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. 2017 Sep;82(3):466-478.
doi: 10.1002/ana.25032.

GABBR2 mutations determine phenotype in rett syndrome and epileptic encephalopathy

Yongjin Yoo  1 Jane Jung  2 Yoo-Na Lee  3 Youngha Lee  1 Hyosuk Cho  1 Eunjung Na  2 JeaYeok Hong  2 Eunjin Kim  2 Jin Sook Lee  4 Je Sang Lee  5 Chansik Hong  6 Sang-Yoon Park  7 Jinhong Wie  1   8 Kathryn Miller  9 Natasha Shur  9 Cheryl Clow  9 Roseànne S Ebel  10 Suzanne D DeBrosse  10 Lindsay B Henderson  11 Rebecca Willaert  11 Christopher Castaldi  12 Irina Tikhonova  12 Kaya Bilgüvar  12   13 Shrikant Mane  12   13 Ki Joong Kim  14 Yong Seung Hwang  14 Seok-Geun Lee  7 Insuk So  1   8 Byung Chan Lim  14 Hee-Jung Choi  15 Jae Young Seong  3 Yong Beom Shin  5 Hosung Jung  2 Jong-Hee Chae  14 Murim Choi  1   14
Affiliations

GABBR2 mutations determine phenotype in rett syndrome and epileptic encephalopathy

Yongjin Yoo et al. Ann Neurol. 2017 Sep.

Abstract

Objective: Rett syndrome (RTT) and epileptic encephalopathy (EE) are devastating neurodevelopmental disorders with distinct diagnostic criteria. However, highly heterogeneous and overlapping clinical features often allocate patients into the boundary of the two conditions, complicating accurate diagnosis and appropriate medical interventions. Therefore, we investigated the specific molecular mechanism that allows an understanding of the pathogenesis and relationship of these two conditions.

Methods: We screened novel genetic factors from 34 RTT-like patients without MECP2 mutations, which account for ∼90% of RTT cases, by whole-exome sequencing. The biological function of the discovered variants was assessed in cell culture and Xenopus tropicalis models.

Results: We identified a recurring de novo variant in GABAB receptor R2 (GABBR2) that reduces the receptor function, whereas different GABBR2 variants in EE patients possess a more profound effect in reducing receptor activity and are more responsive to agonist rescue in an animal model.

Interpretation: GABBR2 is a genetic factor that determines RTT- or EE-like phenotype expression depending on the variant positions. GABBR2-mediated γ-aminobutyric acid signaling is a crucial factor in determining the severity and nature of neurodevelopmental phenotypes. Ann Neurol 2017;82:466-478.

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