G proteins and regulation of pyruvate dehydrogenase activity by insulin in human circulating lymphocytes.

Pertussis toxin (PT) catalyzes ADP-ribosylation of G protein alpha subunits, thus preventing their role as transducers of external signals targeting metabolic pathways. In vitro, in human circulating lymphocytes insulin at physiological concentrations (5 microU/ml) determines sharp activation of pyruvate dehydrogenase (PDH), the rate limiting enzyme in glucose oxidative breakdown. This study evaluates whether the above-described effects of insulin over PDH are mediated through G proteins. Human circulating lymphocytes (six samples from different donors) were exposed to insulin (5 microU/ml), PT (1-2 micrograms/ml) or PT-9K, a mutated PT void of catalytic activity (1-10 micrograms/ml), and to insulin in combination with the two toxins, and then assessed for PDH activity. Plasma membranes from cells incubated with and without PT or PT-9K were subjected to ADP-ribosylation in the presence of [32P] NAD+ and activated PT. In circulating lymphocytes exposed to PT alone, or in combination with insulin, PDH activity falls significantly below basal values (P < 0.001); PT-9K instead has no effect on basal or on insulin-stimulated PDH activity. ADP-ribosylation of a plasma membrane component with apparent molecular mass (42 kDa) comparable to that of the Gi (inhibitory) protein alpha subunit takes place in cells exposed to PT but not in those exposed to PT-9K. In human circulating lymphocytes Gi proteins or Gi protein-like components appear to be involved in preserving basal PDH activity as well as in the mechanism by which insulin exerts its control over PDH.