Differentiation between two forms of angiotonin by means of spirally cut strips of rabbit aorta

OM Helmer - American Journal of Physiology-Legacy …, 1957 - journals.physiology.org
OM Helmer
American Journal of Physiology-Legacy Content, 1957journals.physiology.org
By means of a spirally cut strip of rabbit thoracic aorta, it has been shown that angiotonin
exists in two forms. One form, angiotonin II, causes a contraction of the strip. The other,
angiotonin I, is inactive. They are equally pressor when injected intravenously in animals. An
enzyme in plasma converts the inactive form to the active form. The identical pressor activity
can be explained by the excess of the converting enzyme in the plasma of the intact animal
which rapidly converts angiotonin I to angiotonin II. Some patients with hypertension have a …
By means of a spirally cut strip of rabbit thoracic aorta, it has been shown that angiotonin exists in two forms. One form, angiotonin II, causes a contraction of the strip. The other, angiotonin I, is inactive. They are equally pressor when injected intravenously in animals. An enzyme in plasma converts the inactive form to the active form. The identical pressor activity can be explained by the excess of the converting enzyme in the plasma of the intact animal which rapidly converts angiotonin I to angiotonin II. Some patients with hypertension have a greater content of the converting enzyme in their plasma than is found in plasma of normotensive subjects. In addition to the converting enzyme, other factors in plasma enhance the ability of angiotonin and catechol amines to induce constriction of the strip of aorta. These factors may sensitize the mechanisms in the muscle which set up the process of contraction.
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