Vascular smooth muscle: Difference between revisions

Vascular smooth muscle
Diagram showing the location of vascular smooth muscle cells.
Vascular smooth muscle cells, isolated from human aorta, growing and forming a monolayer in cell culture.
Details
Part of	smooth muscle wall of blood vessels.
Identifiers
MeSH	D009131
Anatomical terminology [edit on Wikidata]

Vascular smooth muscle refers to the particular type of smooth muscle found within, and composing the majority of the wall of blood vessels.

Vascular smooth muscle refers to the particular type of smooth muscle found within, and composing the majority of the wall of blood vessels.

Vascular smooth muscle is innervated primarily by the sympathetic nervous system through adrenergic receptors (adrenoceptors). The three types of adrenoceptors present are: ${\displaystyle \alpha _{1}}$, ${\displaystyle \alpha _{2}}$ and ${\displaystyle \beta _{2}}$. The main endogenous agonist of these cell receptors is norepinephrine (NE).

The adrenergic receptors exert opposite physiologic effects in the vascular smooth muscle under activation:

• ${\displaystyle \alpha _{1}}$ receptors. Under NE binding ${\displaystyle \alpha _{1}}$ receptors cause vasoconstriction (i.e. contraction of the vascular smooth muscle cells decreasing the diameter of the vessels). ${\displaystyle \alpha _{1}}$ receptors are activated in response to shock or low blood pressure as a defensive reaction trying to restore the normal blood pressure. Antagonists of ${\displaystyle \alpha _{1}}$ receptors (doxazosin, prazosin) cause vasodilation (i.e. decrease in vascular smooth muscle tone with increase of vessel diameter and decrease of the blood pressure). (See also receptor antagonist)
• ${\displaystyle \alpha _{2}}$ receptors. Agonists of ${\displaystyle \alpha _{2}}$ receptors in the vascular smooth muscle lead to vasoconstriction. However, in clinical practice drugs applied intravenously that are agonists of ${\displaystyle \alpha _{2}}$ receptors (clonidine) lead to powerful vasodilation, which causes a decrease in blood pressure by presynaptic activation of ${\displaystyle \alpha _{2}}$ receptors in the sympathetic ganglia. This presynaptic effect is predominant and completely overrides the vasoconstrictive effect of the ${\displaystyle \alpha _{2}}$ receptors in the vascular smooth muscle.^{[citation needed]}
• ${\displaystyle \beta _{2}}$ receptors. Agonism of ${\displaystyle \beta _{2}}$ receptors causes vasodilation and low blood pressure (i.e. the effect is opposite of the one resulting from activation of ${\displaystyle \alpha _{1}}$ and ${\displaystyle \alpha _{2}}$ receptors in the vascular smooth muscle cells). Usage of ${\displaystyle \beta _{2}}$ receptor agonists as hypotensive agents is less widespread due to adverse effects such as unnecessary bronchodilation in lungs and increase in blood sugar levels.

Vascular smooth muscle contracts or relaxes to change both the volume of blood vessels and the local blood pressure, a mechanism that is responsible for the redistribution of the blood within the body to areas where it is needed (i.e. areas with temporarily enhanced oxygen consumption). Thus the main function of vascular smooth muscle tone is to regulate the caliber of the blood vessels in the body. Excessive vasoconstriction leads to high blood pressure, while excessive vasodilation as in shock leads to low blood pressure.

Arteries have a great deal more smooth muscle within their walls than veins, thus their greater wall thickness. This is because they have to carry pumped blood away from the heart to all the organs and tissues that need the oxygenated blood. The endothelial lining of each is similar.

• Mural cell

• Image of smooth muscle in the arterial walls
• Smooth muscle in stomach wall