Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:Q9UID6 (Kruppel-like)
 147 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Self-renewal of embryonic stem cells (ESCs) is maintained by a complex regulatory mechanism involving transcription factors Oct3/4 (Pou5f1), Nanog and Sox2. Here, we report that Klf5, a Zn-finger transcription factor of the Kruppel-like family, is involved in ESC self-renewal. Klf5 is expressed in mouse ESCs, blastocysts and primordial germ cells, and its knockdown by RNA interference alters the molecular phenotype of ESCs, thereby preventing their correct differentiation. The ability of Klf5 to maintain ESCs in the undifferentiated state is supported by the finding that differentiation of ESCs is prevented when Klf5 is constitutively expressed. Maintenance of the undifferentiated state by Klf5 is, at least in part, due to the control of Nanog and Oct3/4 transcription, because Klf5 directly binds to the promoters of these genes and regulates their transcription.
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PMID:Klf5 is involved in self-renewal of mouse embryonic stem cells. 1865 41

Kruppel-like transcription factors (Klfs) are essential for the induction and maintenance of pluripotency of embryonic stem cells (ESCs), yet little is known about their roles in establishing the three lineages of the pre-implantation embryo. Here, we show that Klf5 is required for the formation of the trophectoderm (TE) and the inner cell mass (ICM), and for repressing primitive endoderm (PE) development. Although cell polarity appeared normal, Klf5 mutant embryos arrested at the blastocyst stage and failed to hatch due to defective TE development. Klf5 acted cell-autonomously in the TE, downstream of Fgf4 and upstream of Cdx2, Eomes and Krt8. In the ICM, loss of Klf5 resulted in reduced expression of pluripotency markers Oct4 and Nanog, but led to increased Sox17 expression in the PE, suggesting that Klf5 suppresses the PE lineage. Consistent with this, overexpression of Klf5 in transgenic embryos was sufficient to suppress the Sox17(+) PE lineage in the ICM. Klf5 overexpression led to a dose-dependent decrease in Sox17 promoter activity in reporter assays in cultured cells. Moreover, in chimeric embryos, Klf5(-/-) cells preferentially contributed to the Sox17(+) PE lineage and Cdx2 expression was not rescued in Klf5(-/-) outer cells. Finally, outgrowths from Klf5(-/-) embryos failed to form an ICM/pluripotent colony, had very few Oct4(+) or Cdx2(+) cells, but showed an increase in the percentage of Sox17(+) PE cells. These findings demonstrate that Klf5 is a dynamic regulator of all three lineages in the pre-implantation embryo by promoting the TE and epiblast lineages while suppressing the PE lineage.
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PMID:Klf5 regulates lineage formation in the pre-implantation mouse embryo. 2098 Apr 3

Establishing pig embryonic stem cells (pESCs) remains a challenge due to differences in the genetic backgrounds of mouse, human, and pig. Therefore, pig-specific pluripotency markers and cellular signaling must be identified. In this study, doxycycline (DOX)-inducible vectors carrying Oct4, sex-determining region Y-box 2 (Sox2), Nanog, Kruppel-like family 4 (Klf4), or Myc, which are known reprogramming factors, were transduced into pESCs. And pluripotency genes were analyzed in one or two reprogramming factor-expressed pESCs. When cultured without DOX, pESCs were stably maintained in basic fibroblast growth factor-supplemented media. However, when treated with DOX, the cells lost their alkaline phosphatase (AP) activity and differentiated within 2 weeks. Subsequently, we investigated the expression of genes related to pluripotency in DOX-treated pESCs using quantitative reverse transcription-polymerase chain reaction (PCR). Expression levels of Oct4, E-cadherin, and Fut4 were significantly increased by Oct4 overexpression, and Oct4 and Fut4 were upregulated in the Sox2-infected group. When a combination of two reprogramming factors, including Oct4 or Sox2, was introduced, weak AP activity remained. In addition, several of the two reprogramming factor transduction groups could be maintained after subculturing with transgene activation. Although long-term culture failed, pESCs transduced with Oct4 and Nanog, Oct4 and Klf4, or Sox2 and Nanog combinations could be subcultured even under transgene activation conditions. Analysis of the cause of long-term culture failure by quantitative PCR confirmed that the expression of intermediate reprogramming markers was not maintained. Given these results, additional methods are needed to support the completion of each reprogramming phase to succeed in the conversion of the pluripotent state of pESCs. This study improves our understanding of pluripotent networks and can be used to aid in the establishment of bona fide pig pluripotent stem cells.
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PMID:Attempting to Convert Primed Porcine Embryonic Stem Cells into a Naive State Through the Overexpression of Reprogramming Factors. 3027 24