Effects of bipiperidyl mustard (BPM) lesions on insulin hypoglycemic convulsions.

Systemic gold thioglucose (GTG) is well known to produce hyperphagia, resulting in obesity, and histological damage focused relatively selectively in the ventromedial hypothalamus (VMH). Although structurally very different, bipiperidyl mustard (BPM) produces apparently similar effects. However, a proposed mechanism for concentration and hence localization of GTG toxicity depends on its structural similarity to glucose, binding it to glucoreceptors and focusing the cytotoxicity of the gold thio-portion. We recently showed that GTG treatment also produces an early decrease and a later increase in sensitivity to insulin hypoglycemic convulsions. We report here that BPM also produces a similar biphasic change in sensitivity to insulin hypoglucemic convulsions. For both, the differences are in the brain's convulsive response to hypoglycemia, rather than in the degree of hypoglycemia in response to insulin. Thus, GTG and BPM cytotoxic lesions appear similar in this regard as well. BPM is another way of producing a relatively discrete brain lesion which alters the brain's functional adjustment to hypoglycemia. The significance of this control center and its relationship to the control(s) of feeding and systemic metabolism are discussed.