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Publication
Gender-dependent attenuation of cardiac potassium currents in type 2 diabetic
db/db mice.
Authors
Shimoni Y, Chuang M, Abel ED, Severson DL.
Submitted By
E. Dale Abel on 3/3/2004
Status
Published
Journal
The Journal of physiology
Year
2003
Date Published
3/1/2004
Volume : Pages
555 : 345 - 354
PubMed Reference
Abstract
Single ventricular myocytes were prepared from control db/+ and
insulin-resistant diabetic db/db male mice at 6 and 12 weeks of age. Peak and
sustained outward potassium currents were measured using whole-cell voltage
clamp methods. At 6 weeks currents were fully developed in control and diabetic
mice, with no differences in the density of either current. By 12 weeks both
currents were significantly attenuated in the diabetic mice, but could be
augmented by in vitro incubation with the angiotensin-converting enzyme (ACE)
inhibitor quinapril (1 microm, 5-9 h). In cells from female db/db mice (12 weeks
of age), K(+) currents were not attenuated and no effects of quinapril were
observed. To investigate whether lack of insulin action accounts for these
gender differences, cells were also isolated from cardiomyocte-specific insulin
receptor knockout (CIRKO) mice. Both K(+) currents were significantly attenuated
in cells from male and female CIRKO mice, and action potentials were
significantly prolonged. Incubation with quinapril did not augment K(+)
currents. Our results demonstrate that type 2 diabetes is associated with
gender-selective attenuation of K(+) currents in cardiomyocytes, which may
underlie gender differences in the development of some cardiac arrhythmias. The
mechanism for attenuation of K(+) currents in cells from male mice is due, at
least in part, to an autocrine effect resulting from activation of a cardiac
renin-angiotensin system. Insulin is not involved in these gender differences,
since the absence of insulin action in CIRKO mice diminishes K(+) currents in
cells from both males and females.
Investigators with authorship
Name
Institution
E. Dale Abel
University of Iowa
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Please acknowledge all posters, manuscripts or scientific materials that were generated in part or whole using funds from the Diabetic Complications Consortium(看片视频) using the following text:
Financial support for this work provided by the NIDDK Diabetic Complications Consortium (RRID:SCR_001415, www.diacomp.org), grants DK076169 and DK115255
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