Abstract
The differential metabolic effects of three nicotinamide analogs, 6-aminonicotinamide, 3-aminobenzamide, and 5-methylnicotinamide, were analyzed in mitogen-stimulated preparations of human T lymphocytes. Mitogen stimulation with the phorbol ester TPA and a monoclonal antibody to the T3 cell surface antigen caused an increase in cellular NAD and ATP levels and a marked increase in glucose metabolism as demonstrated by an increase in cellular levels of glucose 6-phosphate and a sevenfold increase in radioactive CO 2 formation from [1- 14C]glucose. 6-Aminonicotinamide had drastic inhibitory effects on the mitogen-stimulated increases in NAD and ATP levels as well as on the metabolism of glucose. Treatment of the mitogen-stimulated cells with 6-aminonicotinamide also caused a marked increase in cellular levels of 6-phosphogluconate, suggesting inhibition of the hexose monophosphate shunt at 6-phosphogluconate dehydrogenase. Radioactive CO 2 formation from [6- 14C]glucose showed that metabolism through the tricarboxylic acid cycle was not used to compensate for the inhibition of the hexose monophosphate shunt pathway. Treatment of cells with 3-aminobenzamide had the opposite effect of 6-aminonicotinamide in that cellular NAD levels increased, presumably due to inhibition of poly(ADP-ribose) polymerase. 3-Aminobenzamide did not interfere with ATP or glucose 6-phosphate levels and did not cause significant elevations of 6-phosphogluconate. Thus, 6-aminonicotinamide appears to have direct inhibitory effects on the synthesis of both pyridine nucleotides and poly(ADP-ribose), whereas 3-aminobenzamide has its major inhibitory effect on poly(ADP-ribose) synthesis. 5-Methylnicotinamide also interferes with the mitogen-stimulated increase in NAD levels but not as effectively as 6-aminonicotinamide. The alterations in pyridine nucleotide metabolism resulting from treatment with these nicotinamide analogs can produce drastic and diverse alterations in pathways of glucose utilization and energy generation.
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