'American Society for Biochemistry & Molecular Biology (ASBMB)'
Abstract
The cyclic decapeptide, polymyxin B (PMXB), was found to inhibit hypoglycemia in mice receiving exogenous insulin (Amir, S., and Shechter, Y. (1985) Eur. J. Pharmacol. 110, 283-285). In this study, we have extended this observation to rats. Insulin-dependent hypoglycemia in rats is efficiently blocked at a 12:1 molar ratio of PMXB to insulin. This effect is highly specific, as it could not be mimicked by a variety of antibiotics or positively charged substances. Chemical modifications of PMXB have revealed that the ring structure, rather than the tail structure, is important for anti-insulin-like activity. Colistin A, which differs from PMXB by one conservative amino acid substitution in the ring structure, is devoid of this activity. Polymyxin B does not interact with insulin, nor does it alter the rate of insulin absorption and/or degradation, or the ability of insulin to bind to target tissues. This peptide inhibits hypoglycemia by blocking insulin-dependent activation of the hexose transport mechanism, as deduced by in vitro studies. The effect of insulin in stimulating hexose uptake (and subsequent glucose metabolism) in both isolated muscle tissue and adipocytes is blocked with little or no effect on the basal activities of these processes. Colistin A has no significant inhibiting effect. Other insulin-dependent activities, such as inhibition of lipolysis in adipocytes or synthesis of DNA in muscle cells, are not inhibited. It is concluded that PMXB inhibits, in a highly specific manner, the action of insulin in stimulating hexose transport and subsequent glucose metabolism, both in vitro and in the whole animal model
