Atypical behaviour and connectivity in SHANK3-mutant macaques

Yang Zhou; Jitendra Sharma; Qiong Ke; Rogier Landman; Jingli Yuan; Hong Chen; David S. Hayden; John W. Fisher; Minqing Jiang; William Menegas; Tomomi Aida; Ting Yan; Ying Zou; Dongdong Xu; Shivangi Parmar; Julia B. Hyman; Adrian Fanucci-Kiss; Olivia Meisner; Dongqing Wang; Yan Huang; Yaqing Li; Yanyang Bai; Wenjing Ji; Xinqiang Lai; Weiqiang Li; Lihua Huang; Zhonghua Lu; Liping Wang; Sheeba A. Anteraper; Mriganka Sur; Huihui Zhou; Andy Peng Xiang; Robert Desimone; Guoping Feng; Shihua Yang

doi:10.1038/s41586-019-1278-0

Atypical behaviour and connectivity in SHANK3-mutant macaques

Yang Zhou, Jitendra Sharma, Qiong Ke, Rogier Landman, Jingli Yuan, Hong Chen, David S. Hayden, John W. Fisher, Minqing Jiang, William Menegas, Tomomi Aida, Ting Yan, Ying Zou, Dongdong Xu, Shivangi Parmar, Julia B. Hyman, Adrian Fanucci-Kiss, Olivia Meisner, Dongqing Wang, Yan HuangYaqing Li, Yanyang Bai, Wenjing Ji, Xinqiang Lai, Weiqiang Li, Lihua Huang, Zhonghua Lu, Liping Wang, Sheeba A. Anteraper, Mriganka Sur, Huihui Zhou, Andy Peng Xiang, Robert Desimone, Guoping Feng, Shihua Yang

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Abstract

Mutation or disruption of the SH3 and ankyrin repeat domains 3 (SHANK3) gene represents a highly penetrant, monogenic risk factor for autism spectrum disorder, and is a cause of Phelan–McDermid syndrome. Recent advances in gene editing have enabled the creation of genetically engineered non-human-primate models, which might better approximate the behavioural and neural phenotypes of autism spectrum disorder than do rodent models, and may lead to more effective treatments. Here we report CRISPR–Cas9-mediated generation of germline-transmissible mutations of SHANK3 in cynomolgus macaques (Macaca fascicularis) and their F1 offspring. Genotyping of somatic cells as well as brain biopsies confirmed mutations in the SHANK3 gene and reduced levels of SHANK3 protein in these macaques. Analysis of data from functional magnetic resonance imaging revealed altered local and global connectivity patterns that were indicative of circuit abnormalities. The founder mutants exhibited sleep disturbances, motor deficits and increased repetitive behaviours, as well as social and learning impairments. Together, these results parallel some aspects of the dysfunctions in the SHANK3 gene and circuits, as well as the behavioural phenotypes, that characterize autism spectrum disorder and Phelan–McDermid syndrome.

Original language	English (US)
Pages (from-to)	326-331
Number of pages	6
Journal	Nature
Volume	570
Issue number	7761
DOIs	https://doi.org/10.1038/s41586-019-1278-0
State	Published - Jun 20 2019
Externally published	Yes

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Zhou, Y., Sharma, J., Ke, Q., Landman, R., Yuan, J., Chen, H., Hayden, D. S., Fisher, J. W., Jiang, M., Menegas, W., Aida, T., Yan, T., Zou, Y., Xu, D., Parmar, S., Hyman, J. B., Fanucci-Kiss, A., Meisner, O., Wang, D., ... Yang, S. (2019). Atypical behaviour and connectivity in SHANK3-mutant macaques. Nature, 570(7761), 326-331. https://doi.org/10.1038/s41586-019-1278-0

Zhou, Y, Sharma, J, Ke, Q, Landman, R, Yuan, J, Chen, H, Hayden, DS, Fisher, JW, Jiang, M, Menegas, W, Aida, T, Yan, T, Zou, Y, Xu, D, Parmar, S, Hyman, JB, Fanucci-Kiss, A, Meisner, O, Wang, D, Huang, Y, Li, Y, Bai, Y, Ji, W, Lai, X, Li, W, Huang, L, Lu, Z, Wang, L, Anteraper, SA, Sur, M, Zhou, H, Xiang, AP, Desimone, R, Feng, G & Yang, S 2019, 'Atypical behaviour and connectivity in SHANK3-mutant macaques', Nature, vol. 570, no. 7761, pp. 326-331. https://doi.org/10.1038/s41586-019-1278-0

@article{b0001211aa6b40c1a6b5e302d15e4e80,

title = "Atypical behaviour and connectivity in SHANK3-mutant macaques",

abstract = "Mutation or disruption of the SH3 and ankyrin repeat domains 3 (SHANK3) gene represents a highly penetrant, monogenic risk factor for autism spectrum disorder, and is a cause of Phelan–McDermid syndrome. Recent advances in gene editing have enabled the creation of genetically engineered non-human-primate models, which might better approximate the behavioural and neural phenotypes of autism spectrum disorder than do rodent models, and may lead to more effective treatments. Here we report CRISPR–Cas9-mediated generation of germline-transmissible mutations of SHANK3 in cynomolgus macaques (Macaca fascicularis) and their F1 offspring. Genotyping of somatic cells as well as brain biopsies confirmed mutations in the SHANK3 gene and reduced levels of SHANK3 protein in these macaques. Analysis of data from functional magnetic resonance imaging revealed altered local and global connectivity patterns that were indicative of circuit abnormalities. The founder mutants exhibited sleep disturbances, motor deficits and increased repetitive behaviours, as well as social and learning impairments. Together, these results parallel some aspects of the dysfunctions in the SHANK3 gene and circuits, as well as the behavioural phenotypes, that characterize autism spectrum disorder and Phelan–McDermid syndrome.",

