Effect of nitrous oxide and methionine on hepatic S-adenosylmethionine levels and in vivo histidine oxidation in rats.

Nitrous oxide (N2O) decreased in vivo oxidation of histidine in rats fed a basal diet marginally deficient in methionine, although hepatic levels of S-adenosylmethionine (AdoMet) were not significantly altered. Excess dietary methionine increased hepatic levels of AdoMet and increased histidine oxidation. However, it did not protect histidine oxidation when the rats were treated with N2O. Parenteral administration of methionine greatly increased hepatic levels of AdoMet and increased histidine oxidation in normal and N2O treated rats. This indicates that when hepatic levels of AdoMet are greatly elevated by administration of methionine, N2O does not affect in vivo histidine oxidation.     

Butyrate-induced cell differentiation of cell-cycle mutants and ''wild-type'' mastocytoma cells: Histamine, 5-hydroxytryptamine and metachromatic granules as independently regulated differentiation markers

In cultures of heat-sensitive (hs; arrested at 39.5 degrees C, multiplying at 33 degrees C) and cold-sensitive (cs; arrested at 33 degrees C, multiplying at 39.5 degrees C) cell-cycle mutants that had been isolated from the same subclone (K21) of the murine P-815-X2 mastocytoma line, the degree of cell differentiation was assessed by determining the cellular histamine and 5-hydroxytryptamine (5-HT) content as well as the number of metachromatic granules per cell. The findings were compared with those obtained for 'wild-type' K21 and P-815-X2 cells. The addition of butyrate to 'wild-type' cells or to mutant cells maintained at the respective permissive temperature resulted in a relative increase in the level of all three differentiation markers. In cs mutant cells, essentially the same pronounced increase in granule numbers was observed during butyrate treatment at 39.5 degrees C and during incubation at 33 degrees C without butyrate, thereby suggesting that butyrate induces morphological cell differentiation in cs mutants via the same mechanisms as exposure to the nonpermissive temperature. In contrast, the histamine and 5-HT levels reached in hs and cs mutant cells in the presence of butyrate were higher than those observed during incubation at the nonpermissive temperature. Large quantitative differences were detected with respect to the potential of individual cell lines to express the three differentiation parameters. High levels of histamine were characteristic of 'wild-type' P-815-X2 cells treated at 33 degrees C with butyrate, while low amine levels and small numbers of granules were observed in K21 cells (i.e., the parent line of hs and cs mutants.(ABSTRACT TRUNCATED AT 250 WORDS)     

The effects of cytidine monophosphate on the regeneration of sialoproteins on the surface of cultured lymphoma cells

A new approach was used to evaluate the role of surface sialyl transferase activity in the regeneration of surface sialic acid (SSA) on cultured lymphoma cells (Raji). Cells which were made deficient in SSA by neuraminidase treatment were incubated for 18 hours in medium containing CMP, a potent inhibitor of surface sialyl transferase activity. In these cultures, the amount of regenerated SSA was not significantly less than for the controls, even though the surface sialyl transferase activity on these cells was inhibited by an average of 95%. Conversely, emetine, an inhibitor of protein synthesis, effectively inhibited SSA regeneration. Thus, these results support the concept that surface sialo-proteins are largely, if not entirely, synthesized intracellularly instead of being assembled on the cell surface by the surface located transferase system.