2). At pH 2.6, the conopharyngine (K, xKb = 2.10-'2) and finally at pH 2.2, coronaridine (K, xKb = 8.10-'3) and the voacagine (K ~ xKb = 6,5.10''3). By counter-current distribution in a system bi-basic dichloromethane, methanol and water 7.512 are obtained from alkaloids quaternaries, so't 12-methoxy-Nb-methylvoacalotine and Nb-methylaffinisin under form of chlorides.
K ~ represents the partition coefficient (aqueous phase phase distribution organic) and Kb is the dissociation constant.
Each alkaloid is purified by one or more new passages in recycling in a counter-current distribution, then by crystallization.
The alkaloids were identified by 'H,' 3C and mass spectrometry.
The ICI measurements are carried out for vocamine in vitro as described in WO 99/48501

7 PCT / IB99 / 00524 Example 1. The results obtained are reported in the table summary 1 presented later. The cytotoxicity of voacamine is as follows EDF 3.8 ~ glml fear of P 388 mouse cell lines ED5o 13.6 pg / ml for KB cell lines The procedure is as in Example 1, but not using the bark of root but the stem bark to get the basic extract as described previously. The yield is 1.90 On this extract, ICI measurements are carried out in vitro as described in Example 1. The results obtained are reported in the table above.
Board HERE Strains Strains ex. 1,179,282 ex. 2,238,290 ex. 3,495,817 The values are expressed in ng / ml. The lower they are, the more the product is active. It is found that voacamine exhibits remarkable anti-Plasmodium against both types of strains (its activity being comparable to that chloroquine against sensitive strains D6). Extract activity basic stem bark of example 3 is less, but this extract remains nevertheless active against Plasmodium W2 strains resistant to chloroquine.
The most active is the basic extract of the tertiary alkaloids of Example 1 WO 99/48501

8 PCT / IB99 / 00524 obtained from the bark of the roots.

We are conducting clinical trials on a group of 74 people at Mozambique, endemic region of Plasmodium strains resistant to chloroquine. These people all have malaria.
Each of these persons is injected with 4 ml of the basic extract of Example 1 in 100 ml of physiological solution at the 7th, Seme or 3rd vertebra.
After 3 hours, in most cases, clinical signs of malaria (fever, vomiting, diarrhea, sore joints) disappeared and after 4 a.m.
Corresponding cell cultures are all negative.
In 72% of cases, patients recovered within 4 days and 90 ° ~
of patients recovered if treatment continued for 3 days consecutive.
Some patients are treated orally (syrups) and anally for detect any unwanted side effects. We do not coristate any. II
is there of a big difference with the toxic side effects seen with the common medicines used to combat malaria in the regions of world where mosquitoes have become resistant to chloroquine.

Claims (13)

1. Voacamine as an anti-malarial agent active against strains of Plasmodium falciparum, including your resistant strains. 2. Anti-malarial agent having activity against strains of Plasmodium, including including resistant strains, characterized in that it comprises as active ingredient main voacaminum according to claim 1. 3. Anti-malarial agent according to claim 2, characterized in that it is present in the form of a basic plant extract comprising voacamine. 4. Anti-malarial agent according to claim 3, characterized in that the extract basic is an extract of Peschiera. 5. Agent according to claim 4, characterized in that the extract is a extract of Peschiera Fuchsiaefolia. 6. Agent according to claim 5, characterized in that the basic extract is a extract of the bark, in particular the root bark, of Peschiera Fuchsiaefolia. 7. Anti-malarial agent according to claim 4 to 6, characterized in that the extract basic is a fraction rich in tertiary alkaloids. 8. Anti-malarial agent according to claims 5 to 7, characterized in that it includes besides voacamine, at least one of the following alkaloids:
perivine, 16-epi-affirin, affinisin, Nb-demethylvoacamine, vobasin, voachalotin, heyneanin, voacristine or voacangerine, conopharyngine, coronaridine and voacangine. 9. Anti-malarial drug active against strains of Plasmodium falciparum, including resistant strains, characterized in that it comprises voacamine according to claim 1 or one of its physiologically acceptable salts, associated with a carrier or physiologically acceptable excipient. 10. Anti-malarial drug active against strains of Plasmodium falciparum, including resistant strains, characterized in that it comprises an agent antimalarial according to one of claims 2 to 8, in the form of free bases or salts physiologically acceptable, associated with a carrier or an excipient physiologically acceptable. 11. A method of isolating an anti-malarial agent according to one of claims 3 to 7, characterized in that it comprises the steps consisting in:
treat with a dilute acid a dry crushed Pescheria Fuchsiaefolia or a part of the plant only to extract the basic principles, basify the aqueous extract thus obtained to a pH of the order of 9, and extracting the fraction rich in tertiary alkaloids with an organic solvent, in particular dichloromethane. 12. Process for the isolation of voacamine from the basic extract according to the claim 11, by countercurrent distribution between an aqueous phase and a organic phase by varying the pH of the aqueous phase step by step successive, the voacamine being recovered at pH 3.2. 13. Method of insulation according to claim 12, characterized in that the plant starting point is a plant of the Genus Pescheria, in particular Pescheria Fuchsiaefolia.