Nitric oxide regulation of myocardial O2 consumption and HEP metabolism

Jianyi Zhang; Guangrong Gong; Yun Ye; Tao Guo; Abdul Mansoor; Qingsong Hu; Koichi Ochiai; Jingbo Liu; Xiaohong Wang; Yarong Cheng; Nicole Iverson; Joseph Lee; Arthur H.L. From; Kamil Ugurbil; Robert J. Bache

doi:10.1152/ajpheart.00518.2004

Nitric oxide regulation of myocardial O₂ consumption and HEP metabolism

Jianyi Zhang, Guangrong Gong, Yun Ye, Tao Guo, Abdul Mansoor, Qingsong Hu, Koichi Ochiai, Jingbo Liu, Xiaohong Wang, Yarong Cheng, Nicole Iverson, Joseph Lee, Arthur H.L. From, Kamil Ugurbil, Robert J. Bache

Research output: Contribution to journal › Article › peer-review

16 Scopus citations

Abstract

NO and O₂ compete at cytochrome-c oxidase, thus potentially allowing NO to modulate mitochondrial respiration. We previously observed a decrease of myocardial phosphocreatine (PCr)/ATP during very high cardiac work states, corresponding to an increase in cytosolic free ADP. This study tested the hypothesis that NO inhibition of respiration contributes to this increase of ADP. Infusion of dobutamine + dopamine (DbDp, each 20 μg·kg ^-1·min^-1 iv) to more than double myocardial oxygen consumption (MV̇O₂) in open-chest dogs caused a decrease of myocardial PCr/ATP measured with ³¹P NMR from 2.04 ± 0.09 to 1.85 ± 0.08 (P < 0.05). Inhibition of NO synthesis with N ^ω-nitro-L-arginine (L-NNA), while catecholamine infusion continued, caused PCr/ATP to increase to the control value. In a second group of animals, L-NNA administered before catecholamine stimulation (reverse intervention of the first group) increased PCr/ATP during basal conditions. In these animals L-NNA did not prevent a decrease of PCr/ATP at the high cardiac work state but, relative to MV̇O₂, PCr/ATP was significantly higher after L-NNA. In a third group of animals, pharmacological coronary vasodilation with carbochromen was used to prevent changes in coronary flow that might alter endothelial NO production. In these animals L-NNA again restored depressed myocardial PCr/ATP during catecholamine infusion. The finding that inhibition of NO production increased PCr/ATP suggests that during very high work states NO inhibition of mitochondrial respiration requires ADP to increase to drive oxidative phosphorylation.

Original language	English (US)
Pages (from-to)	H310-H316
Journal	American Journal of Physiology - Heart and Circulatory Physiology
Volume	288
Issue number	1 57-1
DOIs	https://doi.org/10.1152/ajpheart.00518.2004
State	Published - Jan 2005
Externally published	Yes

Keywords

Heart
High-energy phosphate
Myocardial blood flow
Nuclear magnetic resonance spectroscopy
Phosphate

ASJC Scopus subject areas

Physiology
Cardiology and Cardiovascular Medicine
Physiology (medical)

Access to Document

10.1152/ajpheart.00518.2004

Cite this

Zhang, J., Gong, G., Ye, Y., Guo, T., Mansoor, A., Hu, Q., Ochiai, K., Liu, J., Wang, X., Cheng, Y., Iverson, N., Lee, J., From, A. H. L., Ugurbil, K., & Bache, R. J. (2005). Nitric oxide regulation of myocardial O₂ consumption and HEP metabolism. American Journal of Physiology - Heart and Circulatory Physiology, 288(1 57-1), H310-H316. https://doi.org/10.1152/ajpheart.00518.2004

Zhang, J, Gong, G, Ye, Y, Guo, T, Mansoor, A, Hu, Q, Ochiai, K, Liu, J, Wang, X, Cheng, Y, Iverson, N, Lee, J, From, AHL, Ugurbil, K & Bache, RJ 2005, 'Nitric oxide regulation of myocardial O₂ consumption and HEP metabolism', American Journal of Physiology - Heart and Circulatory Physiology, vol. 288, no. 1 57-1, pp. H310-H316. https://doi.org/10.1152/ajpheart.00518.2004

