Home  About us  Contact
 

Melanocyte Proliferation (melanocyte + proliferation)

Distribution by Scientific Domains
Medical Sciences75%

Selected Abstracts

Regulation of MC1R signalling by G-protein-coupled receptor kinases

EXPERIMENTAL DERMATOLOGY, Issue 9 2004
J. C. García-Borrón
The melanocortin 1 receptor (MC1R) is a key regulator of melanocyte proliferation and differentiation and a major determinant of human skin phototype and skin cancer risk. Although the regulation of MC1R gene expression is fairly well understood, little is known about regulatory mechanisms acting at the protein level. In particular, no information is available on homologous desensitization of MC1R signalling. We studied MC1R and Mc1r desensitization and found that: 1) MC1R and Mc1r in melanoma cells undergo homologous desensitization, demonstrated by decreases in cAMP contents upon continuous exposure to agonists, 2) desensitization is not dependent on PKA, PKC, calcium mobilization or MAPKs but is agonist dose dependent, suggesting a role of receptor occupancy, 3) melanoma cells express two members of the GRK family of serine/threonine kinases, GRK2 and GRK6, 4. These kinases are expressed in normal melanocytes, 5) in cotransfection experiments performed with HEK 293T cells, GRK2 strongly impairs agonist-dependent signalling by MC1R or Mc1r, 6) expression of a dominant negative GRK2 mutant in melanoma cells increases their cAMP response to MC1R agonists, 7) cotransfection of HEK 293T cells with GRK6 and MC1R inhibits both basal and agonist-dependent signalling, and 8) cAMP production in agonist-stimulated melanoma cells is strongly impaired by enrichment with GRK6 following stable transfection. Therefore, GRK2 and GRK6 are key regulators of MC1R signalling and may be important determinants of normal and pathological skin pigmentation. [source]

The role of p53 in pigmentation, tanning and melanoma

PIGMENT CELL & MELANOMA RESEARCH, Issue 5 2008
Neil F. Box
Summary p53 has a central role in skin pigmentation and may impact on melanoma at all stages, however, as it's mutation frequency in melanoma is low, it's role has been somewhat under-appreciated. During normal skin function, p53 in the keratinocyte is a transducer of the skin tanning signal and an essential component of what is effectively a keratinocyte-melanocyte signaling cycle that regulates skin pigmentation. It is clear that this cycle functions optimally in skin of dark pigmentation. When melanin biosynthesis is genetically disrupted in skin of white complexion, we propose that this cycle operates as a promoter of melanocyte proliferation. The cell autonomous function of p53 in melanocytes is not well described, however, the balance of the evidence suggests that p53 is an effective tumor suppressor and the myriad of mechanisms by which the p53 pathway may be dysregulated in tumors attests to it importance as a tumor suppressor. In this review, we outline the known mechanisms that impair p53 itself and its immediate regulators or target genes during melanomagenesis. Due to the importance of this pathway, it is clear that p53 disruptions may relate directly to a patient's prognosis. This pathway will continue to be a focus of investigation, particularly with respect to targeted experimental chemotherapeutics. [source]

Low-energy helium,neon laser induces melanocyte proliferation via interaction with type IV collagen: visible light as a therapeutic option for vitiligo

BRITISH JOURNAL OF DERMATOLOGY, Issue 2 2009
C-C.E. Lan
Summary Background, The treatment of vitiligo remains a challenge for clinical dermatologists. We have previously shown that the helium,neon laser (He,Ne laser, 632·8 nm) is a therapeutic option for treatment of this depigmentary disorder. Objectives, Addressing the intricate interactions between melanocytes, the most important cellular component in the repigmentation scheme of vitiligo, and their innate extracellular matrix collagen type IV, the current study aimed to elucidate the effects of the He,Ne laser on melanocytes. Methods, Cultured melanocytes were irradiated with the He,Ne laser. Relevant biological parameters including cell attachment, locomotion and growth were evaluated. In addition, the potentially involved molecular pathways were also determined. Results, Our results show that in addition to suppressing mobility but increasing attachment to type IV collagen, the He,Ne laser stimulates melanocyte proliferation through enhanced ,2,1 integrin expression. The expression of phosphorylated cyclic-AMP response element binding protein (CREB), an important regulator of melanocyte growth, was also upregulated by He,Ne laser treatment. Using a specific mitochondrial uncoupling agent [carbonyl cyanide m-chlorophenyl-hydrazone (CCCP)], the proliferative effect of the He,Ne laser on melanocytes was abolished and suppression of melanocyte growth was noted. Conclusions, In summary, we have demonstrated that the He,Ne laser imparts a growth stimulatory effect on functional melanocytes via mitochondria-related pathways and proposed that other minor pathways including DNA damage may also be inflicted by laser treatment on irradiated cells. More importantly, we have completed the repigmentation scheme of vitiligo brought about by He,Ne laser light in vitro and provided a solid theoretical basis regarding how the He,Ne laser induces recovery of vitiligo in vivo. [source]