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WASF3 disrupts mitochondrial respiration and may mediate exercise intolerance in myalgic encephalomyelitis/chronic fatigue syndrome

Pingyuan Wang, Jin Ma, Young‐Chae Kim, Annie Y. Son, Abu Mohammad Syed, Chengyu Liu, Mateus Prates Mori, Rebecca D. Huffstutler, JoEllyn Stolinski, S. Lalith Talagala, Ju‐Gyeong Kang, Brian Walitt, Avindra Nath, Paul M. Hwang

2023Proceedings of the National Academy of Sciences34 citationsDOIOpen Access PDF

Abstract

Myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) is characterized by various disabling symptoms including exercise intolerance and is diagnosed in the absence of a specific cause, making its clinical management challenging. A better understanding of the molecular mechanism underlying this apparent bioenergetic deficiency state may reveal insights for developing targeted treatment strategies. We report that overexpression of Wiskott-Aldrich Syndrome Protein Family Member 3 ( WASF3 ), here identified in a 38-y-old woman suffering from long-standing fatigue and exercise intolerance, can disrupt mitochondrial respiratory supercomplex formation and is associated with endoplasmic reticulum (ER) stress. Increased expression of WASF3 in transgenic mice markedly decreased their treadmill running capacity with concomitantly impaired respiratory supercomplex assembly and reduced complex IV levels in skeletal muscle mitochondria. WASF3 induction by ER stress using endotoxin, well known to be associated with fatigue in humans, also decreased skeletal muscle complex IV levels in mice, while decreasing WASF3 levels by pharmacologic inhibition of ER stress improved mitochondrial function in the cells of the patient with chronic fatigue. Expanding on our findings, skeletal muscle biopsy samples obtained from a cohort of patients with ME/CFS showed increased WASF3 protein levels and aberrant ER stress activation. In addition to revealing a potential mechanism for the bioenergetic deficiency in ME/CFS, our study may also provide insights into other disorders associated with fatigue such as rheumatic diseases and long COVID.

Topics & Concepts

Chronic fatigue syndromeEncephalomyelitisExercise intoleranceMedicineRespirationPhysical therapyPsychologyPhysical medicine and rehabilitationImmunologyInternal medicineMultiple sclerosisHeart failureAnatomyMitochondrial Function and PathologyFibromyalgia and Chronic Fatigue Syndrome ResearchGenetic Neurodegenerative Diseases
WASF3 disrupts mitochondrial respiration and may mediate exercise intolerance in myalgic encephalomyelitis/chronic fatigue syndrome | Litcius