-acetylneuraminate Pyruvate Lyase Controls Sialylation of Muscle Glycoproteins Essential for Muscle Regeneration and Function

Overview

Journal Sci Adv

Specialties Biology
Science

Date 2023 Jun 30

PMID 37390204

Authors

Afitz Da Silva

Junio Dort

Zakaria Orfi

Xuefang Pan

Sjanie Huang

Ikhui Kho

Emilie Heckel

Giacomo Muscarnera

Patrick Piet van Vliet

Luisa Sturiale

Angela Messina

Donata Agata Romeo

Clara D M van Karnebeek

Xiao-Yan Wen

Aleksander Hinek

Thomas Molina

Gregor Andelfinger

Benjamin Ellezam

Yojiro Yamanaka

Hernando J Olivos

Carlos R Morales

Jean-Sebastien Joyal

Dirk J Lefeber

Domenico Garozzo

Nicolas A Dumont

Alexey V Pshezhetsky

Affiliations

Soon will be listed here.

Abstract

Deleterious variants in acetylneuraminate pyruvate lyase (NPL) cause skeletal myopathy and cardiac edema in humans and zebrafish, but its physiological role remains unknown. We report generation of mouse models of the disease: , carrying the human p.Arg63Cys variant, and with a 116-bp exonic deletion. In both strains, NPL deficiency causes drastic increase in free sialic acid levels, reduction of skeletal muscle force and endurance, slower healing and smaller size of newly formed myofibers after cardiotoxin-induced muscle injury, increased glycolysis, partially impaired mitochondrial function, and aberrant sialylation of dystroglycan and mitochondrial LRP130 protein. NPL-catalyzed degradation of sialic acid in the muscle increases after fasting and injury and in human patient and mouse models with genetic muscle dystrophy, demonstrating that NPL is essential for muscle function and regeneration and serves as a general marker of muscle damage. Oral administration of acetylmannosamine rescues skeletal myopathy, as well as mitochondrial and structural abnormalities in mice, suggesting a potential treatment for human patients.

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