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Biallelic PAX5 mutations cause hypogammaglobulinemia, sensorimotor deficits, and autism spectrum disorder

Authors :
Kaiser, Fabian M P
Gruenbacher, Sarah
Oyaga, Maria Roa
Nio, Enzo
Jaritz, Markus
Sun, Qiong
van der Zwaag, Wietske
Kreidl, Emanuel
Zopf, Lydia M
Dalm, Virgil A S H
Pel, Johan
Gaiser, Carolin
van der Vliet, Rick
Wahl, Lucas
Rietman, André
Hill, Louisa
Leca, Ines
Driessen, Gertjan
Laffeber, Charlie
Brooks, Alice
Katsikis, Peter D
Lebbink, Joyce H G
Tachibana, Kikuë
van der Burg, Mirjam
De Zeeuw, Chris I
Badura, Aleksandra
Busslinger, Meinrad
Kaiser, Fabian M P
Gruenbacher, Sarah
Oyaga, Maria Roa
Nio, Enzo
Jaritz, Markus
Sun, Qiong
van der Zwaag, Wietske
Kreidl, Emanuel
Zopf, Lydia M
Dalm, Virgil A S H
Pel, Johan
Gaiser, Carolin
van der Vliet, Rick
Wahl, Lucas
Rietman, André
Hill, Louisa
Leca, Ines
Driessen, Gertjan
Laffeber, Charlie
Brooks, Alice
Katsikis, Peter D
Lebbink, Joyce H G
Tachibana, Kikuë
van der Burg, Mirjam
De Zeeuw, Chris I
Badura, Aleksandra
Busslinger, Meinrad
Source :
Journal of Experimental Medicine vol.219 (2022) date: 2022-09-05 nr.9 [ISSN 0022-1007]
Publication Year :
2022

Abstract

The genetic causes of primary antibody deficiencies and autism spectrum disorder (ASD) are largely unknown. Here, we report a patient with hypogammaglobulinemia and ASD who carries biallelic mutations in the transcription factor PAX5. A patient-specific Pax5 mutant mouse revealed an early B cell developmental block and impaired immune responses as the cause of hypogammaglobulinemia. Pax5 mutant mice displayed behavioral deficits in all ASD domains. The patient and the mouse model showed aberrant cerebellar foliation and severely impaired sensorimotor learning. PAX5 deficiency also caused profound hypoplasia of the substantia nigra and ventral tegmental area due to loss of GABAergic neurons, thus affecting two midbrain hubs, controlling motor function and reward processing, respectively. Heterozygous Pax5 mutant mice exhibited similar anatomic and behavioral abnormalities. Lineage tracing identified Pax5 as a crucial regulator of cerebellar morphogenesis and midbrain GABAergic neurogenesis. These findings reveal new roles of Pax5 in brain development and unravel the underlying mechanism of a novel immunological and neurodevelopmental syndrome.

Details

Database :
OAIster
Journal :
Journal of Experimental Medicine vol.219 (2022) date: 2022-09-05 nr.9 [ISSN 0022-1007]
Notes :
DOI: 10.1084/jem.20220498, Journal of Experimental Medicine vol.219 (2022) date: 2022-09-05 nr.9 [ISSN 0022-1007], English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1346646765
Document Type :
Electronic Resource