Influence of gas environment on catabolic activities and on reoxidation of reduced nicotinamide adenine dinucleotide phosphate in Chlamydia.

We investigated the effect of the gas environment on the enzymatic reactions of intact isolated cells of the agents of trachoma and of meningopneumonitis of the host-dependent genus Chlamydia. In comparison with the reactions taking place in a gas phase of air, O(2) depressed CO(2) production from pyruvate and glutamate by trachoma and from glutamate by meningopneumonitis. O(2) enhanced the degradation of pyruvate by meningopneumonitis, but this effect was due to increased H(2)O(2), and was reversed by added catalase. Both dehydrogenation of alpha-ketoglutarate and was reversed by added catalase. Dehydrogenation of alpha-ketoglutarate by both agents and production of CO(2) from C(1) of glucose-6-phosphate were stimulated by O(2) and depressed in N(2). The latter activity was stimulated in air, O(2), and N(2) by nicotinamide adenine dinucleotide phosphate (NADP) in relation to the amount added, and also in air or O(2), but not in N(2), by moderate amounts of NADP and an excess of oxidized glutathione with concomitant formation of H(2)O(2). A small but significant amount of O(2) was consumed during the course of these reactions. It is suggested that glutathione reductase activity can occur only when accompanied by an oxidative reaction, and that this close link between the two reactions represents a mechanism of electron transport which transfers hydrogen to molecular O(2).