Blood pressure regulation and cardiac autonomic control in mice overexpressing alpha- and gamma-melanocyte stimulating hormone.

Melanocyte stimulating hormones (MSH) derived from pro-opiomelanocortin have been demonstrated to participate in the central regulation of cardiovascular functions. The aim of the present study was to elucidate the chronic effects of increased melanocortin activation on blood pressure regulation and autonomic nervous system function. We adapted telemetry to transgenic mice overexpressing alpha- and gamma-MSH and measured blood pressure, heart rate and locomotor activity, and analyzed heart rate variability (HRV) in the frequency-domain as well as baroreflex function by the sequence technique. Transgenic (MSH-OE) mice had increased systolic blood pressure but their heart rate was similar to wild-type (WT) controls. The 24-h mean of systolic blood pressure was 132+/-7mmHg in MSH-OE and 113+/-4mmHg in WT mice. Locomotor activity was decreased in the MSH-OE mice. Furthermore, MSH-OE mice showed slower adaptation to mild environmental stress in terms of blood pressure changes. The low frequency (LF) power of HRV tended to be higher in MSH-OE mice compared to WT mice, without a difference in overall variability. The assessment of baroreflex function indicated enhanced baroreflex effectiveness and more frequent baroreflex operations in MSH-OE mice. Baseline heart rate, increased LF power of HRV and increased baroreflex activity may all reflect maintenance of baroreflex integrity and an increase in cardiac vagal activity to counteract the increased blood pressure. These results provide new evidence that long-term activation of the melanocortin system elevates blood pressure without increasing heart rate.

Dietary sodium modulates mRNA abundance of enzymes involved in pituitary processing of proopiomelanocortin.

The messenger RNA abundance of proopiome-lanocortin (POMC) is increased in neurointermediate lobe (NIL) of rat pituitary when ingesting a high sodium diet (8%; HSD), as is the plasma concentration of the natriuretic peptide gamma-melanocyte stimulating hormone (gammay-MSH) derived from it. We examined whether the HSD also increases the mRNA abundance in rat NIL of proconvertases 1 and 2 (PC1, PC2), enzymes involved in the processing of POMC into gamma-MSH. PC1 mRNA increased by 40% after two weeks of the HSD and by 84% after three weeks. PC2 mRNA increased by 40% after two weeks and by more than 3 fold after three weeks. These results for PC2 were confined to NIL as shown by in situ hybridization at one and two weeks, and were accompanied by a significant increase in NIL PC2 protein after three weeks of the HSD as measured by immunoblotting. The increases in PC1 and PC2 mRNA abundance were paralleled by an increase in POMC mRNA level in NIL. Plasma gamma-MSH immunoreactivity averaged 35.1 +/- 3.3 fmol/ml in rats on the LSD, but increased to 70.9 +/- 4.8 fmol/ml after 3 weeks of the HSD (p < 0.002 vs LSD). These results confirm that the HSD increases the plasma concentration of gamma-MSH, consistent with a role for it as a circulating natriuretic peptide. The increased NIL expression of PC1 and PC2 in parallel with POMC in response to the HSD suggests that these changes are part of the coordinated response to states of sodium surfeit.