Structurally-discovered KLF4 variants accelerate and stabilize reprogramming to pluripotency

Non-genetically modified somatic cells can only be inefficiently and stochastically reprogrammed to pluripotency by exogenous expression of reprogramming factors. Low competence of natural reprogramming factors may prevent the majority of cells to successfully and synchronously reprogram. Here we sc...

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Autores principales: Borisova, Evgeniia, Nishimura, Ken, An, Yuri, Takami, Miho, Li, Jingyue, Song, Dan, Matsuo-Takasaki, Mami, Luijkx, Dorian, Aizawa, Shiho, Kuno, Akihiro, Sugihara, Eiji, Sato, Taka-aki, Yumoto, Fumiaki, Terada, Tohru, Hisatake, Koji, Hayashi, Yohei
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8786646/
https://www.ncbi.nlm.nih.gov/pubmed/35106457
http://dx.doi.org/10.1016/j.isci.2021.103525
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author Borisova, Evgeniia
Nishimura, Ken
An, Yuri
Takami, Miho
Li, Jingyue
Song, Dan
Matsuo-Takasaki, Mami
Luijkx, Dorian
Aizawa, Shiho
Kuno, Akihiro
Sugihara, Eiji
Sato, Taka-aki
Yumoto, Fumiaki
Terada, Tohru
Hisatake, Koji
Hayashi, Yohei
author_facet Borisova, Evgeniia
Nishimura, Ken
An, Yuri
Takami, Miho
Li, Jingyue
Song, Dan
Matsuo-Takasaki, Mami
Luijkx, Dorian
Aizawa, Shiho
Kuno, Akihiro
Sugihara, Eiji
Sato, Taka-aki
Yumoto, Fumiaki
Terada, Tohru
Hisatake, Koji
Hayashi, Yohei
author_sort Borisova, Evgeniia
collection PubMed
description Non-genetically modified somatic cells can only be inefficiently and stochastically reprogrammed to pluripotency by exogenous expression of reprogramming factors. Low competence of natural reprogramming factors may prevent the majority of cells to successfully and synchronously reprogram. Here we screened DNA-interacting amino acid residues in the zinc-finger domain of KLF4 for enhanced reprogramming efficiency using alanine-substitution scanning methods. Identified KLF4 L507A mutant accelerated and stabilized reprogramming to pluripotency in both mouse and human somatic cells. By testing all the variants of L507 position, variants with smaller amino acid residues in the KLF4 L507 position showed higher reprogramming efficiency. L507A bound more to promoters or enhancers of pluripotency genes, such as KLF5, and drove gene expression of these genes during reprogramming. Molecular dynamics simulations predicted that L507A formed additional interactions with DNA. Our study demonstrates how modifications in amino acid residues of DNA-binding domains enable next-generation reprogramming technology with engineered reprogramming factors.
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spelling pubmed-87866462022-01-31 Structurally-discovered KLF4 variants accelerate and stabilize reprogramming to pluripotency Borisova, Evgeniia Nishimura, Ken An, Yuri Takami, Miho Li, Jingyue Song, Dan Matsuo-Takasaki, Mami Luijkx, Dorian Aizawa, Shiho Kuno, Akihiro Sugihara, Eiji Sato, Taka-aki Yumoto, Fumiaki Terada, Tohru Hisatake, Koji Hayashi, Yohei iScience Article Non-genetically modified somatic cells can only be inefficiently and stochastically reprogrammed to pluripotency by exogenous expression of reprogramming factors. Low competence of natural reprogramming factors may prevent the majority of cells to successfully and synchronously reprogram. Here we screened DNA-interacting amino acid residues in the zinc-finger domain of KLF4 for enhanced reprogramming efficiency using alanine-substitution scanning methods. Identified KLF4 L507A mutant accelerated and stabilized reprogramming to pluripotency in both mouse and human somatic cells. By testing all the variants of L507 position, variants with smaller amino acid residues in the KLF4 L507 position showed higher reprogramming efficiency. L507A bound more to promoters or enhancers of pluripotency genes, such as KLF5, and drove gene expression of these genes during reprogramming. Molecular dynamics simulations predicted that L507A formed additional interactions with DNA. Our study demonstrates how modifications in amino acid residues of DNA-binding domains enable next-generation reprogramming technology with engineered reprogramming factors. Elsevier 2021-12-14 /pmc/articles/PMC8786646/ /pubmed/35106457 http://dx.doi.org/10.1016/j.isci.2021.103525 Text en © 2021 The Author(s) https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Article
Borisova, Evgeniia
Nishimura, Ken
An, Yuri
Takami, Miho
Li, Jingyue
Song, Dan
Matsuo-Takasaki, Mami
Luijkx, Dorian
Aizawa, Shiho
Kuno, Akihiro
Sugihara, Eiji
Sato, Taka-aki
Yumoto, Fumiaki
Terada, Tohru
Hisatake, Koji
Hayashi, Yohei
Structurally-discovered KLF4 variants accelerate and stabilize reprogramming to pluripotency
title Structurally-discovered KLF4 variants accelerate and stabilize reprogramming to pluripotency
title_full Structurally-discovered KLF4 variants accelerate and stabilize reprogramming to pluripotency
title_fullStr Structurally-discovered KLF4 variants accelerate and stabilize reprogramming to pluripotency
title_full_unstemmed Structurally-discovered KLF4 variants accelerate and stabilize reprogramming to pluripotency
title_short Structurally-discovered KLF4 variants accelerate and stabilize reprogramming to pluripotency
title_sort structurally-discovered klf4 variants accelerate and stabilize reprogramming to pluripotency
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8786646/
https://www.ncbi.nlm.nih.gov/pubmed/35106457
http://dx.doi.org/10.1016/j.isci.2021.103525
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