UNIPROT:P10721 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P10721 (c-kit)
6,575 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To delineate factors involved in NK cell development, we established an in vitro system in which lineage marker (Lin)-, c-kit+, Sca2+ bone marrow cells differentiate into lytic NK1.1+ but Ly49- cells upon culture in IL-7, stem cell factor (SCF), and flt3 ligand (flt3L), followed by IL-15 alone. A comparison of the ability of IL-7, SCF, and flt3L to generate IL-15-responsive precursors suggested that NK progenitors express the receptor for flt3L. In support of this, when Lin-, c-kit+, flt3+ or Lin-, c-kit+, flt3- progenitors were utilized, 3-fold more NK cells arose from the flt3+ than from the flt3- progenitors. Furthermore, NK cells that arose from flt3- progenitors showed an immature NK1.1dim, CD2-, c-kit+ phenotype as compared with the more mature NK1.1bright, CD2+/-, c-kit- phenotype displayed by NK cells derived from flt3+ progenitors. Both progenitors, however, gave rise to NK cells that were Ly49 negative. To test the hypothesis that additional marrow-derived signals are necessary for Ly49 expression on developing NK cells, flt3+ progenitors were grown in IL-7, SCF, and flt3L followed by culture with IL-15 and a marrow-derived stromal cell line. Expression of Ly49 molecules, including those of which the MHC class I ligands were expressed on the stromal or progenitor cells, as well as others of which the known ligands were absent, was induced within 6-13 days. Thus, we have established an in vitro system in which Ly49 expression on developing NK cells can be analyzed and possibly experimentally manipulated.
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PMID:Differentiation of NK1.1+, Ly49+ NK cells from flt3+ multipotent marrow progenitor cells. 1045 5

Runx family proteins play indispensable roles in the development of various hematopoietic lineage cells. However, their function in NK cells is still uncertain. We found that NK cells and CD8 T cells dominantly express Runx3 protein, whereas NKT cells and CD4 T cells express Runx1. Reverse transcription-PCR analysis revealed that Runx3 expression is initiated at the NK precursor stage and is maintained along the course of NK cell differentiation. In order to examine their role in the earlier stage of NK cell development, we introduced Runx dominant-negative (Runx dn) form into Lin(-)c-kit(+)Sca-1(+) hematopoietic stem cells, which were applied to NK cell-inducing culture. Post-cultured cells showed a decreased expression of IL-2/IL-15 common receptor beta subunit (CD122), consistent with another finding that Runx binds to promoter region of CD122 gene. To examine the Runx function in the later developmental stage, we used transgenic mouse, in which Runx dn form is expressed in immature and mature NK cells. This mouse showed decreased expressions of NK maturation markers, such as Ly49 family, Mac-1 and CD43, whereas IFN-gamma production was greatly enhanced. These findings suggest that Runx proteins, especially Runx3, play multiple roles in NK cell differentiation.
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PMID:Runx proteins are involved in regulation of CD122, Ly49 family and IFN-gamma expression during NK cell differentiation. 1800 3

Myocardial infarction (MI) and subsequent adverse remodeling cause heart failure. Previously we demonstrated a role for Kit ligand (KL) in improving cardiac function post-MI. KL has two major isoforms; KL-1 is secreted whereas KL-2 is predominantly membrane bound. We demonstrate here first that KL-2-deficient mice have worse survival and an increased heart/bodyweight ratio post-MI compared to mice with reduced c-Kit receptor expression. Next we synthesized recombinant lentiviral vectors (LVs) that engineered functional expression of murine KL-1 and KL-2. For in vivo analyses, we directly injected these LVs into the left ventricle of membrane-bound KL-deficient Sl/Sl(d) or wild-type (WT) mice undergoing MI. Control LV/enGFP injection led to measurable reporter gene expression in hearts. Injection of LV/KL-2 attenuated adverse left ventricular remodeling and dramatically improved survival post-MI in both Sl/Sl(d) and WT mice (from 12 to 71% and 35 to 73%, respectively, versus controls). With regard toward beginning to understand the possible salutary mechanisms involved in this effect, differential staining patterns of Sca-1 and Ly49 on peripheral blood (PB) cells from therapeutically treated animals was found. Our data show that LV/KL-2 gene therapy is a promising treatment for MI.
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PMID:Direct injection of kit ligand-2 lentivirus improves cardiac repair and rescues mice post-myocardial infarction. 1900 60

Although the use of mutant mice has been extremely useful in identifying those proteins and molecules specifically required for the development of NK cells, the establishment of a well-defined protocol to replicate in vitro the major steps corresponding to the process of NK cell differentiation and maturation has enabled us to dissect the molecular events governing certain aspects of NK cell development. This chapter describes a protocol that combines both the use of mutant mice and the in vitro bone marrow (BM) culture system for examining the role of proteins and their putative signaling domains in NK cell development. BM-derived Lin-c-kit(+) stem cells expressing the protein of interest are first cultured for 6 days in a cocktail of cytokines that promote lymphoid development. The semi-differentiated cells are then transplanted into mice to complete their development in vivo. While all hematopoietic lineages can develop from these transplanted cells, we focus primarily on assessing the effect of the protein on the production of NK cells, as well as the acquisition of Ly49 receptors. The most prevalent advantage of this method is the ability to potentially link signaling regulators to known aspects of NK cell development.
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PMID:Use of stem cell radiation chimeras to analyze how domains of specific proteins impact on murine NK cell development in vivo. 2003 34