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Query: UMLS:C0029089 (
ophthalmoplegia
)
3,338
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The
ryanodine receptor
(RYR1) is an essential component of the calcium homeostasis of the skeletal muscle in mammals. Inactivation of the RYR1 gene in mice is lethal at birth. In humans only missense and in-frame mutations in the RYR1 gene have been associated so far with various muscle disorders including malignant hyperthermia, central core disease and the moderate form of multi-minicore disease (MmD). We identified a cryptic splicing mutation in the RYR1 gene that resulted in a 90% decrease of the normal RYR1 transcript in skeletal muscle. The 14646+2.99 kb A-->G mutation was associated with the classical form of MmD with
ophthalmoplegia
, whose genetic basis was previously unknown. The mutation present at a homozygous level was responsible for a massive depletion of the RYR1 protein in skeletal muscle. The mutation was not expressed in lymphoblastoid cells, pointing toward a tissue specific splicing mechanism. This first report of an out-of-frame mutation that affects the amount of RYR1 raised the question of the amount of RYR1 needed for skeletal muscle function in humans.
...
PMID:A homozygous splicing mutation causing a depletion of skeletal muscle RYR1 is associated with multi-minicore disease congenital myopathy with ophthalmoplegia. 1271 81
Muscle contraction upon nerve stimulation relies on excitation-contraction coupling (ECC) to promote the rapid and generalized release of calcium within myofibers. In skeletal muscle, ECC is performed by the direct coupling of a voltage-gated L-type Ca
2+
channel (dihydropyridine receptor; DHPR) located on the T-tubule with a Ca
2+
release channel (
ryanodine receptor
; RYR1) on the sarcoplasmic reticulum (SR) component of the triad. Here, we characterize a novel class of congenital myopathy at the morphological, molecular, and functional levels. We describe a cohort of 11 patients from 7 families presenting with perinatal hypotonia, severe axial and generalized weakness.
Ophthalmoplegia
is present in four patients. The analysis of muscle biopsies demonstrated a characteristic intermyofibrillar network due to SR dilatation, internal nuclei, and areas of myofibrillar disorganization in some samples. Exome sequencing revealed ten recessive or dominant mutations in CACNA1S (Ca
v
1.1), the pore-forming subunit of DHPR in skeletal muscle. Both recessive and dominant mutations correlated with a consistent phenotype, a decrease in protein level, and with a major impairment of Ca
2+
release induced by depolarization in cultured myotubes. While dominant CACNA1S mutations were previously linked to malignant hyperthermia susceptibility or hypokalemic periodic paralysis, our findings strengthen the importance of DHPR for perinatal muscle function in human. These data also highlight CACNA1S and ECC as therapeutic targets for the development of treatments that may be facilitated by the previous knowledge accumulated on DHPR.
...
PMID:Dihydropyridine receptor (DHPR, CACNA1S) congenital myopathy. 2801 42
The RYR1 gene, which encodes the sarcoplasmic reticulum calcium release channel or type 1
ryanodine receptor
(RyR1) of skeletal muscle, was sequenced in 1988 and RYR1 variations that impair calcium homeostasis and increase susceptibility to malignant hyperthermia were first identified in 1991. Since then, RYR1-related myopathies (RYR1-RM) have been described as rare, histopathologically and clinically heterogeneous, and slowly progressive neuromuscular disorders. RYR1 variants can lead to dysfunctional RyR1-mediated calcium release, malignant hyperthermia susceptibility, elevated oxidative stress, deleterious post-translational modifications, and decreased RyR1 expression. RYR1-RM-affected individuals can present with delayed motor milestones, contractures, scoliosis,
ophthalmoplegia
, and respiratory insufficiency.Historically, RYR1-RM-affected individuals were diagnosed based on morphologic features observed in muscle biopsies including central cores, cores and rods, central nuclei, fiber type disproportion, and multi-minicores. However, these histopathologic features are not always specific to RYR1-RM and often change over time. As additional phenotypes were associated with RYR1 variations (including King-Denborough syndrome, exercise-induced rhabdomyolysis, lethal multiple pterygium syndrome, adult-onset distal myopathy, atypical periodic paralysis with or without myalgia, mild calf-predominant myopathy, and dusty core disease) the overlap among diagnostic categories is ever increasing. With the continuing emergence of new clinical subtypes along the RYR1 disease spectrum and reports of adult-onset phenotypes, nuanced nomenclatures have been reported (RYR1- [related, related congenital, congenital] myopathies). In this narrative review, we provide historical highlights of RYR1 research, accounts of the main diagnostic disease subtypes and propose RYR1-related disorders (RYR1-RD) as a unified nomenclature to describe this complex and evolving disease spectrum.
...
PMID:Ryanodine receptor 1-related disorders: an historical perspective and proposal for a unified nomenclature. 3319 Jun 35
