ABSTRACT
Previous studies from our laboratory have demonstrated that the Y chromosome from the spontaneously hypertensive rat (SHR) is responsible for a significant portion of the elevated blood pressure and also produces an earlier pubertal rise in plasma testosterone. We performed the following studies to determine whether the SHR Y chromosome raises blood pressure by sympathetic nervous system responses as measured by adrenal chromogranin A and plasma and tissue catecholamines. Male SHR from the University of Akron colony were studied from 5 to 20 weeks of age. Blood pressure was measured by tail-cuff, tail artery cannulation, and aortic telemetry (Data Sciences); acute (air stress) and chronic (territorial colony) social stressors were compared; blood was collected for determination of plasma catecholamines; and adrenal glands were analyzed at 15 weeks for catecholamines. Rats with the SHR Y chromosome had higher blood pressure and plasma norepinephrine than those with the normotensive Wistar-Kyoto (WKY) Y chromosome. However, the SHR Y chromosome did not significantly change responsiveness to acute or chronic stressors. Phentolamine and clonidine prevented the stress responses. Adrenal chromogranin A levels were elevated 37% and 40% and adrenal norepinephrine content 29% and 100% at 4 and 10 weeks of age, respectively, in rats with an SHR Y chromosome compared with WKY. Chemical sympathectomy normalized blood pressure in all strains and significantly reduced norepinephrine (36% to 41%) in all strains except in WKY, which already had a normal blood pressure. In conclusion, the SHR Y chromosome appears to increase the chronic sympathetic nervous system. A potential mechanism could be a Y locus that influences chronic sympathetic nervous system activity, which may reinforce neurohumoral factors and structural components of the vessel wall, accelerating the development of hypertension.
