King F. Kwong scite author profile

Abstract-Electrical coupling of pacemaker cells at gap junctions appears to play an important role in sinus node function.Although the major cardiac gap junction protein, connexin43 (Cx43), is expressed abundantly in atrial and ventricular muscle, its expression in the sinus node has been a subject of controversy. The objectives of the present study were to determine whether Cx43 is expressed by sinus node myocytes, to characterize the spectrum of connexin expression phenotypes in sinus node pacemaker cells, and to define the spatial distribution of different connexin phenotypes in the intact sinus node. To fulfill these objectives, we performed high-resolution immunohistochemical analysis of disaggregated adult canine sinus node preparations. Using enhanced tissue preservation and antigen retrieval techniques, we also performed immunohistochemical studies on sections of intact canine sinus node tissue. Analysis of disaggregated sinus node preparations revealed three populations of pacemaker cells distinguished on the basis of connexin immunohistochemical phenotype: Ϸ55% of cells expressed only connexin40 (Cx40); 30% to 35% of cells expressed Cx43, connexin45 (Cx45), and Cx40; and the remaining cells had no detectable connexin expression. In immunostained sections of intact sinus node, Cx43-and Cx45-positive cells were limited in their distribution and were observed in discrete bundles that appeared to abut atrial myocytes. In contrast, Cx40 immunoreactive signal was widely distributed in the sinus node region. These results indicate that subsets of pacemaker cells express distinct connexin phenotypes. Differential expression of connexins could create regions within the sinus node with different conduction properties, thereby contributing to the nonuniform conduction properties seen in this tissue. (Circ Res. 1998;82:604-612.)

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Transmyocardial laser treatment denervates canine myocardium

Kwong¹,

Kanellopoulos²,

Nickols³

et al. 1997

The Journal of Thoracic and Cardiovascular Surgery

159

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MicroRNA-24 regulates XIAP to reduce the apoptosis threshold in cancer cells

et al. 2012

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MicroRNAs have been implicated as important mediators of cancer cell homeostasis, and accumulating data suggest compelling roles for them in the apoptosis pathway. X-linked inhibitor of apoptosis protein (XIAP) is a potent caspase inhibitor and an important barrier to apoptotic cell death, but the mechanisms which determine the diverse range of XIAP expression seen in cancer remains unclear. In this study, we present evidence that miR-24 directly targets the 3′UTR of the XIAP mRNA to exert translational repression. Using a heuristic algorithm of bioinformatics analysis and in vitro screening, we identified miR-24 as a candidate regulator of XIAP expression. Array CGH and SKY analysis reveal that genomic copy number loss at the miR-24 locus is concordant with loss of endogenous miR-24 in cancer cells. Using a luciferase construct of the XIAP 3′UTR, we showed that miR-24 specifically coordinates to the XIAP mRNA. And interference with miR-24’s binding of the critical seed region, resulting from site-directed mutagenesis of the 3′UTR, significantly abrogated miR-24’s effects on XIAP expression. Moreover, miR-24 over-expression can overcome apoptosis-resistance in cancer cells via down-regulation of XIAP expression, and the resulting cancer cell death induced by TRAIL is executed by the canonical caspase-mediated apoptosis pathway. In summary, our data suggest a novel mechanism by which miR-24 directly modulates XIAP expression level and consequently the apoptosis threshold in cancer cells.

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King F. Kwong

Differential Expression of Gap Junction Proteins in the Canine Sinus Node

Transmyocardial laser treatment denervates canine myocardium

MicroRNA-24 regulates XIAP to reduce the apoptosis threshold in cancer cells

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