GPNMB is expressed in human epidermal keratinocytes but disappears in the vitiligo lesional skin (original) (raw)
Related papers
Histology and histopathology, 2009
Vitiligo is a skin disorder characterized by loss of functional melanocytes. Keratinocytes contribute to melanocyte homeostasis, and keratinocyte alteration may play a role in melanocyte dysfunction in vitiligo. In particular, the release of melanogenic mediators and the level of functioning keratinocytes may affect melanocyte dysfunction in vitiligo epidermis. Keratinocyte-derived mediators involved in pigmentation, analysed by in situ hybridization, and epidermal apoptosis, detected by TUNEL assay and electron microscopy, were evaluated in lesional and perilesional skin biopsies from 15 patients with active vitiligo and in 5 control subjects. Among the melanogenic mediators, stem cell factor (SCF) and endothelin-1 (ET-1) mRNA were significantly reduced in lesional as compared to perilesional epidermis, whereas no difference was observed in mRNA of basic fibroblastic growth factor (bFGF) and granulocyte-monocyte colony stimulating factor (GM-CSF). The expression of mRNA for tumor n...
New Insights into the Pathogenesis of Vitiligo: Imbalance of Epidermal Cytokines at Sites of Lesions
PIGMENT CELL RESEARCH, 2002
Vitiligo is a skin disease that is caused by selective destruction of melanocytes and is characterized by white spots. Melanocytes and keratinocytes seem to exhibit a functional close relationship, mediated at least in part by keratinocyte-derived cytokines, which seem important for survival and activity of melanocytic cells. We wanted to investigate the hypothesis that in vitiligo the expression of epidermal cytokines may be modified compared with normal skin. In 15 patients with active, non-segmental vitiligo, biopsies were obtained from lesional, perilesional and non-lesional skin; normal skin from five healthy donors was also tested. Tissue sections were tested using immunohistochemistry for the expression of keratinocyte-derived cytokines with stimulating activity, such as granulocyte-monocyte colony stimulating factor (GM-CSF), basic fibroblastic growth factor (bFGF), and stem cell factor (SCF) or with inhibiting activity, such as interleukin 6 (IL-6) and tumour necrosis factor a (TNF-a) on melanocytes.
Human Immunology, 2012
The expression pattern of several genes associated with different processes in melanocytes, including melanogenesis, is changed in vitiligo patients. We evaluated possible changes in the expression of interleukin (IL)-10 family cytokines (IL26, IL-28A, IL28B, IL29), their receptor subunits (IL20RB, IL22RA2, IL28RA), and genes potentially related to functioning of melanocytes (MDM1, IFNA1, IFNB1, IFNG, and ICAM1) in the case of vitiligo. We observed mRNA expression in vitiligo patients' and controls' skin and peripheral blood mononuclear cells using quantitative real-time polymerase chain reaction. The mRNA expression pattern of IL20RB,
Involvement of non melanocytic skin cells in vitiligo
Experimental Dermatology
Despite melanocytes are the key players in vitiligo, a continuous cross-talk between epidermal and dermal cells may strictly affect their functionality, in both lesional and non-lesional skin. Focusing on this interplay, we have reviewed existing literature supporting evidence on cellular and functional alterations of surrounding epidermal keratinocytes, extracellular matrix (ECM) proteins and fibroblasts in the underlying dermal compartment that may contribute to melanocyte disappearance in vitiligo. We have also examined some clinical and therapeutic aspects of the disease to sustain the non-exclusive involvement of melanocytes within vitiligo. As a result, a different and more complex scenario has appeared that may enable to provide better understanding about origins and progress of vitiligo and that should be considered in the evaluation of new treatment approaches.
Journal of Dermatological Science, 2008
Background: Main pathway in human melanocytes through which signal from the melanocortin system reaches the melanogenesis enzymes is cAMP/PKA pathway and it is modulated by Wnt and MAPK pathways. In our previous study we established significant increase of melanocortin receptor expression in unaffected skin of vitiligo patients compared to healthy subjects. Objective: The aim of this study was to assess the gene expression profile of the intracellular signalling pathways linking melanocortin system with enzymes involved in melanogenesis. Methods: Using QRT-PCR method, mRNA expression levels of eight genes related to signal transduction from the melanocortin system to melanogenesis enzymes was measured in lesional and non-lesional skin of vitiligo patients and in the skin of healthy control subjects. Following genes were analyzed in the study: MITF, CREB1, p38, USF1, PIK3CB (PI3K), RPS6KB1, LEF1 and BCL2. Results: The mRNA levels of MITF, LEF1, p38, PIK3CB and RPS6KB1 were decreased in lesional skin of vitiligo patients compared to skin of healthy control subjects. We also found increased expression of USF1 and BCL2 in non-lesional skin of vitiligo patients compared to skin of healthy control subjects. mRNA levels of MITF and BCL2 were decreased in lesional skin of vitiligo patients compared to non-lesional skin of vitiligo patients.
