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Target Concepts:
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Query: UNIPROT:P10721 (
c-kit
)
6,575
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The role of
c-Kit
in the development of melanoma was studied in line 304/B6 of RET-transgenic mice, in which melanoma spontaneously develops. In Wv/Wv-RET (304/B6)-transgenic mice, in which
c-Kit
function was severely impaired, development of melanoma was strongly suppressed. Although 31 of the 44 original RET-transgenic mice died of rapidly growing melanoma within 12 months after birth, only 8 of the 44 Wv/Wv-RET-transgenic mice developed slowly growing melanocytic tumors with a greatly prolonged mean tumor-free period, 2 of which died of melanoma at a late stage. Even Wv/+-RET-transgenic mice had a clearly prolonged tumor-free period and definitely reduced frequency (6 of 61) of tumor death within 12 months after birth.
Melanin
production in the skin of these mice was not strongly impaired, suggesting that
c-Kit
affects the development of melanomas in these mice with only minor effects in melanin production.
c-Kit
expression in skin soon after birth was promoted in RET-transgenic mice, and
c-Kit
was expressed at high levels at the benign but not malignant stage of the tumor. A single injection of anti-
c-Kit
antibody (ACK2) into RET-transgenic mice soon after birth caused a surprisingly long-lasting suppression of development of melanoma, greatly prolonging the tumor-free period, and none of the 28 ACK2-treated RET-transgenic mice died from tumors at 12 months of age. The
c-Kit
function needed for melanin production was also suppressed for an unusually long time in ACK2-treated, RET-transgenic mice. These results suggest that
c-Kit
can be a unique target molecule for melanoma treatment.
...
PMID:c-Kit-targeting immunotherapy for hereditary melanoma in a mouse model. 1487 2
Hair shaft melanin components (eu- or/and pheomelanin) are a long-lived record of precise interactions in the hair follicle pigmentary unit, e.g., between follicular melanocytes, keratinocytes, and dermal papilla fibroblasts. Follicular melanogenesis (FM) involves sequentially the melanogenic activity of follicular melanocytes, the transfer of melanin granules into cortical and medulla keratinocytes, and the formation of pigmented hair shafts. This activity is in turn regulated by an array of enzymes, structural and regulatory proteins, transporters, and receptors and their ligands, acting on the developmental stages, cellular, and hair follicle levels. FM is stringently coupled to the anagen stage of the hair cycle, being switched-off in catagen to remain absent through telogen. At the organ level FM is precisely coupled to the life cycle of melanocytes with changes in their compartmental distribution and accelerated melanoblast/melanocyte differentiation with enhanced secretory activity. The melanocyte compartments in the upper hair follicle also provides a reservoir for the repigmentation of epidermis and, for the cyclic formation of new anagen hair bulbs.
Melanin
synthesis and pigment transfer to bulb keratinocytes are dependent on the availability of melanin precursors, and regulation by signal transduction pathways intrinsic to skin and hair follicle, which are both receptor dependent and independent, act through auto-, para- or intracrine mechanisms and can be modified by hormonal signals. The important regulators are MC1 receptor its and adrenocorticotropic hormone, melanocyte stimulating hormone, agouti protein ligands (in rodents),
c-Kit
, and the endothelin receptors with their ligands.
Melanin
itself has a wide range of bioactivities that extend far beyond its determination of hair color.
...
