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Literature DB >> 26708751

Biallelic Mutations in UNC80 Cause Persistent Hypotonia, Encephalopathy, Growth Retardation, and Severe Intellectual Disability.

Asbjørg Stray-Pedersen¹, Jan-Maarten Cobben², Trine E Prescott³, Sora Lee⁴, Chunlei Cang⁴, Kimberly Aranda⁴, Sohnee Ahmed⁵, Marielle Alders⁶, Thorsten Gerstner⁷, Kathinka Aslaksen⁸, Martine Tétreault⁹, Wen Qin¹⁰, Taila Hartley¹⁰, Shalini N Jhangiani¹¹, Donna M Muzny¹¹, Maja Tarailo-Graovac¹², Clara D M van Karnebeek¹³, James R Lupski¹⁴, Dejian Ren¹⁵, Grace Yoon¹⁶.

Abstract

Ion channel proteins are required for both the establishment of resting membrane potentials and the generation of action potentials. Hundreds of mutations in genes encoding voltage-gated ion channels responsible for action potential generation have been found to cause severe neurological diseases. In contrast, the roles of voltage-independent "leak" channels, important for the establishment and maintenance of resting membrane potentials upon which action potentials are generated, are not well established in human disease. UNC80 is a large component of the NALCN sodium-leak channel complex that regulates the basal excitability of the nervous system. Loss-of-function mutations of NALCN cause infantile hypotonia with psychomotor retardation and characteristic facies (IHPRF). We report four individuals from three unrelated families who have homozygous missense or compound heterozygous truncating mutations in UNC80 and persistent hypotonia, encephalopathy, growth failure, and severe intellectual disability. Compared to control cells, HEK293T cells transfected with an expression plasmid containing the c.5098C>T (p.Pro1700Ser) UNC80 mutation found in one individual showed markedly decreased NALCN channel currents. Our findings demonstrate the fundamental significance of UNC80 and basal ionic conductance to human health.

Entities: Chemical Disease Gene Mutation Species

Mesh：

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Year: 2015 PMID： 26708751 PMCID： PMC4716670 DOI： 10.1016/j.ajhg.2015.11.004

Source DB: PubMed Journal: Am J Hum Genet ISSN： 0002-9297 Impact factor: 11.025

26 in total

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Authors: Dimitri M Kullmann; Stephen G Waxman
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Authors: Matthieu Flourakis; Elzbieta Kula-Eversole; Alan L Hutchison; Tae Hee Han; Kimberly Aranda; Devon L Moose; Kevin P White; Aaron R Dinner; Bridget C Lear; Dejian Ren; Casey O Diekman; Indira M Raman; Ravi Allada
Journal: Cell Date: 2015-08-13 Impact factor: 41.582

3. Extracellular calcium controls background current and neuronal excitability via an UNC79-UNC80-NALCN cation channel complex.

Authors: Boxun Lu; Qi Zhang; Haikun Wang; Yan Wang; Manabu Nakayama; Dejian Ren
Journal: Neuron Date: 2010-11-04 Impact factor: 17.173

4. Mutations in NALCN cause an autosomal-recessive syndrome with severe hypotonia, speech impairment, and cognitive delay.

Authors: Moeenaldeen D Al-Sayed; Hamad Al-Zaidan; Albandary Albakheet; Hana Hakami; Rosan Kenana; Yusra Al-Yafee; Mazhor Al-Dosary; Alya Qari; Tarfa Al-Sheddi; Muhammed Al-Muheiza; Wafa Al-Qubbaj; Yamina Lakmache; Hindi Al-Hindi; Muhammad Ghaziuddin; Dilek Colak; Namik Kaya
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23 in total

1. Case Report of Pediatric Channelopathies With UNC80 and KCNJ11 Mutations Having Abnormal Respiratory Control Treated With Positive Airway Pressure Therapy.

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Journal: J Clin Sleep Med Date: 2018-08-15 Impact factor: 4.062

2. Phenotypic evolution of UNC80 loss of function.

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Journal: Am J Med Genet A Date: 2016-08-11 Impact factor: 2.802

3. Identification of a novel homozygous UNC80 variant in a child with infantile hypotonia with psychomotor retardation and characteristic facies-2 (IHPRF2).

Authors: Tasneem Obeid; Abdul Rezzak Hamzeh; Fatima Saif; Pratibha Nair; Madiha Mohamed; Mahmoud Taleb Al-Ali; Fatma Bastaki
Journal: Metab Brain Dis Date: 2018-02-11 Impact factor: 3.584

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Authors: Merve Kasap; Donard S Dwyer
Journal: J Neural Transm (Vienna) Date: 2021-05-07 Impact factor: 3.575

5. The NCA-1 and NCA-2 Ion Channels Function Downstream of G_q and Rho To Regulate Locomotion in Caenorhabditis elegans.

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7. Genetic variants in components of the NALCN-UNC80-UNC79 ion channel complex cause a broad clinical phenotype (NALCN channelopathies).

Authors: Nuria C Bramswig; Aida M Bertoli-Avella; Beate Albrecht; Aida I Al Aqeel; Amal Alhashem; Nouriya Al-Sannaa; Maissa Bah; Katharina Bröhl; Christel Depienne; Nathalie Dorison; Diane Doummar; Nadja Ehmke; Hasnaa M Elbendary; Svetlana Gorokhova; Delphine Héron; Denise Horn; Kiely James; Boris Keren; Alma Kuechler; Samira Ismail; Mahmoud Y Issa; Isabelle Marey; Michèle Mayer; Jennifer McEvoy-Venneri; Andre Megarbane; Cyril Mignot; Sarar Mohamed; Caroline Nava; Nicole Philip; Cecile Ravix; Arndt Rolfs; Abdelrahim Abdrabou Sadek; Lara Segebrecht; Valentina Stanley; Camille Trautman; Stephanie Valence; Laurent Villard; Thomas Wieland; Hartmut Engels; Tim M Strom; Maha S Zaki; Joseph G Gleeson; Hermann-Josef Lüdecke; Peter Bauer; Dagmar Wieczorek
Journal: Hum Genet Date: 2018-08-23 Impact factor: 4.132

8. Periodic breathing in patients with NALCN mutations.

Authors: Danielle K Bourque; David A Dyment; Ian MacLusky; Kristin D Kernohan; Hugh J McMillan
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9. Enhanced excitability of cortical neurons in low-divalent solutions is primarily mediated by altered voltage-dependence of voltage-gated sodium channels.

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10. Recessive Inactivating Mutations in TBCK, Encoding a Rab GTPase-Activating Protein, Cause Severe Infantile Syndromic Encephalopathy.

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Journal: Am J Hum Genet Date: 2016-03-31 Impact factor: 11.043

Review 1. Neurological channelopathies: new insights into disease mechanisms and ion channel function.

Review 6. Hereditary channelopathies in neurology.

Review 4. Na+ leak-current channel (NALCN) at the junction of motor and neuropsychiatric symptoms in Parkinson's disease.

Review 4. Na⁺ leak-current channel (NALCN) at the junction of motor and neuropsychiatric symptoms in Parkinson's disease.