Regulation of cytoplasmic proline levels in Salmonella typhimurium: effect of osmotic stress on synthesis, degradation, and cellular retention of proline.

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I investigated the effects of osmotic stress on the synthesis and catabolism of proline in Salmonella typhimurium by measuring the intracellular and extracellular proline levels in various strains. In the wild-type strain, exposure to 0.8 M NaCl did not cause a significant change in the intracellular proline level; however, it brought about a 6.5-fold increase in the intracellular glutamate pool size. These results indicate that gamma-glutamyl kinase is inhibited by proline in wild-type cells in media of normal or elevated osmolarity. I also tested whether proline is subject to turnover in cells wild type with respect to the enzymes of the proline degradation pathway. In strains that were wild type for proline biosynthesis, the loss of the proline catabolic enzymes, due to putA mutations, did not result in a statistically significant increase in the intracellular proline levels. Therefore, in the wild-type strain, proline turnover does not seem to be important for control of the intracellular proline levels. However, in a proline-overproducing mutant, a putA lesion caused a threefold increase in the intracellular proline level and a 6.5-fold increase in the extracellular proline level, indicating that proline is subject to turnover in the overproducing mutant. The proline-overproducing mutants excreted large quantities of the proline into the culture medium; osmotic stress altered the partitioning of proline such that the ratio of intracellular to extracellular levels of proline increased with increased osmotic stress. The increased cellular retention of proline in media of high osmolarity is probably due to the functioning of the ProP and ProU proline transport systems, which are stimulated under conditions of osmotic stress.

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