author = "Yang Zhou and Jitendra Sharma and Qiong Ke and Rogier Landman and Jingli Yuan and Hong Chen and Hayden, {David S.} and Fisher, {John W.} and Minqing Jiang and William Menegas and Tomomi Aida and Ting Yan and Ying Zou and Dongdong Xu and Shivangi Parmar and Hyman, {Julia B.} and Adrian Fanucci-Kiss and Olivia Meisner and Dongqing Wang and Yan Huang and Yaqing Li and Yanyang Bai and Wenjing Ji and Xinqiang Lai and Weiqiang Li and Lihua Huang and Zhonghua Lu and Liping Wang and Anteraper, {Sheeba A.} and Mriganka Sur and Huihui Zhou and Xiang, {Andy Peng} and Robert Desimone and Guoping Feng and Shihua Yang",

note = "Publisher Copyright: {\textcopyright} 2019, The Author(s), under exclusive licence to Springer Nature Limited.",

year = "2019",

month = jun,

day = "20",

doi = "10.1038/s41586-019-1278-0",

language = "English (US)",

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pages = "326--331",

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T1 - Atypical behaviour and connectivity in SHANK3-mutant macaques

AU - Zhou, Yang

AU - Sharma, Jitendra

AU - Ke, Qiong

AU - Landman, Rogier

AU - Yuan, Jingli

AU - Chen, Hong

AU - Hayden, David S.

AU - Fisher, John W.

AU - Jiang, Minqing

AU - Menegas, William

AU - Aida, Tomomi

AU - Yan, Ting

AU - Zou, Ying

AU - Xu, Dongdong

AU - Parmar, Shivangi

AU - Hyman, Julia B.

AU - Fanucci-Kiss, Adrian

AU - Meisner, Olivia

AU - Wang, Dongqing

AU - Huang, Yan

AU - Li, Yaqing

AU - Bai, Yanyang

AU - Ji, Wenjing

AU - Lai, Xinqiang

AU - Li, Weiqiang

AU - Huang, Lihua

AU - Lu, Zhonghua

AU - Wang, Liping

AU - Anteraper, Sheeba A.

AU - Sur, Mriganka

AU - Zhou, Huihui

AU - Xiang, Andy Peng

AU - Desimone, Robert

AU - Feng, Guoping

AU - Yang, Shihua

PY - 2019/6/20

Y1 - 2019/6/20

N2 - Mutation or disruption of the SH3 and ankyrin repeat domains 3 (SHANK3) gene represents a highly penetrant, monogenic risk factor for autism spectrum disorder, and is a cause of Phelan–McDermid syndrome. Recent advances in gene editing have enabled the creation of genetically engineered non-human-primate models, which might better approximate the behavioural and neural phenotypes of autism spectrum disorder than do rodent models, and may lead to more effective treatments. Here we report CRISPR–Cas9-mediated generation of germline-transmissible mutations of SHANK3 in cynomolgus macaques (Macaca fascicularis) and their F1 offspring. Genotyping of somatic cells as well as brain biopsies confirmed mutations in the SHANK3 gene and reduced levels of SHANK3 protein in these macaques. Analysis of data from functional magnetic resonance imaging revealed altered local and global connectivity patterns that were indicative of circuit abnormalities. The founder mutants exhibited sleep disturbances, motor deficits and increased repetitive behaviours, as well as social and learning impairments. Together, these results parallel some aspects of the dysfunctions in the SHANK3 gene and circuits, as well as the behavioural phenotypes, that characterize autism spectrum disorder and Phelan–McDermid syndrome.

AB - Mutation or disruption of the SH3 and ankyrin repeat domains 3 (SHANK3) gene represents a highly penetrant, monogenic risk factor for autism spectrum disorder, and is a cause of Phelan–McDermid syndrome. Recent advances in gene editing have enabled the creation of genetically engineered non-human-primate models, which might better approximate the behavioural and neural phenotypes of autism spectrum disorder than do rodent models, and may lead to more effective treatments. Here we report CRISPR–Cas9-mediated generation of germline-transmissible mutations of SHANK3 in cynomolgus macaques (Macaca fascicularis) and their F1 offspring. Genotyping of somatic cells as well as brain biopsies confirmed mutations in the SHANK3 gene and reduced levels of SHANK3 protein in these macaques. Analysis of data from functional magnetic resonance imaging revealed altered local and global connectivity patterns that were indicative of circuit abnormalities. The founder mutants exhibited sleep disturbances, motor deficits and increased repetitive behaviours, as well as social and learning impairments. Together, these results parallel some aspects of the dysfunctions in the SHANK3 gene and circuits, as well as the behavioural phenotypes, that characterize autism spectrum disorder and Phelan–McDermid syndrome.

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U2 - 10.1038/s41586-019-1278-0

DO - 10.1038/s41586-019-1278-0

M3 - Article

C2 - 31189958

AN - SCOPUS:85067401313

SN - 0028-0836

VL - 570

SP - 326

EP - 331

JO - Nature

JF - Nature

IS - 7761

ER -

Atypical behaviour and connectivity in SHANK3-mutant macaques

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