N. Chin Lai scite author profile

This study tests the hypothesis that G-protein-coupled receptor (GPCR) signaling components involved in the regulation of adenylyl cyclase (AC) localize with caveolin (Cav), a protein marker for caveolae, in both cellsurface and intracellular membrane regions. Using sucrose density fractionation of adult cardiac myocytes, we detected Cav-3 in both buoyant membrane fractions (BF) and heavy/non-buoyant fractions (HF); ␤ 2 -adrenergic receptors (AR) in BF; and AC5/6, ␤ 1 -AR, M 4 -muscarinic acetylcholine receptors (mAChR), -opioid receptors, and G␣ s in both BF and HF. In contrast, M 2 -mAChR, G␣ i3 , and G␣ i2 were found only in HF. Immunofluorescence microscopy showed co-localization of Cav-3 with AC5/6, G␣ s , ␤ 2 -AR, and -opioid receptors in both sarcolemmal and intracellular membranes, whereas M 2 -mAChR were detected only intracellularly. Immunofluorescence of adult heart revealed a distribution of Cav-3 identical to that in isolated adult cardiac myocytes. Upon immunoelectron microscopy, Cav-3 co-localized with AC5/6 and G␣ s in sarcolemmal and intracellular vesicles, the latter closely allied with T-tubules. Cav-3 immunoprecipitates possessed components that were necessary and sufficient for GPCR agonist-promoted stimulation and inhibition of cAMP formation. The distribution of GPCR, G-proteins, and AC with Cav-3 in both sarcolemmal and intracellular T-tubule-associated regions indicates the existence of multiple Cav-3-localized cellular microdomains for signaling by hormones and drugs in the heart.

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Integrins protect cardiomyocytes from ischemia/reperfusion injury

Okada

Lai

Kawaraguchi

et al. 2013

J. Clin. Invest.

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Ischemic damage is recognized to cause cardiomyocyte (CM) death and myocardial dysfunction, but the role of cell-matrix interactions and integrins in this process has not been extensively studied. Expression of α7β1D integrin, the dominant integrin in normal adult CMs, increases during ischemia/reperfusion (I/R), while deficiency of β1 integrins increases ischemic damage. We hypothesized that the forced overexpression of integrins on the CM would offer protection from I/R injury. Tg mice with CM-specific overexpression of integrin α7β1D exposed to I/R had a substantial reduction in infarct size compared with that of α5β1D-overexpressing mice and WT littermate controls. Using isolated CMs, we found that α7β1D preserved mitochondrial membrane potential during hypoxia/reoxygenation (H/R) injury via inhibition of mitochondrial Ca 2+ overload but did not alter H/R effects on oxidative stress. Therefore, we assessed Ca 2+ handling proteins in the CM and found that β1D integrin colocalized with ryanodine receptor 2 (RyR2) in CM T-tubules, complexed with RyR2 in human and rat heart, and specifically bound to RyR2 amino acids 165-175. Integrins stabilized the RyR2 interdomain interaction, and this stabilization required integrin receptor binding to its ECM ligand. These data suggest that α7β1D integrin modifies Ca 2+ regulatory pathways and offers a means to protect the myocardium from ischemic injury.

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Skeletal muscle gene transfer and regulated expression of IGF‐I increases function of the failing heart

et al. 2007

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The high heart performance in mako shark is related to increased caveolin expression in buoyant fraction

et al. 2007

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N. Chin Lai

G-protein-coupled Receptor Signaling Components Localize in Both Sarcolemmal and Intracellular Caveolin-3-associated Microdomains in Adult Cardiac Myocytes

Integrins protect cardiomyocytes from ischemia/reperfusion injury

Skeletal muscle gene transfer and regulated expression of IGF‐I increases function of the failing heart

The high heart performance in mako shark is related to increased caveolin expression in buoyant fraction

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