[3H]paraherquamide binding to Caenorhabditis elegans. Studies on a potent new anthelmintic agent.

Paraherquamide was identified recently as a potent anthelmintic agent. In this paper we describe the identification and characterization of a specific, high-affinity paraherquamide binding site in a membrane preparation isolated from the free-living nematode, Caenorhabditis elegans. [3H] Paraherquamide bound specifically to C.

Analogs of cyclosporin A modified at the D-Ala8 position.

The conversion of [2-deutero-3-fluoro-D-Ala8]cyclosporin A (1) to a dehydroalanine analog [delta-Ala8]cyclosporin A (2) was achieved with lithium diisopropylamide in THF at low temperature. This dehydro compound is a useful intermediate for the preparation of position 8 analogs of cyclosporin A formed from it by the conjugate addition of thiol compounds. NMR conformational studies have provided evidence for the restoration of D-stereochemistry in the modified Ala8 residues.

Bioconversion of avermectin into 27-OH avermectin.

The bioconversion of avermectin to its 27-hydroxy derivative is achieved with Nocardia autotrophica subsp. canberrica. The approach of increasing bioconversion productivity rather than efficiency was adopted in these studies.

Novel antinematodal and antiparasitic agents from Penicillium charlesii. I. Fermentation, isolation and biological activity.

Paraherquamide and six novel analogs were isolated from the fermentation of Penicillium charlesii (ATCC 20841). All seven natural products displayed potent antinematodal activity against Caenorhabditis elegans. None of the novel analogs were more potent than paraherquamide.