The effects of pyrazinoylguanidine (PZG) on lipolysis and intracellular cyclic AMP concentrations were investigated in isolated rat adipocytes. PZG reduced basal cyclic AMP concentrations and blocked in a concentration-dependent manner forskolin (1 µmol/l) and isoproterenol (1 µmol/l) stimulatory effects on intracellular cyclic AMP production and lipolysis. PZG’s effects on hormone-sensitive lipase were investigated in the presence and absence of glucagon (1 µmol/l) or isoproterenol (1 µmol/l). PZG inhibited uncompetitively the induction of hormone-sensitive lipase by either glucagon or isoproterenol. PZG’s antilipolytic effects appeared to result from downregulation of intracellular cyclic AMP concentrations. In adipose tissue, cyclic AMP controls lipolysis through hormone-sensitive lipase. PZG’s downregulation of lipolysis and cyclic AMP concentrations was unaffected by adenosine deaminase or pertussis toxin, suggesting that PZG did not activate Gi, the inhibitory guanyl nucleotide regulatory protein.
In streptozotocin (STZ)-induced diabetic rats, pyrazinoylguanidine (PZG) markedly reduced elevated fasting concentrations of plasma glucose, triglycerides, and cholesterol. In contrast, these parameters were unaffected by a sulfonylurea, glyburide, or by a biguanide, metformin. PZG’s glucose- and lipid-lowering effects were dose-dependent. These metabolic effects were also investigated after: (a) pyrazinoic acid (PZA), a metabolite of PZG; (b) 3-amino-PZG, an analog of PZG, and (c) 3-amino-PZA, a hydrolytic product of 3-amino-PZG. PZA moderately reduced elevated fasting glucose and lipid concentrations in STZ-diabetic rats, suggesting partial mediation of PZG’s antidiabetic actions by PZA. Neither 3-amino-PZG nor 3-amino-PZA exerted any glucose- or lipid-lowering effect in STZ-diabetic rats.
Pyrazinoylguanidine (PZG) is a new antihyperglycemic, antihyperlipidemic drug. The current study reports on the development of an animal model in which the favorable metabolic effects of PZG, previously described in diabetic patients, could be reproduced and investigated. Adult* male as well as female Sprague-Dawley rats received a single intraperitoneal dose (50 mg/kg) of streptozotocin (STZ). One week later, they received PZG (50 mg/kg i.p.) twice daily for a week. Compared to vehicle (saline-treated controls), PZG reduced plasma concentrations of glucose by 33–70%, triglycerides by 50–70%, nonesterified fatty acids by 17–27%, cholesterol by 10–50%, and glucagon by 18–20%. Hydrochlorothiazide given in a dose of 20 mg/kg i.p. b.i.d for 1 week induced metabolic effects opposite to those of PZG. In the Zucker fatty rat, PZG also lowered plasma glucose and lipid concentrations. These results indicate that PZG ameliorated the abnormalities of plasma glucose and lipid that characterize STZ-diabetic and Zucker fatty rats.
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