Gain-of-function variants in the ion channel gene TRPM3 underlie a spectrum of neurodevelopmental disorders.
Lydie BurglenEvelien Van HoeymissenLeila QebiboMagalie BarthNewell BelnapFelix BoschannChristel DepienneKatrien De ClercqAndrew G L DouglasMark P FitzgeraldNicola FouldsCatherine GarelIngo HelbigKatharina HeldDenise HornAnnelies JanssenAngela M KaindlVinodh NarayananChristina PragerMailys Rupin-MasAlexandra AfenjarSiyuan ZhaoVincent Th RamaekersSarah M RuggieroSimon ThomasStéphanie ValenceLionel Van MaldergemTibor RohacsDiana RodriguezDavid DymentThomas VoetsJoris VriensPublished in: eLife (2023)
TRPM3 is a temperature- and neurosteroid-sensitive plasma membrane cation channel expressed in a variety of neuronal and non-neuronal cells. Recently, rare de novo variants in TRPM3 were identified in individuals with developmental and epileptic encephalopathy, but the link between TRPM3 activity and neuronal disease remains poorly understood. We previously reported that two disease-associated variants in TRPM3 lead to a gain of channel function . Here, we report a further 10 patients carrying one of seven additional heterozygous TRPM3 missense variants. These patients present with a broad spectrum of neurodevelopmental symptoms, including global developmental delay, intellectual disability, epilepsy, musculo-skeletal anomalies, and altered pain perception. We describe a cerebellar phenotype with ataxia or severe hypotonia, nystagmus, and cerebellar atrophy in more than half of the patients. All disease-associated variants exhibited a robust gain-of-function phenotype, characterized by increased basal activity leading to cellular calcium overload and by enhanced responses to the neurosteroid ligand pregnenolone sulfate when co-expressed with wild-type TRPM3 in mammalian cells. The antiseizure medication primidone, a known TRPM3 antagonist, reduced the increased basal activity of all mutant channels. These findings establish gain-of-function of TRPM3 as the cause of a spectrum of autosomal dominant neurodevelopmental disorders with frequent cerebellar involvement in humans and provide support for the evaluation of TRPM3 antagonists as a potential therapy.
Keyphrases
- end stage renal disease
- intellectual disability
- copy number
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- newly diagnosed
- peritoneal dialysis
- early onset
- healthcare
- prognostic factors
- autism spectrum disorder
- spinal cord injury
- bone marrow
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- genome wide
- climate change
- neuropathic pain
- congenital heart disease
- sleep quality
- blood brain barrier
- replacement therapy