PMID:Hair follicle pigmentation. 1565 48
Melanin
synthesis in the hair follicle (HF) is strictly coupled to the growth stage of the hair cycle and is interrupted during follicle regression (catagen) and resting. Using tyrosine-related protein 2 (Trp)2-LacZ transgenic mice as a model, we show that distinct melanocyte subpopulations of the HF display distinct patterns of apoptosis and survival during catagen. Melanocytes located in the outer root sheath express Bcl-2 and are TUNEL-negative. Part of the pigment-producing melanocytes located above the follicular papilla expresses Fas, TUNEL, and is likely to undergo apoptosis, whereas the other part of these melanocytes expresses
c-kit
, Bcl-2, and becomes visible in the follicular papilla. During late catagen, TUNEL and Ki-67 negative melanocytes expressing Bcl-2 are seen in the secondary germ of the HF. Lack of proliferation in the follicular melanocytes during catagen suggests that secondary hair germ of late catagen HF is most likely repopulated by melanocytes arising from the outer root sheath or follicular papilla of early/mid-catagen HF. Taken together, these data suggest a possible scenario and mechanisms of the remodeling of the follicular pigmentary unit during HF anagen-catagen-telogen transition and may be used for the establishing in vivo models for pharmacological modulation of melanocyte apoptosis and survival during the hair cycle.
...
PMID:Changes in different melanocyte populations during hair follicle involution (catagen). 1635 97
Melanogenesis is the vital response to protect skin cells against UVB-induced DNA damage.
Melanin
is produced by melanocytes, which transfer it to surrounding keratinocytes. Recently, we have shown that the aryl hydrocarbon receptor (AhR) is part of the UVB-stress response in epidermal keratinocytes. UVB triggers AhR signaling by generating the AhR ligand 6-formylindolo(3,2-b)carbazole from tryptophan. We show here that normal murine melanocytes express functional AhR. Using standard UVB tanning protocols, AhR-deficient mice were shown to tan significantly weaker than wild-type mice; in these mice, tyrosinase activity in the epidermis was lower as well. Tanning responses and tyrosinase activity, however, were normal in keratinocyte-specific conditional AhR knockout mice, indicating that release of melanogenic keratinocyte factors is unaffected by the UVB-AhR signaling pathway and that the diminished tanning response in AhR(-/-) mice is confined to the level of melanocytes. Accordingly, the number of dihydroxyphenylalanin-positive melanocytes increased significantly less on UVB irradiation in AhR(-/-) mice than in wild-type mice. This difference in melanocyte number was associated with a significantly reduced expression of stem cell factor-1 and
c-kit
in melanocytes of AhR(-/-) mice. Thus, the environmental signal sensor AhR links solar UVB radiation to skin pigmentation.
...
PMID:The aryl hydrocarbon receptor mediates UVB radiation-induced skin tanning. 2086 55
Melanogenesis is a complex physiological mechanism involving various paracrine factors. Skin cells such as keratinocytes, fibroblasts, and melanocytes communicate with one another through secreted regulators, thereby regulating the melanocytes' bio-functions. The stem cell factor (SCF) is a paracrine factor produced by fibroblasts, and its receptor,
c-kit
, is expressed on melanocytes. Binding of SCF to
c-kit
activates autophosphorylation and tyrosine kinase to switch on its signal transmission.
SCF
inhibition does not suppress fibroblast proliferation in MTT assay, and
SCF
silencing induced mRNA expressions of paracrine factor genes,
HGF
,
NRG-1
, and
CRH
in qPCR results. Following UVB stimulation, gene expressions of
HGF
,
NRG
, and
CRH
were higher than homeostasis; in particular,
HGF
exhibited the highest correlation with
SCF
variations. We detected fibroblasts regulated
SCF
in an autocrine-dependent manner, and the conditioned medium obtained from fibroblast culture was applied to treat melanocytes. Melanogenesis-related genes,
tyrosinase
and
pmel17
, were upregulated under conditioned mediums with
SCF
silencing and exposed to UVB treatments.
Melanin
quantities in the melanocytes had clearly increased in the pigment content assay. In conclusion,
SCF
silencing causes variations in both fibroblast paracrine factors and melanocyte melanogenesis, and the differences in gene expressions were observed following UVB exposure.
...
PMID:Silencing Stem Cell Factor Gene in Fibroblasts to Regulate Paracrine Factor Productions and Enhance c-Kit Expression in Melanocytes on Melanogenesis. 2977 75
