Effect of Fatty Acid Interaction on Myoglobin Oxygen Affinity and Triglyceride Metabolism

Overview

Journal J Physiol Biochem

Specialties Biochemistry
Physiology

Date 2017 Mar 31

PMID 28357578

Citations 16

Authors

Thomas Jue

Gregory Simond

Traver J Wright

Lifan Shih

Youngran Chung

Renuka Sriram

Ulrike Kreutzer

Randall W Davis

Affiliations

Soon will be listed here.

Abstract

Recent studies have suggested myoglobin (Mb) may have other cellular functions in addition to storing and transporting O. Indeed, NMR experiments have shown that the saturated fatty acid (FA) palmitate (PA) can interact with myoglobin (Mb) in its ligated state (MbCO and MbCN) but does not interact with Mb in its deoxygenated state. The observation has led to the hypothesis that Mb can also serve as a fatty acid transporter. The present study further investigates fatty acid interaction with the physiological states of Mb using the more soluble but unsaturated fatty acid, oleic acid (OA). OA binds to MbCO but does not bind to deoxy Mb. OA binding to Mb, however, does not alter its O affinity. Without any Mb, muscle has a significantly lower level of triglyceride (TG). In Mb knock-out (MbKO) mice, both heart and skeletal muscles have lower level of TG relative to the control mice. Training further decreases the relative TG in the MbKO skeletal muscle. Nevertheless, the absence of Mb and lower TG level in muscle does not impair the MbKO mouse performance as evidenced by voluntary wheel running measurements. The results support the hypothesis of a complex physiological role for Mb, especially with respect to fatty acid metabolism.

Citing Articles

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