Cell-type specific defects in PTEN-mutant cortical organoids converge on abnormal circuit activity

Martina Pigoni; Ana Uzquiano; Bruna Paulsen; Amanda J. Kedaigle; Sung Min Yang; Panagiotis Symvoulidis; Xian Adiconis; Silvia Velasco; Rafaela Sartore; Kwanho Kim; Ashley Tucewicz; Sarah Yoshimi Tropp; Kalliopi Tsafou; Xin Jin; Lindy Barrett; Fei Chen; Edward S. Boyden; Aviv Regev; Joshua Z. Levin; Paola Arlotta

doi:10.1093/hmg/ddad107

Cell-type specific defects in PTEN-mutant cortical organoids converge on abnormal circuit activity

Martina Pigoni
, Ana Uzquiano
, Bruna Paulsen
, Amanda J. Kedaigle
, Sung Min Yang
, Panagiotis Symvoulidis
, Xian Adiconis
, Silvia Velasco
, Rafaela Sartore
, Kwanho Kim
, Ashley Tucewicz
, Sarah Yoshimi Tropp
, Kalliopi Tsafou
, Xin Jin
, Lindy Barrett
, Fei Chen
, Edward S. Boyden
, Aviv Regev
, Joshua Z. Levin
, Paola Arlotta^*

^*此作品的通讯作者

Harvard University
Broad Institute
Massachusetts Institute of Technology
Harvard Medical School
Howard Hughes Medical Institute

科研成果: 期刊稿件 › 文章 › 同行评审

19 引用（Scopus）

摘要

De novo heterozygous loss-of-function mutations in phosphatase and tensin homolog (PTEN) are strongly associated with autism spectrum disorders; however, it is unclear how heterozygous mutations in this gene affect different cell types during human brain development and how these effects vary across individuals. Here, we used human cortical organoids from different donors to identify cell-type specific developmental events that are affected by heterozygous mutations in PTEN. We profiled individual organoids by single-cell RNA-seq, proteomics and spatial transcriptomics and revealed abnormalities in developmental timing in human outer radial glia progenitors and deep-layer cortical projection neurons, which varied with the donor genetic background. Calcium imaging in intact organoids showed that both accelerated and delayed neuronal development phenotypes resulted in similar abnormal activity of local circuits, irrespective of genetic background. The work reveals donor-dependent, cell-type specific developmental phenotypes of PTEN heterozygosity that later converge on disrupted neuronal activity.

源语言	英语
页（从-至）	2773-2786
页数	14
期刊	Human Molecular Genetics
卷	32
期	18
DOI	https://doi.org/10.1093/hmg/ddad107
出版状态	已出版 - 15 9月 2023
已对外发布	是

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Pigoni, M., Uzquiano, A., Paulsen, B., Kedaigle, A. J., Yang, S. M., Symvoulidis, P., Adiconis, X., Velasco, S., Sartore, R., Kim, K., Tucewicz, A., Tropp, S. Y., Tsafou, K., Jin, X., Barrett, L., Chen, F., Boyden, E. S., Regev, A., Levin, J. Z., & Arlotta, P. (2023). Cell-type specific defects in PTEN-mutant cortical organoids converge on abnormal circuit activity. Human Molecular Genetics, 32(18), 2773-2786. https://doi.org/10.1093/hmg/ddad107

@article{0d1217ca71ca47d48e6625fa29e7abc0,

title = "Cell-type specific defects in PTEN-mutant cortical organoids converge on abnormal circuit activity",

abstract = "De novo heterozygous loss-of-function mutations in phosphatase and tensin homolog (PTEN) are strongly associated with autism spectrum disorders; however, it is unclear how heterozygous mutations in this gene affect different cell types during human brain development and how these effects vary across individuals. Here, we used human cortical organoids from different donors to identify cell-type specific developmental events that are affected by heterozygous mutations in PTEN. We profiled individual organoids by single-cell RNA-seq, proteomics and spatial transcriptomics and revealed abnormalities in developmental timing in human outer radial glia progenitors and deep-layer cortical projection neurons, which varied with the donor genetic background. Calcium imaging in intact organoids showed that both accelerated and delayed neuronal development phenotypes resulted in similar abnormal activity of local circuits, irrespective of genetic background. The work reveals donor-dependent, cell-type specific developmental phenotypes of PTEN heterozygosity that later converge on disrupted neuronal activity.",

