Kit is a growth factor receptor that regulates proliferation and/or survival of many embryonic and postnatal stem cell types. When mutated, it can induce malignant transformation of the host cells. To dissect the Kit role in the control of ESC pluripotency, we studied its expression during early mouse embryogenesis and during the process of ESC derivation from inner cell mass (ICM) cells. We followed the in vitro development of early mouse embryos obtained from transgenic mice carrying Kit promoter regions fused to EGFP (Kit-EGFP) and found that they initiate EGFP expression at morula stage. EGFP expression is then maintained in the blastocyst, within the ICM, and its levels increase when cultured in the presence of MAPK and GSK3β inhibitors (2i) plus LIF compared with the LIF-only condition. Kit-EGFP ESCs showed nonhomogeneous EGFP expression pattern when cultured in LIF condition, but they upregulated EGFP expression, as well as that of Sox2, Nanog, Prdm14, when shifted to 2i-LIF culture. Similarly, primordial germ cells (PGCs) in the process of embryonic germ cell (EGC) conversion showed enhanced EGFP expression in 2i-LIF. Kit expression was affected by manipulating Sox2 levels in ESCs. Chromatin immunoprecipitation experiments confirmed that Sox2 binds Kit regulatory regions containing Sox2 consensus sequences. Finally, Kit constitutive activation induced by the D814Y mutation increased ESC proliferation and cloning efficiency in vitro and in teratoma assays in vivo. Our results identify Kit as a pluripotency-responsive gene and suggest a role for Kit in the regulation of ESC proliferation. Stem Cells 2019.

Todaro, F., Campolo, F., Barrios, F., Pellegrini, M., Di Cesare, S., Tessarollo, L., et al. (2019). Regulation of Kit Expression in Early Mouse Embryos and ES Cells. STEM CELLS, 37(3), 332-344 [10.1002/stem.2960].

Regulation of Kit Expression in Early Mouse Embryos and ES Cells

Todaro, Federica;Campolo, Federica;Barrios, Florencia;Pellegrini, Manuela;Di Cesare, Silvia;Rossi, Pellegrino;Jannini, Emmanuele A;Dolci, Susanna
2019-01-01

Abstract

Kit is a growth factor receptor that regulates proliferation and/or survival of many embryonic and postnatal stem cell types. When mutated, it can induce malignant transformation of the host cells. To dissect the Kit role in the control of ESC pluripotency, we studied its expression during early mouse embryogenesis and during the process of ESC derivation from inner cell mass (ICM) cells. We followed the in vitro development of early mouse embryos obtained from transgenic mice carrying Kit promoter regions fused to EGFP (Kit-EGFP) and found that they initiate EGFP expression at morula stage. EGFP expression is then maintained in the blastocyst, within the ICM, and its levels increase when cultured in the presence of MAPK and GSK3β inhibitors (2i) plus LIF compared with the LIF-only condition. Kit-EGFP ESCs showed nonhomogeneous EGFP expression pattern when cultured in LIF condition, but they upregulated EGFP expression, as well as that of Sox2, Nanog, Prdm14, when shifted to 2i-LIF culture. Similarly, primordial germ cells (PGCs) in the process of embryonic germ cell (EGC) conversion showed enhanced EGFP expression in 2i-LIF. Kit expression was affected by manipulating Sox2 levels in ESCs. Chromatin immunoprecipitation experiments confirmed that Sox2 binds Kit regulatory regions containing Sox2 consensus sequences. Finally, Kit constitutive activation induced by the D814Y mutation increased ESC proliferation and cloning efficiency in vitro and in teratoma assays in vivo. Our results identify Kit as a pluripotency-responsive gene and suggest a role for Kit in the regulation of ESC proliferation. Stem Cells 2019.
2019
Pubblicato
Rilevanza internazionale
Articolo
Esperti anonimi
Settore BIO/16 - ANATOMIA UMANA
English
Con Impact Factor ISI
C-Kit; Embryo; Embryonic stem cells; LIF; Proliferation; Transgenic mouse; Xenogeneic stem cell transplantation
Todaro, F., Campolo, F., Barrios, F., Pellegrini, M., Di Cesare, S., Tessarollo, L., et al. (2019). Regulation of Kit Expression in Early Mouse Embryos and ES Cells. STEM CELLS, 37(3), 332-344 [10.1002/stem.2960].
Todaro, F; Campolo, F; Barrios, F; Pellegrini, M; Di Cesare, S; Tessarollo, L; Rossi, P; Jannini, Ea; Dolci, S
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/208801
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