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Angiotensin 1-7 increases fiber cross-sectional area and force in juvenile mouse skeletal muscle.

Hind AlbadraniTarek AmmarRashida RajgaraMichael BaderNadine Wiper-BergeronJean-Marc Renaud
Published in: American journal of physiology. Cell physiology (2022)
Recent studies reported that in skeletal muscle angiotensin 1-7 (Ang 1-7), via its receptor Mas (MasR), prevents the atrophy induced by angiotensin II and by cast immobilization; it also improves muscle integrity and function in the mdx mouse, a muscular dystrophy model. The objectives of this study were to document 1 ) the extent of the Ang 1-7's hypertrophic effect in terms of muscle mass and muscle fiber cross-sectional area (CSA), 2 ) how Ang 1-7 affects muscle contractile function in terms of twitch and tetanic force, force-frequency relationship, and 3 ) whether the effect involves MasR. Wild-type and MasR-deficient [Mas receptor knockout mouse model ( MasR -/- )] mice were treated with Ang 1-7 (100 ng/kg body wt·min using an osmotic pump) for 4 or 16 wk. Ang 1-7 significantly increased skeletal muscle/body weight ratio of soleus, tibialis, and gastrocnemius, but not of extensor digitorum longus (EDL). It significantly increased fiber cross-sectional area in the order of type I > IIA > IIB. In EDL and soleus muscles, it significantly increased twitch and tetanic force while causing a shift in the force-frequency relationship toward lower stimulation frequencies. It had no effect on fiber type composition. None of the Ang 1-7 effects observed in wild-type mice were observed in MasR -/- muscles. It caused a transient increase in phosphorylated protein kinase B (Akt) and 4EBP proteins while having no effect on S6 phosphorylation, MuRF-1, and atrogin-1 and a decrease in PAX7 expression in satellite cells. This is the first study demonstrating the hypertrophic effects of Ang 1-7 in normal muscle acting via its MasR.
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