Ketones can become the major fuel source for the heart but do not increase cardiac efficiency

Author:

Ho Kim L1ORCID,Karwi Qutuba G12ORCID,Wagg Cory1,Zhang Liyan1,Vo Katherina1,Altamimi Tariq3ORCID,Uddin Golam M1ORCID,Ussher John R14ORCID,Lopaschuk Gary D1

Affiliation:

1. Cardiovascular Research Centre Faculty of Medicine and Dentistry, University of Alberta, Edmonton, AB T6G 2S2, Canada

2. Department of Pharmacology, College of Medicine, University of Diyala, Diyala, Iraq

3. Diabetes and Obesity Center, University of Louisville, Louisville, KT, USA

4. Faculty of Pharmacy and Pharmaceutical Sciences, University of Alberta, Edmonton, AB, Canada

Abstract

Abstract Aims Ketones have been proposed to be a ‘thrifty’ fuel for the heart and increasing cardiac ketone oxidation can be cardioprotective. However, it is unclear how much ketone oxidation can contribute to energy production in the heart, nor whether increasing ketone oxidation increases cardiac efficiency. Therefore, our goal was to determine to what extent high levels of the ketone body, β-hydroxybutyrate (βOHB), contributes to cardiac energy production, and whether this influences cardiac efficiency. Methods and results Isolated working mice hearts were aerobically perfused with palmitate (0.8 mM or 1.2 mM), glucose (5 mM) and increasing concentrations of βOHB (0, 0.6, 2.0 mM). Subsequently, oxidation of these substrates, cardiac function, and cardiac efficiency were assessed. Increasing βOHB concentrations increased myocardial ketone oxidation rates without affecting glucose or fatty acid oxidation rates where normal physiological levels of glucose (5 mM) and fatty acid (0.8 mM) are present. Notably, ketones became the major fuel source for the heart at 2.0 mM βOHB (at both low or high fatty acid concentrations), with the elevated ketone oxidation rates markedly increasing tricarboxylic acid (TCA) cycle activity, producing a large amount of reducing equivalents and finally, increasing myocardial oxygen consumption. However, the marked increase in ketone oxidation at high concentrations of βOHB was not accompanied by an increase in cardiac work, suggesting that a mismatch between excess reduced equivalents production from ketone oxidation and cardiac adenosine triphosphate production. Consequently, cardiac efficiency decreased when the heart was exposed to higher ketone levels. Conclusions We demonstrate that while ketones can become the major fuel source for the heart, they do not increase cardiac efficiency, which also underscores the importance of recognizing ketones as a major fuel source for the heart in times of starvation, consumption of a ketogenic diet or poorly controlled diabetes.

Funder

Canadian Institutes of Health Research

Alberta Innovates Graduate Studentship

Alberta Diabetes Institute

Alberta Innovates Postgraduate Fellowship in Health Innovation

Publisher

Oxford University Press (OUP)

Subject

Physiology (medical),Cardiology and Cardiovascular Medicine,Physiology

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