Fermentation process for the production of .beta.-carboline deri

Details Fermentation process for the production of .beta.-carboline deri Fermentation process for the production of .beta.-carboline deri

1992-07-09

1993-11-02

Knode, Marian C.

Chemistry: molecular biology and microbiology

Micro-organism, tissue cell culture or enzyme using process...

Preparing heterocyclic carbon compound having only o, n, s,...

435171, C12P 1718, C12P 0102

Patent

active

052582906

DESCRIPTION:

BRIEF SUMMARY
The invention relates to a process for the production of .beta.-carboline derivatives of general formula I ##STR3## in which X represents a hydrogen atom or a halogen atom, ##STR4## in which
X, Y, R.sub.1 and R.sub.2 have the above-mentioned meaning.
.beta.-carboline derivatives of general formula I are, as is generally known, pharmacologically effective substances, which can be produced, for example, by chemical dehydrogenation of 1,2,3,4-tetrahydro-.beta.-carboline derivatives of general formula II (EP-A 0130140, EP-A 0234173 and EP-A 0239669). But this chemical dehydrogenation is quite expensive and the yields that can be achieved in this way are low.
It has now been found that the dehydrogenation of 1,2,3,4-tetrahydro-.beta.-carboline derivatives of general formula II can be performed in a simple way under nonpolluting conditions and while achieving satisfactory yields, by these compounds being fermented with a fungal culture of genera Fusarium or Myrothecium. According to the studies so far available, fungal cultures of the species Myrothecium verrucaria seem to be especially suitable for the performance of the process according to the invention.
It is very surprising for one skilled in the art that the 1,2,3,4-tetrahydro-.beta.-carboline derivatives of general formula II can be converted with the help of the process according to the invention into .beta.-carboline derivatives of the general formula I since such dehydrogenation on heteroaromatic compounds has not been previously described. The fact that the ester groups of the substrates are not cleaved in this fermentation is also surprising.
The process according to the invention is performed under the same fermentation conditions, which are also used in the known microbiological conversions of substrates with fungal cultures.
Under the culture conditions usually used for fungal cultures, submerged cultures are cultivated in a suitable nutrient medium with aeration. Then, the substrate (dissolved in a suitable solvent or in emulsified form) is added to the cultures and fermented until a maximum substrate conversion is achieved.
Suitable substrate solvents are, for example, methanol, ethanol, glycol monomethyl ether, dimethylformamide or dimethyl sulfoxide. The emulsification of the substrate can be achieved, for example, by the latter being injected in micronized form or dissolved in a water-miscible solvent (such as methanol, ethanol, acetone, glycol monomethyl ether, dimethylformamide or dimethyl sulfoxide) under strong turbulence in (preferably decalcified) water, which contains the usual emulsification aids. Suitable emulsification aids are nonionogenic emulsifiers, such as, for example, ethylenoxy adducts or fatty acid esters of polyglycols. As suitable emulsifiers, the commercially available wetting agents Tegin.RTM., Tween.RTM. and Span.RTM. can be mentioned as examples.
The optimum substrate concentration, substrate adding time and fermentation period depend on the type of substrate and microorganism and fermentation conditions used. These values, as is generally necessary in microbiological steroid conversions, have to be determined in individual cases by preliminary tests, as they are familiar to one skilled in the art.
The 1,2,3,4-tetrahydro-.beta.-carboline derivatives of general formula II used as initial material for the process according to the invention can have as substituent X, for example, a hydrogen atom or a chlorine atom preferably present in p-position. Suitable substituents R.sub.1 of the substrate are, for example, the methyl group, the ethyl group, the propyl group, the isopropyl group or the tert-butyl group. As substituent R.sub.2 of the substrates, for example, the ethyl group, the propyl group, the isopropyl group and in particular the methyl group can be mentioned. These compounds are known, or can be produced analogously to the process which is described in EP-A 0130140.
The following embodiment is used for a more detailed explanation of the process according to the invention.


EXAMPLE

a) A 2 1 Erlenmeyer flask with

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