Heterogeneous Basal Expression of Nitric Oxide Synthase and Superoxide Dismutase Isoforms in Mammalian Heart : Implications for Mechanisms Governing Indirect and Direct Nitric Oxide-Related Effects

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Circulation Research. 1999;85:575-587

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Molecular Medicine

Heterogeneous Basal Expression of Nitric Oxide Synthase and Superoxide Dismutase Isoforms in Mammalian Heart

Implications for Mechanisms Governing Indirect and Direct Nitric Oxide–Related Effects

Mulugu V. Brahmajothi, Donald L. Campbell

From the Departments of Medicine and Pharmacology (M.V.B.), Duke University Medical Center, Durham, NC, and Department of Physiology and Biophysics (D.L.C.), State University of New York at Buffalo, NY.

Correspondence to Donald L. Campbell, Department of Physiology and Biophysics, State University of New York at Buffalo, 124 Sherman Hall, Buffalo, NY 14214. E-mail dc25{at}acsu.buffalo.edu

Abstract—The basal expression patterns of NO synthase(NOS; endothelial [eNOS], neuronal [nNOS], and cytokine-inducible[iNOS]) and superoxide dismutase (SOD; extracellular membranebound [ECSOD], MnSOD, and CuZnSOD) isoforms in ferret heart(tissue sections and isolated myocytes) were determined by immunofluorescent localization.We demonstrate the following for the first time in the mammalianheart: (1) heterogeneous expression patterns of the 3 NOS and3 SOD isoforms among different tissue and myocyte types; (2)colocalization of eNOS and ECSOD at both the tissue and myocyte levels;(3) a significant gradient of eNOS and ECSOD expression across theleft ventricular (LV) wall, with both enzymes being highly expressedand colocalized in LV epicardial myocytes but markedly reducedin LV endocardial myocytes; and (4) specific subcellular localizationpatterns of eNOS and the 3 SOD isoforms. In particular, eNOSand ECSOD are demonstrated (electron and confocal microscopy)to be specifically localized to the sarcolemma of ventricular myocytes.Similar heterogeneous eNOS and ECSOD expression patterns werealso obtained in human LV tissue sections, underscoring thegeneral importance of these novel findings. Our data suggesta strong functional correlation between the activities of sarcolemmally localizedmyocyte eNOS and ECSOD in governing NO·/O₂^- interactionsand suggest that NO-related modulatory effects on cardiac myocyteprotein and/or ion channel function may be significantly morecomplex than is presently believed.

Key Words: nitric oxide • nitric oxide synthase • superoxide dismutase • immunofluorescence • protein and ion channel modulation

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