AAVvector-mediated in vivo reprogramming into pluripotency

Senís, Elena; Mosteiro, Lluc; Wilkening, Stefan; Wiedtke, Ellen; Nowrouzi, Ali; Afzal, Saira; Fronza, Raffaele; Landerer, Henrik; Niopek, Dominik; Schmidt, Manfred; Serrano Marugan , Manuel; Grimm, Dirk

Publication:
AAVvector-mediated in vivo reprogramming into pluripotency

dc.contributor.author	Senís, Elena
dc.contributor.author	Mosteiro, Lluc
dc.contributor.author	Wilkening, Stefan
dc.contributor.author	Wiedtke, Ellen
dc.contributor.author	Nowrouzi, Ali
dc.contributor.author	Afzal, Saira
dc.contributor.author	Fronza, Raffaele
dc.contributor.author	Landerer, Henrik
dc.contributor.author	Niopek, Dominik
dc.contributor.author	Schmidt, Manfred
dc.contributor.author	Serrano Marugan , Manuel
dc.contributor.author	Grimm, Dirk
dc.contributor.funder	Deutsche Forschungsgemeinschaft (Alemania)
dc.contributor.funder	Heidelberg University (Alemania)
dc.contributor.funder	Asociación Española Contra el Cáncer
dc.contributor.funder	Ministerio de Ciencia e Innovación (España)
dc.contributor.funder	Unión Europea. Comisión Europea. European Research Council (ERC)
dc.date.accessioned	2018-10-29T10:28:05Z
dc.date.available	2018-10-29T10:28:05Z
dc.date.issued	2018-07-09
dc.description.abstract	In vivo reprogramming of somatic cells into induced pluripotent stem cells (iPSC) holds vast potential for basic research and regenerative medicine. However, it remains hampered by a need for vectors to express reprogramming factors (Oct-3/4, Klf4, Sox2, c-Myc; OKSM) in selected organs. Here, we report OKSM delivery vectors based on pseudotyped Adeno-associated virus (AAV). Using the AAV-DJ capsid, we could robustly reprogram mouse embryonic fibroblasts with low vector doses. Swapping to AAV8 permitted to efficiently reprogram somatic cells in adult mice by intravenous vector delivery, evidenced by hepatic or extra-hepatic teratomas and iPSC in the blood. Notably, we accomplished full in vivo reprogramming without c-Myc. Most iPSC generated in vitro or in vivo showed transcriptionally silent, intronic or intergenic vector integration, likely reflecting the increased host genome accessibility during reprogramming. Our approach crucially advances in vivo reprogramming technology, and concurrently facilitates investigations into the mechanisms and consequences of AAV persistence.	es_ES
dc.description.peerreviewed	Sí
dc.description.sponsorship	We kindly acknowledge support of this work by the German Research Foundation (DFG, EXC81 (Cluster of Excellence CellNetworks) to E.S., E.W. and D.G.; SFB1129 (Collaborative Research Center 1129, TP2) to D.G. and H.L.; and TRR179 (Transregional Collaborative Research Center 179, TP18) to D.G.). E.S. and D.G. acknowledge further support by the Helmholtz Initiative for Synthetic Biology. E.S. is grateful to the Heidelberg University Graduate Academy for a PhD completion grant to the Heidelberg Biosciences International Graduate School (HBIGS) at Heidelberg University for support and to the Spanish Association Against Cancer (AECC) for a postdoctoral fellowship. L.M. was a recipient of a FPU contract from the Spanish Ministry of Education (MECD). M.A. is grateful for support from the Ministry of Economy (MINECO, SAF2015-69413- R). Work in the laboratory of M.S. (CNIO) was funded by the CNIO, and by grants from the MECD cofunded by the European Regional Development Fund (SAF project) and from the European Research Council (ERC Advanced Grant). M.S. (NCT) acknowledges support by grants NCT3.0_2015.13 ImmunOmics and NCT3.0_2015.2 SPL/RP. E.S. and D.G. thank A. Grewenig for providing MEF, A. Schambach for providing the lentiviral OKSM expression plasmid and viral stocks derived thereof, K. Börner and D. Gadella for fluorophore-containing plasmids, and E. Kienle for providing the AAV tyrosine mutants. We moreover thank various members of the Abad, Schmidt, Serrano and Grimm groups for critical reading of the manuscript.	es_ES
dc.format.number	1	es_ES
dc.format.page	2651	es_ES
dc.format.volume	9	es_ES
dc.identifier.citation	Nat Commun. 2018; 9(1): 2651.	es_ES
dc.identifier.doi	10.1038/s41467-018-05059-x	es_ES
dc.identifier.e-issn	2041-1723	es_ES
dc.identifier.issn	2041-1723	es_ES
dc.identifier.journal	Nature communications	es_ES
dc.identifier.pubmedID	29985406	es_ES
dc.identifier.uri	http://hdl.handle.net/20.500.12105/6549
dc.language.iso	eng	es_ES
dc.publisher	Nature Publishing Group
dc.relation.projectID	info:eu-repo/grantAgreement/ES/SAF2015-69413-R	es_ES
dc.relation.projectID	info:eu-repo/grantAgreement/EC/FP7/669622	es_ES
dc.relation.publisherversion	https://doi.org/: 10.1038/s41467-018-05059-X	es_ES
dc.repisalud.institucion	CNIO	es_ES
dc.repisalud.orgCNIO	CNIO::Grupos de investigación	es_ES
dc.repisalud.orgCNIO	CNIO::Grupos de investigación::Grupo de Supresión Tumoral	es_ES
dc.rights.accessRights	open access	es_ES
dc.rights.license	Atribución 4.0 Internacional	*
dc.rights.uri	http://creativecommons.org/licenses/by/4.0/	*
dc.subject	STEM-CELLS	es_ES
dc.subject	GENE-TRANSFER	es_ES
dc.subject	MOUSE-LIVER	es_ES
dc.subject	CLINICAL TRANSLATION	es_ES
dc.subject	EFFICIENT TRANSDUCTION	es_ES
dc.subject	HUMAN FIBROBLASTS	es_ES
dc.subject	AAV INTEGRATION	es_ES
dc.subject	SKELETAL-MUSCLE	es_ES
dc.subject	VECTORS	es_ES
dc.subject	EXPRESSION	es_ES
dc.title	AAVvector-mediated in vivo reprogramming into pluripotency	es_ES
dc.type	journal article	es_ES
dc.type.hasVersion	VoR	es_ES
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