Effect of cross-transplantation on normotensive and spontaneously hypertensive rat arterial muscle membrane.

Abstract

Transplantation of arteries into the anterior eye chamber of rats for 8 weeks was used to test the hypothesis that the neurohumoral environment is important in establishing the altered membrane potential (observable during electrogenic ion transport inhibition) of vascular muscle in hypertension. When caudal arteries from 12- to 16-week-old spontaneously hypertensive rats (SHR) or genetically matched Kyoto-Wistar normotensive rats (KNR) were transplanted into the opposite strain, there was no change in the transport inhibited membrane potential (Em) of the arterial muscle cells from that found in freshly excised donor arteries. However, when caudal arteries from 2-week-old animals were transplanted into the anterior eye chamber, the arteries always developed the appropriate Em for the host animal. In other words, a genetically KNR artery developed the Em of an SHR artery in an SHR host; conversely, a genetically SHR artery developed the Em of a KNR artery in the KNR host. These results provide evidence that: 1) the differences between th Em of caudal arteries from SHR and KNR are not inherent in those muscle cells; 2) the change in Em is triggered in young animals preceding development of hypertension, but not after hypertension is established; and 3) the Em alteration of the caudal artery is independent of structural changes that occur in the artery as a result of increased blood pressure (because KNR transplants were not connected in series with the host anterior eye chamber vasculature and subject to the elevated blood pressures). We conclude that the arterial muscle cells up to a certain age respond to an external factor that regulates their Em and presumably their sensitivity to vasopressor agents.