Evidence that insulin-like growth factor I increases renal plasma flow and glomerular filtration rate in fasted rats

Abstract

The mechanisms whereby growth hormone may increase renal plasma flow (RPF) and GFR are not known, but circumstantial evidence has implicated insulin-like growth factor I (IGF-I) as a mediator of this effect. This study examined whether an infusion of IGF-I will increase RPF and GFR, whether this effect occurs quickly, and if this effect is dependent on eicosanoids or peptide hormones known to affect renal function. Rats fasted for 3 d to reduce IGF-I and IGF-I plasma binding proteins were anesthetized; then the rats received an intravenous injection of 25 micrograms/kg IGF-I, and an infusion of 25 micrograms/kg IGF-I within 20 min. Controls received infusion of the vehicle. RPF (para-aminohippurate clearances), GFR (inulin clearances), renal vascular resistance (RVR), mean arterial blood pressure (MABP), plasma IGF-I, and glucose concentrations were measured repeatedly. At the end of the 20-min infusion, plasma IGF-I tended to be increased in the animals that received IGF-I (P = 0.069), but did not increase in the control rats. IGF-I induced a significant and sustained fall in RVR and rise in RPF and GFR without any change in MABP. A small, transient, but significant decrease in plasma glucose concentrations was observed during IGF-I but not during vehicle infusion. Indomethacin, but not somatostatin, blocked the renal response to IGF-I infusion. Thus, IGF-I infusion increases RPF and GFR and reduces RVR in fasted rats. This effect requires the presence of eicosanoids but does not seem to require other peptide hormones suppressed by somatostatin.