Maria Rosaria Catallo scite author profile

Two likely causative mutations in the RYR1 gene were identified in two patients with myopathy with tubular aggregates, but no evidence of cores or core‐like pathology on muscle biopsy. These patients were clinically evaluated and underwent routine laboratory investigations, electrophysiologic tests, muscle biopsy and muscle magnetic resonance imaging (MRI). They reported stiffness of the muscles following sustained activity or cold exposure and had serum creatine kinase elevation. The identified RYR1 mutations (p.Thr2206Met or p.Gly2434Arg, in patient 1 and patient 2, respectively) were previously identified in individuals with malignant hyperthermia susceptibility and are reported as causative according to the European Malignant Hyperthermia Group rules. To our knowledge, these data represent the first identification of causative mutations in the RYR1 gene in patients with tubular aggregate myopathy and extend the spectrum of histological alterations caused by mutation in the RYR1 gene.

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Mutations in proteins involved in E-C coupling and SOCE and congenital myopathies

Rossi

Catallo

Pierantozzi

et al. 2022

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In skeletal muscle, Ca2+ necessary for muscle contraction is stored and released from the sarcoplasmic reticulum (SR), a specialized form of endoplasmic reticulum through the mechanism known as excitation–contraction (E-C) coupling. Following activation of skeletal muscle contraction by the E-C coupling mechanism, replenishment of intracellular stores requires reuptake of cytosolic Ca2+ into the SR by the activity of SR Ca2+-ATPases, but also Ca2+ entry from the extracellular space, through a mechanism called store-operated calcium entry (SOCE). The fine orchestration of these processes requires several proteins, including Ca2+ channels, Ca2+ sensors, and Ca2+ buffers, as well as the active involvement of mitochondria. Mutations in genes coding for proteins participating in E-C coupling and SOCE are causative of several myopathies characterized by a wide spectrum of clinical phenotypes, a variety of histological features, and alterations in intracellular Ca2+ balance. This review summarizes current knowledge on these myopathies and discusses available knowledge on the pathogenic mechanisms of disease.

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Author response for "Ryanodine receptor 1 ( RYR1 ) mutations in two patients with tubular aggregate myopathy"

Vattemi¹,

Rossi²,

Galli³

et al. 2022

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Author response for "Ryanodine receptor 1 ( RYR1 ) mutations in two patients with tubular aggregate myopathy"

Vattemi¹,

Rossi²,

Galli³

et al. 2022

View full text Add to dashboard Cite

Author response for "Ryanodine receptor 1 ( RYR1 ) mutations in two patients with tubular aggregate myopathy"

Vattemi¹,

Rossi²,

Galli³

et al. 2022

View full text Add to dashboard Cite

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Maria Rosaria Catallo

Ryanodine receptor 1 (RYR1) mutations in two patients with tubular aggregate myopathy

Mutations in proteins involved in E-C coupling and SOCE and congenital myopathies

Author response for "Ryanodine receptor 1 ( <i>RYR1</i> ) mutations in two patients with tubular aggregate myopathy"

Author response for "Ryanodine receptor 1 ( <i>RYR1</i> ) mutations in two patients with tubular aggregate myopathy"

Author response for "Ryanodine receptor 1 ( <i>RYR1</i> ) mutations in two patients with tubular aggregate myopathy"

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