The Anrep effect: 100 years later

Myocardial stretch elicits a rapid increase in developed force, which is mainly caused by an increase in myofilament calcium sensitivity (Frank-Starling mechanism). Over the ensuing 10-15 min, a second gradual increase in force takes place. This slow force response to stretch is known to be the resu...

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Bibliographic Details
Published in:American journal of physiology. Heart and circulatory physiology 2013-01, Vol.304 (2), p.H175-H182
Main Authors: Cingolani, Horacio E, Pérez, Néstor G, Cingolani, Oscar H, Ennis, Irene L
Format: Article
Language:English
Subjects:
Animals
Autocrine Communication
Calcium
Calcium - metabolism
Cation Transport Proteins - genetics
Cation Transport Proteins - metabolism
Excitation Contraction Coupling
Heart
Humans
Intracellular Signaling Peptides and Proteins - metabolism
Kinases
Mechanoreceptors - metabolism
Mechanotransduction, Cellular
Mitochondria
Models, Cardiovascular
Muscle Strength
Myocardial Contraction
Myocardium - metabolism
Oxygen
Paracrine Communication
Reflex, Stretch
Ribonucleic acid
RNA
RNA Interference
Sodium-Hydrogen Exchanger 1
Sodium-Hydrogen Exchangers - genetics
Sodium-Hydrogen Exchangers - metabolism
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Summary:Myocardial stretch elicits a rapid increase in developed force, which is mainly caused by an increase in myofilament calcium sensitivity (Frank-Starling mechanism). Over the ensuing 10-15 min, a second gradual increase in force takes place. This slow force response to stretch is known to be the result of an increase in the calcium transient amplitude and constitutes the in vitro equivalent of the Anrep effect described 100 years ago in the intact heart. In the present review, we will update and discuss what is known about the Anrep effect as the mechanical counterpart of autocrine/paracrine mechanisms involved in its genesis. The chain of events triggered by myocardial stretch comprises 1) release of angiotensin II, 2) release of endothelin, 3) activation of the mineralocorticoid receptor, 4) transactivation of the epidermal growth factor receptor, 5) increased formation of mitochondria reactive oxygen species, 6) activation of redox-sensitive kinases upstream myocardial Na(+)/H(+) exchanger (NHE1), 7) NHE1 activation, 8) increase in intracellular Na(+) concentration, and 9) increase in Ca(2+) transient amplitude through the Na(+)/Ca(2+) exchanger. We will present the experimental evidence supporting each of the signaling steps leading to the Anrep effect and its blunting by silencing NHE1 expression with a specific small hairpin interference RNA injected into the ventricular wall.
ISSN:0363-6135
1522-1539
DOI:10.1152/ajpheart.00508.2012