Peter Huntjens scite author profile

ObjectiveIntramyocellular lipid (IMCL) storage negatively associates with insulin resistance, albeit not in endurance-trained athletes. We investigated the putative contribution of lipid droplet (LD) morphology and subcellular localization to the so-called athlete's paradox.MethodsWe performed quantitative immunofluorescent confocal imaging of muscle biopsy sections from endurance Trained, Lean sedentary, Obese, and Type 2 diabetes (T2DM) participants (n = 8/group). T2DM patients and Trained individuals were matched for IMCL content. Furthermore we performed this analysis in biopsies of T2DM patients before and after a 12-week exercise program (n = 8).ResultsWe found marked differences in lipid storage morphology between trained subjects and T2DM: the latter group mainly store lipid in larger LDs in the subsarcolemmal (SS) region of type II fibers, whereas Trained store lipid in a higher number of LDs in the intramyofibrillar (IMF) region of type I fibers. In addition, a twelve-week combined endurance and strength exercise program resulted in a LD phenotype shift in T2DM patients partly towards an ‘athlete-like’ phenotype, accompanied by improved insulin sensitivity. Proteins involved in LD turnover were also more abundant in Trained than in T2DM and partly changed in an ‘athlete-like’ fashion in T2DM patients upon exercise training.ConclusionsOur findings provide a physiological explanation for the athlete's paradox and reveal LD morphology and distribution as a major determinant of skeletal muscle insulin sensitivity.

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Differentiating Electromechanical From Non–Electrical Substrates of Mechanical Discoordination to Identify Responders to Cardiac Resynchronization Therapy

Lumens

Tayal

Walmsley

et al. 2015

Circ: Cardiovascular Imaging

139

117

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Cardiac electrical dyssynchrony is accurately detected by noninvasive electrocardiographic imaging

et al. 2018

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Peter Huntjens

Distinct lipid droplet characteristics and distribution unmask the apparent contradiction of the athlete's paradox

Differentiating Electromechanical From Non–Electrical Substrates of Mechanical Discoordination to Identify Responders to Cardiac Resynchronization Therapy

Cardiac electrical dyssynchrony is accurately detected by noninvasive electrocardiographic imaging

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