Xi-Ping Ni1, Michael H Humphreys. 1. Division of Nephrology, San Francisco General Hospital, and Department of Medicine, University of California at San Francisco, San Francisco, California 94143, USA.
Abstract
BACKGROUND: Rats with suppression of pituitary intermediate lobe (IL) function by treatment with the dopaminergic agonist bromocriptine develop salt-sensitive hypertension accompanied by a deficiency of gamma-melanocyte-stimulating hormone (gamma-MSH). METHODS: To study the time course, and establish the causal role, of gamma-MSH deficiency in the development of salt-sensitive hypertension, we instrumented 12 male Sprague-Dawley rats with radiotelemetry transmitters to record intraaortic mean arterial pressure (MAP). One week later, they were placed on a high-sodium diet (8% NaCl, HSD) and received daily intraperitoneal injections of bromocriptine (5 mg/kg). The rats were also implanted with micro-osmotic pumps to deliver either a stable analog of gamma-MSH ([Nle3, D-Phe6]-gamma-MSH, NDP-gamma-MSH) at 12 pmol/h or normal saline vehicle. RESULTS: In vehicle-treated rats on the HSD and receiving bromocriptine injections, MAP rose so that it was significantly greater than that in NDP-gamma-MSH-treated animals by Day 4, and reached a stable plateau of approximately 135 mm Hg between Days 7 and 14. After Day 14, bromocriptine injections were stopped, and MAP in vehicle-infused rats fell progressively despite continued ingestion of the HSD, so that by Day 18, MAP was no longer different from NDP-gamma-MSH-infused animals. The MAP in the latter group did not vary significantly from the control level of 101+/-4 mm Hg throughout the 21 days of the experiment. CONCLUSIONS: These results indicate that gamma-MSH deficiency is a consequence of the bromocriptine treatment responsible for the salt-sensitive hypertension, and these results also identify the time course during which this hypertension develops.
BACKGROUND:Rats with suppression of pituitary intermediate lobe (IL) function by treatment with the dopaminergic agonist bromocriptine develop salt-sensitive hypertension accompanied by a deficiency of gamma-melanocyte-stimulating hormone (gamma-MSH). METHODS: To study the time course, and establish the causal role, of gamma-MSH deficiency in the development of salt-sensitive hypertension, we instrumented 12 male Sprague-Dawley rats with radiotelemetry transmitters to record intraaortic mean arterial pressure (MAP). One week later, they were placed on a high-sodium diet (8% NaCl, HSD) and received daily intraperitoneal injections of bromocriptine (5 mg/kg). The rats were also implanted with micro-osmotic pumps to deliver either a stable analog of gamma-MSH ([Nle3, D-Phe6]-gamma-MSH, NDP-gamma-MSH) at 12 pmol/h or normal saline vehicle. RESULTS: In vehicle-treated rats on the HSD and receiving bromocriptine injections, MAP rose so that it was significantly greater than that in NDP-gamma-MSH-treated animals by Day 4, and reached a stable plateau of approximately 135 mm Hg between Days 7 and 14. After Day 14, bromocriptine injections were stopped, and MAP in vehicle-infused rats fell progressively despite continued ingestion of the HSD, so that by Day 18, MAP was no longer different from NDP-gamma-MSH-infused animals. The MAP in the latter group did not vary significantly from the control level of 101+/-4 mm Hg throughout the 21 days of the experiment. CONCLUSIONS: These results indicate that gamma-MSH deficiency is a consequence of the bromocriptine treatment responsible for the salt-sensitive hypertension, and these results also identify the time course during which this hypertension develops.