Optimized inducible shRNA and CRISPR/Cas9 platforms for in vitro studies of human development using hPSCs

Bertero, Alessandro; Pawlowski, Matthias; Ortmann, Daniel; Snijders, Kirsten; Yiangou, Loukia; Cardoso de Brito, Miguel; Brown, Stephanie; Bernard, William G.; Cooper, James D.; Giacomelli, Elisa; Gambardella, Laure; Hannan, Nicholas R.F.; Iyer, Dharini; Sampaziotis, Fotios; Serrano, Felipe; Zonneveld, Mari�lle C.F.; Sinha, Sanjay; Kotter, Mark; Vallier, Ludovic

doi:10.1242/dev.138081

Optimized inducible shRNA and CRISPR/Cas9 platforms for in vitro studies of human development using hPSCs

Bertero, Alessandro; Pawlowski, Matthias; Ortmann, Daniel; Snijders, Kirsten; Yiangou, Loukia; Cardoso de Brito, Miguel; Brown, Stephanie; Bernard, William G.; Cooper, James D.; Giacomelli, Elisa; Gambardella, Laure; Hannan, Nicholas R.F.; Iyer, Dharini; Sampaziotis, Fotios; Serrano, Felipe; Zonneveld, Mari�lle C.F.; Sinha, Sanjay; Kotter, Mark; Vallier, Ludovic

Authors

Alessandro Bertero

Matthias Pawlowski

Daniel Ortmann

Kirsten Snijders

Loukia Yiangou

Miguel Cardoso de Brito

Stephanie Brown

William G. Bernard

James D. Cooper

Elisa Giacomelli

Laure Gambardella

NICK HANNAN NICK.HANNAN@NOTTINGHAM.AC.UK
Associate Professor

Dharini Iyer

Fotios Sampaziotis

Felipe Serrano

Mari�lle C.F. Zonneveld

Sanjay Sinha

Mark Kotter

Ludovic Vallier

Abstract

© 2016. Inducible loss of gene function experiments are necessary to uncover mechanisms underlying development, physiology and disease. However, current methods are complex, lack robustness and do not work in multiple cell types. Here we address these limitations by developing single-step optimized inducible gene knockdown or knockout (sOPTiKD or sOPTiKO) platforms. These are based on genetic engineering of human genomic safe harbors combined with an improved tetracycline-inducible system and CRISPR/Cas9 technology. We exemplify the efficacy of these methods in human pluripotent stem cells (hPSCs), and show that generation of sOPTiKD/KO hPSCs is simple, rapid and allows tightly controlled individual or multiplexed gene knockdown or knockout in hPSCs and in a wide variety of differentiated cells. Finally, we illustrate the general applicability of this approach by investigating the function of transcription factors (OCT4 and T), cell cycle regulators (cyclin D family members) and epigenetic modifiers (DPY30). Overall, sOPTiKD and sOPTiKO provide a unique opportunity for functional analyses in multiple cell types relevant for the study of human development.

Citation

Bertero, A., Pawlowski, M., Ortmann, D., Snijders, K., Yiangou, L., Cardoso de Brito, M., …Vallier, L. (2016). Optimized inducible shRNA and CRISPR/Cas9 platforms for in vitro studies of human development using hPSCs. Development, 143(23), 4405-4418. https://doi.org/10.1242/dev.138081

Journal Article Type	Article
Acceptance Date	Oct 7, 2016
Online Publication Date	Nov 29, 2016
Publication Date	Dec 1, 2016
Deposit Date	May 23, 2017
Publicly Available Date	May 23, 2017
Journal	Development
Print ISSN	0950-1991
Electronic ISSN	1477-9129
Publisher	Company of Biologists
Peer Reviewed	Peer Reviewed
Volume	143
Issue	23
Pages	4405-4418
DOI	https://doi.org/10.1242/dev.138081
Keywords	Human pluripotent stem cells, shRNA, CRISPR/Cas9, OCT4, POU5F1, T, brachyury, DPY30
Public URL	https://nottingham-repository.worktribe.com/output/825170
Publisher URL	http://dev.biologists.org/content/143/23/4405