Author
Listed:
- Hanna Hörnberg
(Biozentrum of the University of Basel)
- Enrique Pérez-Garci
(University of Basel)
- Dietmar Schreiner
(Biozentrum of the University of Basel)
- Laetitia Hatstatt-Burklé
(Biozentrum of the University of Basel)
- Fulvio Magara
(Lausanne University Hospital)
- Stephane Baudouin
(Cardiff University
Stalicla)
- Alex Matter
(Experimental Drug Development Centre)
- Kassoum Nacro
(Experimental Drug Development Centre)
- Eline Pecho-Vrieseling
(University of Basel)
- Peter Scheiffele
(Biozentrum of the University of Basel)
Abstract
A fundamental challenge in developing treatments for autism spectrum disorders is the heterogeneity of the condition. More than one hundred genetic mutations confer high risk for autism, with each individual mutation accounting for only a small fraction of cases1–3. Subsets of risk genes can be grouped into functionally related pathways, most prominently those involving synaptic proteins, translational regulation, and chromatin modifications. To attempt to minimize this genetic complexity, recent therapeutic strategies have focused on the neuropeptides oxytocin and vasopressin4–6, which regulate aspects of social behaviour in mammals7. However, it is unclear whether genetic risk factors predispose individuals to autism as a result of modifications to oxytocinergic signalling. Here we report that an autism-associated mutation in the synaptic adhesion molecule Nlgn3 results in impaired oxytocin signalling in dopaminergic neurons and in altered behavioural responses to social novelty tests in mice. Notably, loss of Nlgn3 is accompanied by a disruption of translation homeostasis in the ventral tegmental area. Treatment of Nlgn3-knockout mice with a new, highly specific, brain-penetrant inhibitor of MAP kinase-interacting kinases resets the translation of mRNA and restores oxytocin signalling and social novelty responses. Thus, this work identifies a convergence between the genetic autism risk factor Nlgn3, regulation of translation, and oxytocinergic signalling. Focusing on such common core plasticity elements might provide a pragmatic approach to overcoming the heterogeneity of autism. Ultimately, this would enable mechanism-based stratification of patient populations to increase the success of therapeutic interventions.
Suggested Citation
Hanna Hörnberg & Enrique Pérez-Garci & Dietmar Schreiner & Laetitia Hatstatt-Burklé & Fulvio Magara & Stephane Baudouin & Alex Matter & Kassoum Nacro & Eline Pecho-Vrieseling & Peter Scheiffele, 2020.
"Rescue of oxytocin response and social behaviour in a mouse model of autism,"
Nature, Nature, vol. 584(7820), pages 252-256, August.
Handle:
RePEc:nat:nature:v:584:y:2020:i:7820:d:10.1038_s41586-020-2563-7
DOI: 10.1038/s41586-020-2563-7
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Cited by:
- You Yu & Bing Zhang & Peifeng Ji & Zhenqiang Zuo & Yongxi Huang & Ning Wang & Chang Liu & Shuang-Jiang Liu & Fangqing Zhao, 2022.
"Changes to gut amino acid transporters and microbiome associated with increased E/I ratio in Chd8+/− mouse model of ASD-like behavior,"
Nature Communications, Nature, vol. 13(1), pages 1-15, December.
- Chen-Lin Chang & Tai-Ling Liu & Ray C. Hsiao & Pinchen Yang & Yi-Lung Chen & Cheng-Fang Yen, 2021.
"Callous–Unemotional Traits among Adolescents with Autism Spectrum Disorder, Attention-Deficit/Hyperactivity Disorder, or Typical Development: Differences between Adolescents’ and Parents’ Views,"
IJERPH, MDPI, vol. 18(8), pages 1-11, April.
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