Deletion of TRPC6, an Autism Risk Gene, Induces Hyperexcitability in Cortical Neurons Derived from Human Pluripotent Stem Cells

Deletion of TRPC6, an Autism Risk Gene, Induces Hyperexcitability in Cortical Neurons Derived from Human Pluripotent Stem Cells

<p dir="ltr">Autism spectrum disorder (ASD) is a complex and heterogeneous neurodevelopmental disorder linked to numerous rare, inherited, and arising de novo genetic variants. ASD often co-occurs with attention-deficit hyperactivity disorder and epilepsy, which are associated with h...

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محفوظ في:
التفاصيل البيبلوغرافية
المؤلف الرئيسي: Kyung Chul Shin (13913556) (author)
مؤلفون آخرون: Gowher Ali (14152593) (author), Houda Yasmine Ali Moussa (16855182) (author), Vijay Gupta (209146) (author), Alberto de la Fuente (360936) (author), Hyung-Goo Kim (728597) (author), Lawrence W. Stanton (6707191) (author), Yongsoo Park (761850) (author)
منشور في: 2023
الموضوعات:
Biomedical and clinical sciences
Medical biotechnology
Neurosciences
Autism
TRPC6
SOCE
Hyperexcitability
iPSC
hPSC‐derived cortical neurons
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الملخص:<p dir="ltr">Autism spectrum disorder (ASD) is a complex and heterogeneous neurodevelopmental disorder linked to numerous rare, inherited, and arising de novo genetic variants. ASD often co-occurs with attention-deficit hyperactivity disorder and epilepsy, which are associated with hyperexcitability of neurons. However, the physiological and molecular mechanisms underlying hyperexcitability in ASD remain poorly understood. Transient receptor potential canonical-6 (TRPC6) is a Ca2+-permeable cation channel that regulates store-operated calcium entry (SOCE) and is a candidate risk gene for ASD. Using human pluripotent stem cell (hPSC)–derived cortical neurons, single-cell calcium imaging, and electrophysiological recording, we show that TRPC6 knockout (KO) reduces SOCE signaling and leads to hyperexcitability of neurons by increasing action potential frequency and network burst frequency. Our data provide evidence that reduction of SOCE by TRPC6 KO results in neuronal hyperexcitability, which we hypothesize is an important contributor to the cellular pathophysiology underlying hyperactivity in some ASD.</p><h2>Other Information</h2><p dir="ltr">Published in: Molecular Neurobiology<br>License: <a href="https://creativecommons.org/licenses/by/4.0" target="_blank">https://creativecommons.org/licenses/by/4.0</a><br>See article on publisher's website: <a href="https://dx.doi.org/10.1007/s12035-023-03527-0" target="_blank">https://dx.doi.org/10.1007/s12035-023-03527-0</a></p>

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