Intracellular Redistribution of Dihydropyridine Receptor in the Rat Heart During the Progression of Sepsis

Intracellular Redistribution of Dihydropyridine Receptor in the Rat Heart During the Progression of Sepsis

Background Dihydropyridine receptor (DHPR) regulates the rate and force of cardiac muscle contraction. This study examined the alteration in the intracellular redistribution of DHPR and its association with the development of the two distinct cardiodynamic states in the rat heart during the progress...

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Bibliographic Details
Published in:The Journal of surgical research Vol. 141; no. 2; pp. 146 - 152
Main Authors: Hsu, Chin, Ph.D, Wu, Guang, M.D, Yang, Shaw-Lang, Ph.D, Hsu, Hseng-Kuang, M.S, Yang, Rei-Cheng, M.D., Ph.D, Tang, Chaoshu, M.D, Liu, Maw-Shung, D.D.S., Ph.D
Format: Journal Article
Language:English
Published: New York, NY Elsevier Inc 01-08-2007
Elsevier
Subjects:
Animals
Bacterial diseases
Bacterial sepsis
Biological and medical sciences
Calcium Channels, L-Type - analysis
Calcium Channels, L-Type - metabolism
dihydropyridine receptor
Disease Progression
General aspects
Human bacterial diseases
Infectious diseases
Isradipine - metabolism
l-type calcium channel
light vesicle
Male
Medical sciences
Myocardium - chemistry
Phosphorylation
rat heart
Rats
Rats, Sprague-Dawley
receptor externalization
receptor internalization
Receptors, Adrenergic, beta - metabolism
sarcolemmal membrane
Sepsis - metabolism
septic shock
Surgery
septic shock
l-type calcium channel
receptor externalization
receptor internalization
sarcolemmal membrane
dihydropyridine receptor
rat heart
light vesicle
Heart
Prognosis
Calcium
Rat
Ionic channel
Inorganic element
Sepsis syndrome
Surgery
Light
Evolution
Membrane
Biological receptor
Vesicle
Rodentia
Septic shock
Bacteremia
Infection
Medicine
Vertebrata
Mammalia
Treatment
Animal
Internalization
Bacteriosis
Intracellular
L-type calcium channel
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Summary:Background Dihydropyridine receptor (DHPR) regulates the rate and force of cardiac muscle contraction. This study examined the alteration in the intracellular redistribution of DHPR and its association with the development of the two distinct cardiodynamic states in the rat heart during the progression of sepsis. Material and methods Sepsis was induced by cecal ligation and puncture (CLP). DHPRs were assayed using [3 H]PN200-100 binding and photoaffinity labeling with [3 H]azidopine followed by polyacrylamide gel electrophoresis. Results [3 H]PN200-110 binding shows that during the early hyperdynamic phase of sepsis (9 h post-CLP), the Bmax was increased by 27% in sarcolemma while decreased by 24% in light vesicle. During the late hypodynamic phase of sepsis (18 h post-CLP), the Bmax was decreased by 39% in sarcolemma but increased by 59% in light vesicle. The sum of the Bmax for both membrane fractions was increased by 16% during early sepsis while decreased by 17% during late sepsis. Photoaffinity labeling shows that the incorporation of [3 H]azidopine into 165 kDa peptides during early sepsis was increased by 28% in sarcolemma whereas decreased by 23% in light vesicle. During late sepsis, the incorporation was decreased by 38% in sarcolemma but increased by 46% in light vesicle. The sum of the 165 kDa peptides for both membrane fractions was increased by 13% during early while decreased by 13% during late sepsis. Conclusions These data indicate that DHPRs in the rat heart were externalized from light vesicles to sarcolemma during the early hyperdynamic phase whereas they were internalized from surface membranes to intracellular sites during the late hypodynamic phase of sepsis. Furthermore, DHPRs were overexpressed during early sepsis while they were underexpressed during late sepsis. Alterations in the expression and intracellular redistribution of DHPRs may contribute to the development of the biphasic cardiodynamic states during the progression of sepsis.
Bibliography:ObjectType-Article-1
SourceType-Scholarly Journals-1
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content type line 23
ISSN:0022-4804
1095-8673
DOI:10.1016/j.jss.2006.05.042