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  • Title: Ammonia production by IMR-90 fibroblast cultures: effects of ammonia on glutathione, gamma-glutamyl transpeptidase, lysosomal enzymes, and cell division.
    Author: Takahashi S, Nakagawa S, Zeydel M, Bhargava G.
    Journal: J Cell Physiol; 1985 Oct; 125(1):107-14. PubMed ID: 2864350.
    Abstract:
    gamma-Glutamyl transpeptidase has multi-catalytic activities. It degrades glutathione and can produce ammonia from glutamine. The present study was designed to examine whether the decreased cell proliferation, cellular glutathione content and concurrent increase in ammonia production in senescent cells in culture are the result of increased gamma-glutamyl transpeptidase activity. We used IMR-90 fibroblast and 3T3 LI preadipocyte cultures. The cellular glutathione content depended upon cell proliferation and cell density. The glutathione content was higher in cells at logarithmic growth, and lower at stationary growth or post confluency; dead cells had no detectable glutathione by the method currently used. The glutathione content was minimal in "old" IMR-90 cells, regardless of cell density. On the other hand, an increase occurred in the unit number of molecules of bound 5-iodoacetoamidofluorescein, an active-site directed stoichiometric inhibitor of transpeptidase. That result corresponded favorably with the increased enzyme activity, suggesting that the number of enzyme molecules per cell was increased. The inhibition of ammonia production of the cultures by inhibition of gamma-glutamyl transpeptidase by 5-iodoacetoamidofluorescein and reversible inhibition of ammonia production by a serine-borate mixture were consistent with our postulate. Addition of NH4Cl (0.1 mM) to IMR-90 cultures caused increased activities of transpeptidase and some of the lysosomal enzymes; concurrently, the amount of cellular glutathione and the number of cell divisions decreased. This suggests that the increased ammonia production presumably resulting from glutaminase activity of the observed increase of transpeptidase may profoundly affect certain cellular functions.
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