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abstract = "NO and O2 compete at cytochrome-c oxidase, thus potentially allowing NO to modulate mitochondrial respiration. We previously observed a decrease of myocardial phosphocreatine (PCr)/ATP during very high cardiac work states, corresponding to an increase in cytosolic free ADP. This study tested the hypothesis that NO inhibition of respiration contributes to this increase of ADP. Infusion of dobutamine + dopamine (DbDp, each 20 μg·kg -1·min-1 iv) to more than double myocardial oxygen consumption (M{\.V}O2) in open-chest dogs caused a decrease of myocardial PCr/ATP measured with 31P NMR from 2.04 ± 0.09 to 1.85 ± 0.08 (P < 0.05). Inhibition of NO synthesis with N ω-nitro-L-arginine (L-NNA), while catecholamine infusion continued, caused PCr/ATP to increase to the control value. In a second group of animals, L-NNA administered before catecholamine stimulation (reverse intervention of the first group) increased PCr/ATP during basal conditions. In these animals L-NNA did not prevent a decrease of PCr/ATP at the high cardiac work state but, relative to M{\.V}O2, PCr/ATP was significantly higher after L-NNA. In a third group of animals, pharmacological coronary vasodilation with carbochromen was used to prevent changes in coronary flow that might alter endothelial NO production. In these animals L-NNA again restored depressed myocardial PCr/ATP during catecholamine infusion. The finding that inhibition of NO production increased PCr/ATP suggests that during very high work states NO inhibition of mitochondrial respiration requires ADP to increase to drive oxidative phosphorylation.",

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author = "Jianyi Zhang and Guangrong Gong and Yun Ye and Tao Guo and Abdul Mansoor and Qingsong Hu and Koichi Ochiai and Jingbo Liu and Xiaohong Wang and Yarong Cheng and Nicole Iverson and Joseph Lee and From, {Arthur H.L.} and Kamil Ugurbil and Bache, {Robert J.}",

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AU - Hu, Qingsong

AU - Ochiai, Koichi

AU - Liu, Jingbo

AU - Wang, Xiaohong

AU - Cheng, Yarong

AU - Iverson, Nicole

AU - Lee, Joseph

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AU - Bache, Robert J.

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AB - NO and O2 compete at cytochrome-c oxidase, thus potentially allowing NO to modulate mitochondrial respiration. We previously observed a decrease of myocardial phosphocreatine (PCr)/ATP during very high cardiac work states, corresponding to an increase in cytosolic free ADP. This study tested the hypothesis that NO inhibition of respiration contributes to this increase of ADP. Infusion of dobutamine + dopamine (DbDp, each 20 μg·kg -1·min-1 iv) to more than double myocardial oxygen consumption (MV̇O2) in open-chest dogs caused a decrease of myocardial PCr/ATP measured with 31P NMR from 2.04 ± 0.09 to 1.85 ± 0.08 (P < 0.05). Inhibition of NO synthesis with N ω-nitro-L-arginine (L-NNA), while catecholamine infusion continued, caused PCr/ATP to increase to the control value. In a second group of animals, L-NNA administered before catecholamine stimulation (reverse intervention of the first group) increased PCr/ATP during basal conditions. In these animals L-NNA did not prevent a decrease of PCr/ATP at the high cardiac work state but, relative to MV̇O2, PCr/ATP was significantly higher after L-NNA. In a third group of animals, pharmacological coronary vasodilation with carbochromen was used to prevent changes in coronary flow that might alter endothelial NO production. In these animals L-NNA again restored depressed myocardial PCr/ATP during catecholamine infusion. The finding that inhibition of NO production increased PCr/ATP suggests that during very high work states NO inhibition of mitochondrial respiration requires ADP to increase to drive oxidative phosphorylation.

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KW - Myocardial blood flow

KW - Nuclear magnetic resonance spectroscopy

KW - Phosphate

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