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dc.contributor.authorCuvertino, Sara
dc.contributor.authorLacaud, Georges
dc.contributor.authorKouskoff, Valerie
dc.date.accessioned2016-08-17T09:27:01Z
dc.date.available2016-08-17T09:27:01Z
dc.date.issued2016-07
dc.identifier.citationSOX7-enforced expression promotes the expansion of adult blood progenitors and blocks B-cell development. 2016, 6 (7): Open Biolen
dc.identifier.issn2046-2441
dc.identifier.pmid27411892
dc.identifier.doi10.1098/rsob.160070
dc.identifier.urihttp://hdl.handle.net/10541/618469
dc.description.abstractDuring embryogenesis, the three SOXF transcription factors, SOX7, SOX17 and SOX18, regulate the specification of the cardiovascular system and are also involved in the development of haematopoiesis. The ectopic expression of SOX17 in both embryonic and adult blood cells enhances self-renewal. Likewise, the enforced expression of SOX7 during embryonic development promotes the proliferation of early blood progenitors and blocks lineage commitment. However, whether SOX7 expression can also affect the self-renewal of adult blood progenitors has never been explored. In this study, we demonstrate using an inducible transgenic mouse model that the enforced expression of Sox7 ex vivo in bone marrow/stroma cell co-culture promotes the proliferation of blood progenitors which retain multi-lineage short-term engrafting capacity. Furthermore, SOX7 expression induces a profound block in the generation of B lymphocytes. Correspondingly, the ectopic expression of SOX7 in vivo results in dramatic alterations of the haematopoietic system, inducing the proliferation of blood progenitors in the bone marrow while blocking B lymphopoiesis. In addition, SOX7 expression induces extra-medullary haematopoiesis in the spleen and liver. Together, these data demonstrate that the uncontrolled expression of the transcription factor SOX7 in adult haematopoietic cells has dramatic consequences on blood homeostasis.
dc.language.isoenen
dc.rightsArchived with thanks to Open biologyen
dc.titleSOX7-enforced expression promotes the expansion of adult blood progenitors and blocks B-cell development.en
dc.typeArticleen
dc.contributor.departmentStem Cell Hematopoiesis Group, Cancer Research UK Manchester Instituteen
dc.identifier.journalOpen Biologyen
refterms.dateFOA2018-12-17T14:37:22Z
html.description.abstractDuring embryogenesis, the three SOXF transcription factors, SOX7, SOX17 and SOX18, regulate the specification of the cardiovascular system and are also involved in the development of haematopoiesis. The ectopic expression of SOX17 in both embryonic and adult blood cells enhances self-renewal. Likewise, the enforced expression of SOX7 during embryonic development promotes the proliferation of early blood progenitors and blocks lineage commitment. However, whether SOX7 expression can also affect the self-renewal of adult blood progenitors has never been explored. In this study, we demonstrate using an inducible transgenic mouse model that the enforced expression of Sox7 ex vivo in bone marrow/stroma cell co-culture promotes the proliferation of blood progenitors which retain multi-lineage short-term engrafting capacity. Furthermore, SOX7 expression induces a profound block in the generation of B lymphocytes. Correspondingly, the ectopic expression of SOX7 in vivo results in dramatic alterations of the haematopoietic system, inducing the proliferation of blood progenitors in the bone marrow while blocking B lymphopoiesis. In addition, SOX7 expression induces extra-medullary haematopoiesis in the spleen and liver. Together, these data demonstrate that the uncontrolled expression of the transcription factor SOX7 in adult haematopoietic cells has dramatic consequences on blood homeostasis.


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