A cis-acting structural variation at the ZNF558 locus controls a gene regulatory network in human brain development

Pia A. Johansson; Per Ludvik Brattås; Christopher H. Douse; Ping Hsun Hsieh; Anita Adami; Julien Pontis; Daniela Grassi; Raquel Garza; Edoardo Sozzi; Rodrigo Cataldo; Marie E. Jönsson; Diahann A.M. Atacho; Karolina Pircs; Feride Eren; Yogita Sharma; Jenny Johansson; Alessandro Fiorenzano; Malin Parmar; Malin Fex; Didier Trono; Evan E. Eichler; Johan Jakobsson

doi:10.1016/j.stem.2021.09.008

A cis-acting structural variation at the ZNF558 locus controls a gene regulatory network in human brain development

Pia A. Johansson
, Per Ludvik Brattås
, Christopher H. Douse
, Ping Hsun Hsieh
, Anita Adami
, Julien Pontis
, Daniela Grassi
, Raquel Garza
, Edoardo Sozzi
, Rodrigo Cataldo
, Marie E. Jönsson
, Diahann A.M. Atacho
, Karolina Pircs
, Feride Eren
, Yogita Sharma
, Jenny Johansson
, Alessandro Fiorenzano
, Malin Parmar
, Malin Fex
, Didier Trono

Evan E. Eichler, Johan Jakobsson

Research output: Contribution to journal › Article › peer-review

34 Scopus citations

Abstract

The human forebrain has expanded in size and complexity compared to chimpanzees despite limited changes in protein-coding genes, suggesting that gene expression regulation is an important driver of brain evolution. Here, we identify a KRAB-ZFP transcription factor, ZNF558, that is expressed in human but not chimpanzee forebrain neural progenitor cells. ZNF558 evolved as a suppressor of LINE-1 transposons but has been co-opted to regulate a single target, the mitophagy gene SPATA18. ZNF558 plays a role in mitochondrial homeostasis, and loss-of-function experiments in cerebral organoids suggests that ZNF558 influences developmental timing during early human brain development. Expression of ZNF558 is controlled by the size of a variable number tandem repeat that is longer in chimpanzees compared to humans, and variable in the human population. Thus, this work provides mechanistic insight into how a cis-acting structural variation establishes a regulatory network that affects human brain evolution.

Original language	English (US)
Pages (from-to)	52-69.e8
Journal	Cell Stem Cell
Volume	29
Issue number	1
DOIs	https://doi.org/10.1016/j.stem.2021.09.008
State	Published - Jan 6 2022
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2021 Elsevier Inc.

Keywords

CRISPRi
KRAB-ZNFs
brain development
chimpanzee
evolution
forebrain neural progenitors
human
transposable elements

Publisher link

10.1016/j.stem.2021.09.008

Find It

Find It at U of M Libraries

Cite this

Johansson, P. A., Brattås, P. L., Douse, C. H., Hsieh, P. H., Adami, A., Pontis, J., Grassi, D., Garza, R., Sozzi, E., Cataldo, R., Jönsson, M. E., Atacho, D. A. M., Pircs, K., Eren, F., Sharma, Y., Johansson, J., Fiorenzano, A., Parmar, M., Fex, M., ... Jakobsson, J. (2022). A cis-acting structural variation at the ZNF558 locus controls a gene regulatory network in human brain development. Cell Stem Cell, 29(1), 52-69.e8. https://doi.org/10.1016/j.stem.2021.09.008

Johansson, PA, Brattås, PL, Douse, CH, Hsieh, PH, Adami, A, Pontis, J, Grassi, D, Garza, R, Sozzi, E, Cataldo, R, Jönsson, ME, Atacho, DAM, Pircs, K, Eren, F, Sharma, Y, Johansson, J, Fiorenzano, A, Parmar, M, Fex, M, Trono, D, Eichler, EE & Jakobsson, J 2022, 'A cis-acting structural variation at the ZNF558 locus controls a gene regulatory network in human brain development', Cell Stem Cell, vol. 29, no. 1, pp. 52-69.e8. https://doi.org/10.1016/j.stem.2021.09.008

@article{1639b8bc1b344edea896c405aff9617f,

title = "A cis-acting structural variation at the ZNF558 locus controls a gene regulatory network in human brain development",

abstract = "The human forebrain has expanded in size and complexity compared to chimpanzees despite limited changes in protein-coding genes, suggesting that gene expression regulation is an important driver of brain evolution. Here, we identify a KRAB-ZFP transcription factor, ZNF558, that is expressed in human but not chimpanzee forebrain neural progenitor cells. ZNF558 evolved as a suppressor of LINE-1 transposons but has been co-opted to regulate a single target, the mitophagy gene SPATA18. ZNF558 plays a role in mitochondrial homeostasis, and loss-of-function experiments in cerebral organoids suggests that ZNF558 influences developmental timing during early human brain development. Expression of ZNF558 is controlled by the size of a variable number tandem repeat that is longer in chimpanzees compared to humans, and variable in the human population. Thus, this work provides mechanistic insight into how a cis-acting structural variation establishes a regulatory network that affects human brain evolution.",

