Abstract Background Nitric oxide (NO) has been noted to produce ischemic preconditioning (IPC)-mediated cardioprotection. Caveolin is a negative regulator of NO, which inhibits endothelial nitric oxide synthase (eNOS) by making caveolin-eNOS complex. The expression of caveolin is increased during diabetes mellitus (DM). The present study was designed to investigate the involvement of caveolin in attenuation of the cardioprotective effect of IPC during DM in rat. Methods Experimental DM was induced by single dose of streptozotocin (50 mg/Kg, <it>i.p</it>,) and animals were used for experiments four weeks later. Isolated heart was mounted on Langendorff's apparatus, and was subjected to 30 min of global ischemia and 120 min of reperfusion. IPC was given by four cycles of 5 min of ischemia and 5 min of reperfusion with Kreb's-Henseleit solution (K-H). Extent of injury was measured in terms of infarct size by triphenyltetrazolium chloride (TTC) staining, and release of lactate dehydrogenase (LDH) and creatin kinase-MB (CK-MB) in coronary effluent. The cardiac release of NO was noted by measuring the level of nitrite in coronary effluent. Results IPC- induced cardioprotection and release of NO was significantly decreased in diabetic rat heart. Pre-treatment of diabetic rat with daidzein (DDZ) a caveolin inhibitor (0.2 mg/Kg/s.c), for one week, significantly increased the release of NO and restored the attenuated cardioprotective effect of IPC. Also perfusion of sodium nitrite (10 μM/L), a precursor of NO, significantly restored the lost effect of IPC, similar to daidzein in diabetic rat. Administration of 5-hydroxy deaconate (5-HD), a mito KATP channel blocker, significantly abolished the observed IPC-induced cardioprotection in normal rat or daidzein and sodium nitrite perfused diabetic rat heart alone or in combination. Conclusions Thus, it is suggested that attenuation of the cardioprotection in diabetic heart may be due to decrease the IPC mediated release of NO in the diabetic myocardium, which may be due to up -regulation of caveolin and subsequently decreased activity of eNOS.</p

A Tsang

A Webb

A Wynne

C Szabo

CE Murry

CJ Murray

CL Quinlan

CP Baines

D Stokoe

DM Roth

E Murphy

EJ Hide

ER Gross

G Garcı'a-Carden˜

G Ozansoy

GC Sobey

GF Baxter

GJ Grover

H Kaur

H Sasaki

Harlokesh N Yadav

HF del Valle

HM Piper

HN Yadav

I Ungi

J Couet

J Liu

J Lott

JE Baker

JM Mejía-Vilet

JR Kersten

K Chopra

K Garg

KD Garlid

KS Song

LH Snoeckx

M Bucci

M Das

M Osada

M Skrzypiec-Spring

M Tanaka

M Vandormael

M-K Yang

MA Marletta

Manjeet Singh

MGM Prendes

MP Lisanti

N Yadav H

NA Maniatis

O Feron

O Langendorff

OL Woodman

P Abete

P Ferdinandy

P Trinder

Preeti Ajmani

Pyare L Sharma

R Taliyan

S Koneru

SL Lindell

SV Penumathsa

TA Fralix

V Parikh

YM Tsutsumi

Z Giricz

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MP: Targeting of subunit and c-Src tyrosine kinase to caveolae membranes: clarifying the role of N-myristoylation. Cell Mol Biol

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PL: Mechanism of Cardioprotective Effect of Erythropoietin-induced Preconditioning in Rat Heart.

Platelet activating factor contributes to the induction of nitric oxide synthase by bacterial lipopolysaccharide. Circ Res

Possible role of cardiac mast cell degranulation and preservation of nitric oxide release in isolated rat heart subjected to ischemic preconditioning. Mol Cell Biochem

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WC: Dissecting the Interaction between Nitric Oxide Synthase (NOS) and Caveolin. Functional significance of the NOS caveolin binding domain in vivo.

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Possible involvement of caveolin in attenuation of cardioprotective effect of ischemic preconditioning in diabetic rat heart