Madoka Kumai scite author profile

In animal tissues, most cells are connected via intercellular cytoplasmic channels called gap junctions. Various electron microscopy techniques have made a crucial contribution to our understanding of the function and structure of gap junction channels. Tracer studies and freeze-fracture replica observations indicate that the connexon, the unit gap junction channel, is a pair of hemichannels apposed in the narrow intercellular gap between neighboring cell membranes. Recent advances in cellular biology have shown that connexon hemichannels are composed of hexamers of connexin proteins. Purification of the gap junction membrane and cDNA cloning analysis indicate the diversity of the connexin protein family, which contains more than 18 members, and their tissue- and cell type-specific distributions. Defects in some connexin genes may cause various hereditary diseases, such as X-linked Charcot-Marie-Tooth disease (Cx32), nonsyndromic autosomal deafness (Cx26), and cataract (Cx50). Analysis of gene knockout mice indicates that certain types of connexin play important roles in differentiation and development at crucial times in specific tissues and cell types.

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Conduction abnormality in gap junction protein connexin45‐deficient embryonic stem cell‐derived cardiac myocytes

Egashira

Nishii

Nakamura

et al. 2004

Anat. Rec.

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In early-stage heart, the cardiac impulse does not propagate through the specialized conduction system but spreads from myocyte to myocyte. We hypothesized that the gap junction protein connexin45 (Cx45) regulates early-stage contractions, because it is the only gap junction protein described in early hearts. Cx45-deficient (Cx45 Ϫ/Ϫ ) mice die of heart failure, concomitantly displaying other complex defects in the cardiovascular system. In order to determine the specific cardiac muscular function of Cx45, we created Cx45 Ϫ/Ϫ embryonic stem (ES) cells to be differentiated into cardiac muscle in vitro. Unlike the coordinated contractions of wild-type cells, differentiated Cx45Ϫ/Ϫ cardiac myocytes showed high and irregular pulsation rates. Alterations of the electrophysiological properties of the Cx45 Ϫ/Ϫ cardiac myocytes were indicated both by extracellular recording on planar multielectrode array probes and by intracellular Ca 2ϩ recording of the fluorescent Ca 2ϩ indicator fura-2. The in vitro system minimizes an influence of hemodynamic factors that complicate the phenotypes of Cx45 Ϫ/Ϫ mice. Our results indicate that Cx45 is an essential connexin for coordinated conduction through early cardiac myocytes. The Supplementary Material referred to in this article can be found at the Anatomical Record website (http://www.interscience.wiley.com/ jpages/0003-276X/suppmat).

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Mice Lacking Connexin45 Conditionally in Cardiac Myocytes Display Embryonic Lethality Similar to That of Germline Knockout Mice Without Endocardial Cushion Defect

Nishii

Kumai

Egashira

et al. 2003

Cell Communication & Adhesion

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The gap junction protein connexin45-deficient (Cx45-KO) mice die shortly after the hearts begin to beat. In addition to the heart defect, they also show defective vascular development which may be closely related with the cardiac phenotype. Therefore, we created mice whose floxed-Cx45 locus could be removed conditionally. We utilized cardiac alpha-actin-Cre transgenic mice to investigate the specific cardiac muscular function of Cx45 in vivo. The resultant conditional mutants were lethal, showing conduction block similar to that of the Cx45-KO mice. Unlike Cx45-KO, development of the endocardial cushion was not disrupted in the conditional mutants. X-gal staining was detected in the embryonic cardiac myocytes as a hallmark of Cre-loxP mediated floxed-Cx45 deletion. These results reconfirm the requirement of Cx45 for developing cardiac myocytes. These also indicate that establishing the first contractions is a crucial task for the early hearts.

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Madoka Kumai

Abnormalities of developmental cell death in Dad1‐deficient mice

Mice Lacking Connexin45 Conditionally in Cardiac Myocytes Display Embryonic Lethality Similar to That of Germline Knockout Mice Without Endocardial Cushion Defect

Diversity and molecular anatomy of gap junctions

Conduction abnormality in gap junction protein connexin45‐deficient embryonic stem cell‐derived cardiac myocytes

Mice Lacking Connexin45 Conditionally in Cardiac Myocytes Display Embryonic Lethality Similar to That of Germline Knockout Mice Without Endocardial Cushion Defect

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