keywords = "CRISPRi, KRAB-ZNFs, brain development, chimpanzee, evolution, forebrain neural progenitors, human, transposable elements",

author = "Johansson, \{Pia A.\} and Bratt{\aa}s, \{Per Ludvik\} and Douse, \{Christopher H.\} and Hsieh, \{Ping Hsun\} and Anita Adami and Julien Pontis and Daniela Grassi and Raquel Garza and Edoardo Sozzi and Rodrigo Cataldo and J{\"o}nsson, \{Marie E.\} and Atacho, \{Diahann A.M.\} and Karolina Pircs and Feride Eren and Yogita Sharma and Jenny Johansson and Alessandro Fiorenzano and Malin Parmar and Malin Fex and Didier Trono and Eichler, \{Evan E.\} and Johan Jakobsson",

note = "Publisher Copyright: {\textcopyright} 2021 Elsevier Inc.",

year = "2022",

month = jan,

day = "6",

doi = "10.1016/j.stem.2021.09.008",

language = "English (US)",

volume = "29",

pages = "52--69.e8",

journal = "Cell Stem Cell",

issn = "1934-5909",

publisher = "Cell Press",

number = "1",

}

TY - JOUR

T1 - A cis-acting structural variation at the ZNF558 locus controls a gene regulatory network in human brain development

AU - Johansson, Pia A.

AU - Brattås, Per Ludvik

AU - Douse, Christopher H.

AU - Hsieh, Ping Hsun

AU - Adami, Anita

AU - Pontis, Julien

AU - Grassi, Daniela

AU - Garza, Raquel

AU - Sozzi, Edoardo

AU - Cataldo, Rodrigo

AU - Jönsson, Marie E.

AU - Atacho, Diahann A.M.

AU - Pircs, Karolina

AU - Eren, Feride

AU - Sharma, Yogita

AU - Johansson, Jenny

AU - Fiorenzano, Alessandro

AU - Parmar, Malin

AU - Fex, Malin

AU - Trono, Didier

AU - Eichler, Evan E.

AU - Jakobsson, Johan

PY - 2022/1/6

Y1 - 2022/1/6

N2 - The human forebrain has expanded in size and complexity compared to chimpanzees despite limited changes in protein-coding genes, suggesting that gene expression regulation is an important driver of brain evolution. Here, we identify a KRAB-ZFP transcription factor, ZNF558, that is expressed in human but not chimpanzee forebrain neural progenitor cells. ZNF558 evolved as a suppressor of LINE-1 transposons but has been co-opted to regulate a single target, the mitophagy gene SPATA18. ZNF558 plays a role in mitochondrial homeostasis, and loss-of-function experiments in cerebral organoids suggests that ZNF558 influences developmental timing during early human brain development. Expression of ZNF558 is controlled by the size of a variable number tandem repeat that is longer in chimpanzees compared to humans, and variable in the human population. Thus, this work provides mechanistic insight into how a cis-acting structural variation establishes a regulatory network that affects human brain evolution.

AB - The human forebrain has expanded in size and complexity compared to chimpanzees despite limited changes in protein-coding genes, suggesting that gene expression regulation is an important driver of brain evolution. Here, we identify a KRAB-ZFP transcription factor, ZNF558, that is expressed in human but not chimpanzee forebrain neural progenitor cells. ZNF558 evolved as a suppressor of LINE-1 transposons but has been co-opted to regulate a single target, the mitophagy gene SPATA18. ZNF558 plays a role in mitochondrial homeostasis, and loss-of-function experiments in cerebral organoids suggests that ZNF558 influences developmental timing during early human brain development. Expression of ZNF558 is controlled by the size of a variable number tandem repeat that is longer in chimpanzees compared to humans, and variable in the human population. Thus, this work provides mechanistic insight into how a cis-acting structural variation establishes a regulatory network that affects human brain evolution.

KW - CRISPRi

KW - KRAB-ZNFs

KW - brain development

KW - chimpanzee

KW - evolution

KW - forebrain neural progenitors

KW - human

KW - transposable elements

UR - https://www.scopus.com/pages/publications/85121989721

UR - https://www.scopus.com/pages/publications/85121989721#tab=citedBy

U2 - 10.1016/j.stem.2021.09.008

DO - 10.1016/j.stem.2021.09.008

M3 - Article

C2 - 34624206

AN - SCOPUS:85121989721

SN - 1934-5909

VL - 29

SP - 52-69.e8

JO - Cell Stem Cell

JF - Cell Stem Cell

IS - 1

ER -

A cis-acting structural variation at the ZNF558 locus controls a gene regulatory network in human brain development

Abstract

Bibliographical note

Keywords

Publisher link

Find It

Other files and links

Fingerprint

Cite this