There is increasing evidence that opening the mitochondrial ATP-sensitive K+ channel (mitoKATP) in heart is cardioprotective in ischemia-reperfusion injury. The long-term goals of this proposal are to uncover the mechanisms by which mitoKATP exerts its cardioprotective effects.
Specific aims are: To test and extend the hypothesis that mitoKATP is the site of cardioprotection. To test the hypothesis that the effects of mitoKATP opening/closing on cardiomyocytes are due to small changes in mitochondrial K+ flux. To determine how mitoKATP opening prior to ischemia acts as a """"""""trigger"""""""" of cardioprotection and how mitoKATP opening increases generation of reactive oxygen species. To determine whether the endogenous signaling pathways that open mitoKATP act by phosphorylating the channel. To determine the role and mechanisms of mitoKATP as an end effector of cardioprotection. The unifying principle behind these aims is that the consequences of mitoKATP opening depend strongly on the underlying bioenergetic state, in particular, on whether mitochondrial membrane potential (delta psi) is high or low when mitoKATP is opened. This accounts for the finding that mitoKATP opening plays two distinct roles in cardioprotection as both a trigger and an end effector of preconditioning. In the trigger phase, mitoKATP opening causes increased generation of reactive oxygen species. During ischemia and reperfusion, mitoKATP opening regulates energy transfers from mitochondria to the cytosol. The experimental approach is to study the problem from the ground up - from measurements of K+ flux through the purified protein through bioenergetic studies on mitochondria and permeabilized fibers to physiological studies on the cardiomyocyte and perfused heart.

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
1R01HL067842-01A1
Application #
6542378
Study Section
Cardiovascular and Pulmonary Research A Study Section (CVA)
Program Officer
Balshaw, David M
Project Start
2002-06-01
Project End
2002-09-15
Budget Start
2002-06-01
Budget End
2002-09-15
Support Year
1
Fiscal Year
2002
Total Cost
$107,185
Indirect Cost
Name
Oregon Health and Science University
Department
Engineering (All Types)
Type
Schools of Medicine
DUNS #
009584210
City
Portland
State
OR
Country
United States
Zip Code
97239
Garlid, Anders O; Jaburek, Martin; Jacobs, Jeremy P et al. (2013) Mitochondrial reactive oxygen species: which ROS signals cardioprotection? Am J Physiol Heart Circ Physiol 305:H960-8
Garlid, Keith D; Halestrap, Andrew P (2012) The mitochondrial K(ATP) channel--fact or fiction? J Mol Cell Cardiol 52:578-83
Jezek, Petr; Jab?rek, Martin; Garlid, Keith D (2010) Channel character of uncoupling protein-mediated transport. FEBS Lett 584:2135-41
Costa, Alexandre D T; Garlid, Keith D (2009) MitoKATP activity in healthy and ischemic hearts. J Bioenerg Biomembr 41:123-6
Garlid, Keith D; Costa, Alexandre D T; Quinlan, Casey L et al. (2009) Cardioprotective signaling to mitochondria. J Mol Cell Cardiol 46:858-66
Quinlan, Casey L; Costa, Alexandre D T; Costa, Cinthia L et al. (2008) Conditioning the heart induces formation of signalosomes that interact with mitochondria to open mitoKATP channels. Am J Physiol Heart Circ Physiol 295:H953-H961
Costa, Alexandre D T; Pierre, Sandrine V; Cohen, Michael V et al. (2008) cGMP signalling in pre- and post-conditioning: the role of mitochondria. Cardiovasc Res 77:344-52
Costa, Alexandre D T; Garlid, Keith D (2008) Intramitochondrial signaling: interactions among mitoKATP, PKCepsilon, ROS, and MPT. Am J Physiol Heart Circ Physiol 295:H874-82
Riess, Matthias L; Costa, Alexandre D; Carlson Jr, Richard et al. (2008) Differential increase of mitochondrial matrix volume by sevoflurane in isolated cardiac mitochondria. Anesth Analg 106:1049-55, table of contents
Liu, Lijun; Gable, Marjorie E; Garlid, Keith D et al. (2007) Interactions of K+ATP channel blockers with Na+/K+-ATPase. Mol Cell Biochem 306:231-7

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