Cyclosporins, biosynthesis isolation

A non-ribosomal biosynthetic pathway is clearly indicated for cyclosporin A, considering the uncommon structural elements MeBmt, L-a-aminobutyric acid and D-alanine as well as the plethora of isolated congeners [20,21]. Non-ribosomal biosynthesis directed by multienzyme thiotemplates have been reported for other small peptides of microbial origin, for example, gramicidin S [22] and enniatin [23]. Experimental data for cyclosporin A were obtained by feeding appropriate labelled precursors to cultures of T. inflation strains. The distribution profile of the labelled atoms in cyclosporin A was determined by 3H- or 13C-NMR spectroscopy. In preliminary trials with several tritium and carbon-14 labelled precursors, [met/y>/-3H]methionine proved to be the most suitable marker for the biosynthetic preparation of radiolabelled cyclosporin A for pharmacokinetic and metabolic studies [24],... 

In more recent investigations, the assumed multienzyme involved in cyclosporin A biosynthesis could be isolated from T. inflatum. A partially purified enzyme fraction was indeed capable of forming enzyme-substrate complexes by thioester linkage. Although de novo synthesis (in vitro) of cyclosporin A has not yet been achieved, the formation of a partial sequence, namely, the diketopiperazine cyclo(DAla-MeLeu), from D-alanine and L-leucine was observed under consumption of ATP and S-adenosyl-L-methio-nine [25]. 

Even in the case it should be possible to separate ribozyme activity from the ribosome or to isolate an in vitro selected ribozyme that can catalyze the same type of peptide bond formation as a ribosome, however such a biocatalyst seem does not to be suitable for simple practical use rather than using a chemical coupling reagent. In principle, this conclusion is also valid for the nonribosomal poly- or multienzymes which are involved in the biosynthesis of peptide antibiotics[7Z. Up to now, they have only found application in the synthesis field of cyclosporin, gramicidin S, special P-lactam antibiotics and analogs. 

Contents L. Jaenicke and F.-J. Marner The Irones and Their Precursors. — M. Lounasmaa and P. Somersalo The Condylocarpine Group of Indole Alkaloids. — U. Sequin The Antibiotics of the Pluramycin Group (4//-Anthra [l,2- ]pyran Antibiotics). — R. M. Wenger Cyclosporine and Analogues — Isolation and Synthesis — Mechanism of Action and Structural Requirements for Pharmacological Activity. — H. Inouye and S. Uesato Biosynthesis of Iridoids and Secoiridoids. 

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