author = "Martina Pigoni and Ana Uzquiano and Bruna Paulsen and Kedaigle, \{Amanda J.\} and Yang, \{Sung Min\} and Panagiotis Symvoulidis and Xian Adiconis and Silvia Velasco and Rafaela Sartore and Kwanho Kim and Ashley Tucewicz and Tropp, \{Sarah Yoshimi\} and Kalliopi Tsafou and Xin Jin and Lindy Barrett and Fei Chen and Boyden, \{Edward S.\} and Aviv Regev and Levin, \{Joshua Z.\} and Paola Arlotta",

year = "2023",

month = sep,

day = "15",

doi = "10.1093/hmg/ddad107",

language = "英语",

volume = "32",

pages = "2773--2786",

journal = "Human Molecular Genetics",

issn = "0964-6906",

publisher = "Oxford University Press",

number = "18",

}

Pigoni, M, Uzquiano, A, Paulsen, B, Kedaigle, AJ, Yang, SM, Symvoulidis, P, Adiconis, X, Velasco, S, Sartore, R, Kim, K, Tucewicz, A, Tropp, SY, Tsafou, K, Jin, X, Barrett, L, Chen, F, Boyden, ES, Regev, A, Levin, JZ & Arlotta, P 2023, 'Cell-type specific defects in PTEN-mutant cortical organoids converge on abnormal circuit activity', Human Molecular Genetics, 卷 32, 号码 18, 页码 2773-2786. https://doi.org/10.1093/hmg/ddad107

TY - JOUR

T1 - Cell-type specific defects in PTEN-mutant cortical organoids converge on abnormal circuit activity

AU - Pigoni, Martina

AU - Uzquiano, Ana

AU - Paulsen, Bruna

AU - Kedaigle, Amanda J.

AU - Yang, Sung Min

AU - Symvoulidis, Panagiotis

AU - Adiconis, Xian

AU - Velasco, Silvia

AU - Sartore, Rafaela

AU - Kim, Kwanho

AU - Tucewicz, Ashley

AU - Tropp, Sarah Yoshimi

AU - Tsafou, Kalliopi

AU - Jin, Xin

AU - Barrett, Lindy

AU - Chen, Fei

AU - Boyden, Edward S.

AU - Regev, Aviv

AU - Levin, Joshua Z.

AU - Arlotta, Paola

PY - 2023/9/15

Y1 - 2023/9/15

N2 - De novo heterozygous loss-of-function mutations in phosphatase and tensin homolog (PTEN) are strongly associated with autism spectrum disorders; however, it is unclear how heterozygous mutations in this gene affect different cell types during human brain development and how these effects vary across individuals. Here, we used human cortical organoids from different donors to identify cell-type specific developmental events that are affected by heterozygous mutations in PTEN. We profiled individual organoids by single-cell RNA-seq, proteomics and spatial transcriptomics and revealed abnormalities in developmental timing in human outer radial glia progenitors and deep-layer cortical projection neurons, which varied with the donor genetic background. Calcium imaging in intact organoids showed that both accelerated and delayed neuronal development phenotypes resulted in similar abnormal activity of local circuits, irrespective of genetic background. The work reveals donor-dependent, cell-type specific developmental phenotypes of PTEN heterozygosity that later converge on disrupted neuronal activity.

AB - De novo heterozygous loss-of-function mutations in phosphatase and tensin homolog (PTEN) are strongly associated with autism spectrum disorders; however, it is unclear how heterozygous mutations in this gene affect different cell types during human brain development and how these effects vary across individuals. Here, we used human cortical organoids from different donors to identify cell-type specific developmental events that are affected by heterozygous mutations in PTEN. We profiled individual organoids by single-cell RNA-seq, proteomics and spatial transcriptomics and revealed abnormalities in developmental timing in human outer radial glia progenitors and deep-layer cortical projection neurons, which varied with the donor genetic background. Calcium imaging in intact organoids showed that both accelerated and delayed neuronal development phenotypes resulted in similar abnormal activity of local circuits, irrespective of genetic background. The work reveals donor-dependent, cell-type specific developmental phenotypes of PTEN heterozygosity that later converge on disrupted neuronal activity.

UR - https://www.scopus.com/pages/publications/85169847705

U2 - 10.1093/hmg/ddad107

DO - 10.1093/hmg/ddad107

M3 - 文章

C2 - 37384417

AN - SCOPUS:85169847705

SN - 0964-6906

VL - 32

SP - 2773

EP - 2786

JO - Human Molecular Genetics

JF - Human Molecular Genetics

IS - 18

ER -

Cell-type specific defects in PTEN-mutant cortical organoids converge on abnormal circuit activity

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