Bellina Mushala scite author profile

Bellina Mushala

4Publications

44Citation Statements Received

84Citation Statements Given

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University of Pittsburgh, Reproductive Medicine Institute

Publications

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Adropin: a hepatokine modulator of vascular function and cardiac fuel metabolism

Mushala

Scott

2021

American Journal of Physiology-Heart and Circulatory Physiology

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Adropin is a nutritionally regulated peptide hormone, secreted primarily by the liver, which modulates metabolic homeostasis in a number of tissues. Growing evidence suggests that adropin is an important regulatory component in a number of cardiovascular pathologies, and may be central to the control of cardiac fuel metabolism and vascular function. In this mini-review, we examine the known facets of adropin biology, discuss open questions in the field, and speculate on the therapeutic potential of targeting adropin-related signaling pathways in cardiovascular diseases.

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Diet-induced obese mice are resistant to improvements in cardiac function resulting from short-term adropin treatment

Thapa

Xie

Mushala

et al. 2022

Current Research in Physiology

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Increased fatty acid oxidation enzyme activity in the hearts of mice fed a high fat diet does not correlate with improved cardiac contractile function

Thapa

Manning

Mushala

et al. 2020

Current Research in Physiology

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Changes in the acetylation status of mitochondrial proteins have been linked to the development of metabolic dysfunction in a number of tissues. Increased lysine acetylation has been reported in the hearts of obese mice, and is associated with changes in fuel metabolism, redox status, and mitochondrial oxidative phosphorylation. In this study, we examined whether diet-induced changes in the acetylation of mitochondrial acyl-CoA dehydrogenases affected fatty acid oxidation enzyme activity and contractile function in the obese mouse heart. Exposure to a long-term high fat diet in wildtype mice led to the hyperacetylation of short- and long-chain acyl-CoA dehydrogenases SCAD and LCAD, which correlated with their increased enzymatic activity in vitro . Cardiomyocyte-specific deletion of the mitochondrial acetyltransferase-related protein GCN5L1 prevented both the hyperacetylation and increased activity of these enzymes under the same conditions of dietary excess. Despite the potential for increased cardiac fatty acid oxidation activity, wildtype mice did not display any increase in cardiac contractility following exposure to a high fat diet. We conclude that the potential energetic benefits of elevated fatty acid oxidation activity are not sufficient to counter the various deleterious effects of a high fat diet on cardiac function.

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GCN5L1 impairs diastolic function in mice exposed to a high fat diet by restricting cardiac pyruvate oxidation

Thapa

Paramesha

Mushala

et al. 2022

Physiological Reports

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Bellina Mushala

Adropin: a hepatokine modulator of vascular function and cardiac fuel metabolism

Diet-induced obese mice are resistant to improvements in cardiac function resulting from short-term adropin treatment

Increased fatty acid oxidation enzyme activity in the hearts of mice fed a high fat diet does not correlate with improved cardiac contractile function

GCN5L1 impairs diastolic function in mice exposed to a high fat diet by restricting cardiac pyruvate oxidation

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