Cytokines: the yin and yang of vitiligo pathogenesis
Expert Review of Clinical Immunology, 2018
Introduction: Dysregulation of melanocyte function is associated with vitiligo, an idiopathic autoimmune hypopigmentary skin disorder, caused by the selective destruction of melanocytes. Cytokines, the key mediators of immune response, which are pivotal in maintaining immune homeostasis, are crucial in vitiligo pathogenesis. Several studies indicate that there is an imbalance between pro-and anti-inflammatory cytokines in the skin and serum of vitiligo patients. Areas covered: In this comprehensive review, we have summarized the correlation of cytokine imbalance and vitiligo pathogenesis, its role in melanocyte biology and its impact on vitiligo treatment. We have integrated various published reports on the levels of major cytokines from skin and serum samples of vitiligo patients. We have also discussed the role of endoplasmic reticulum (ER) and oxidative stress on cytokine imbalance and vice-versa leading to destruction of melanocytes. Expert commentary: The review reflects that dysregulation of cytokines is multi-factorial, ranging from genetic predisposition to altered protein expression relevant to vitiligo pathogenesis. We emphasize that cytokine imbalance in systemic and skin microenvironment plays a crucial role in vitiligo pathogenesis and has promising potential as therapeutic targets for vitiligo.
Melanocytes are not absent in lesional skin of long duration vitiligo
The Journal of Pathology, 2000
This paper provides evidence that melanocytes are still present in the depigmented epidermis of patients with vitiligo even after stable disease of 25 years' duration. Melanocyte cultures were successfully established from depigmented epidermal suction blister tissue of all 12 randomly selected patients and these cells produced melanin. Even under in vitro conditions, vacuolation of melanocytes was demonstrated in ®ve patients with active disease, which was reversible upon exogenous addition of bovine catalase to the culture medium. Full skin biopsies from 17 patients with vitiligo, obtained from depigmented and normally pigmented areas, con®rmed the involvement of melanocytes, keratinocytes, and Langerhans cells in this disorder. In addition, the presence of clustered and single pre-melanosomes in basal and supra-basal keratinocytes of lesional and normal epidermis, as well as the retention of single melanocytes in lesional epidermis, was demonstrated by light and electron microscopy. Upon topical application of a narrow band UVB-activated pseudocatalase, vacuolation, granulation, and dilatation of the endoplasmic reticulum completely recovered, but the ectopic pre-melanosome shedding remained. Taken together, these observations indicate that melanocytes are never completely absent in the depigmented epidermis and that these melanocytes can recover their functionality in vivo and in vitro upon the removal of hydrogen peroxide. Furthermore, this study supports the concept that vitiligo involves the entire epidermal unit in both depigmented and`normal' pigmented skin.
Melanocyte-keratinocyte cross-talk in vitiligo
Frontiers in Medicine
Vitiligo is a common acquired pigmentary disorder that presents as progressive loss of melanocytes from the skin. Epidermal melanocytes and keratinocytes are in close proximity to each other, forming a functional and structural unit where keratinocytes play a pivotal role in supporting melanocyte homeostasis and melanogenesis. This intimate relationship suggests that keratinocytes might contribute to ongoing melanocyte loss and subsequent depigmentation. In fact, keratinocyte dysfunction is a documented phenomenon in vitiligo. Keratinocyte apoptosis can deprive melanocytes from growth factors including stem cell factor (SCF) and other melanogenic stimulating factors which are essential for melanocyte function. Additionally, keratinocytes control the mobility/stability phases of melanocytes via matrix metalloproteinases and basement membrane remodeling. Hence keratinocyte dysfunction may be implicated in detachment of melanocytes from the basement membrane and subsequent loss from th...
The melanocytorrhagic hypothesis of vitiligo tested on pigmented, stressed, reconstructed epidermis
Pigment Cell Research, 2007
Common generalized vitiligo is an acquired depigmenting disorder characterized by a chronic and progressive loss of melanocytes from the epidermis and hair follicles. We previously proposed a new theory that vitiligo involves the chronic detachment and transepidermal loss of melanocytes caused by autoimmune, neural and impaired redox mechanisms associated with mechanical trauma. In this study, we reconstructed epidermis on dead de-epidermized dermis with normal and ⁄ or non-segmental nonlesional vitiligo (NSV) cells and tested catecholamines or sera or hydrogen peroxide. Under unstressed conditions, the number of melanocytes located in the basal layer was significantly lower in reconstructs made with melanocytes from non-lesional NSV skin and normal keratinocytes compared with controls made with autologous normal melanocytes. The number of non-lesional NSV melanocytes was even lower in reconstructs made with keratinocytes from non-lesional NSV skin. Epinephrine and H 2 O 2 could trigger the transepidermal loss of normal and vitiligo melanocytes. Some sera induced melanocyte detachment but without any clear correlation with disease activity in the donors. In conclusion, our results are the first step to obtaining a reproducible melanocytorrhagic model in vitro with some of the stressors investigated. They support the hypothesis that NSV melanocytes have an intrinsic defect, which limits their adhesion in a reconstructed epidermis, with an enhancer effect of the vitiligo keratinocyte milieu.
Vitiligo Skin: Exploring the Dermal Compartment
Journal of Investigative Dermatology
There is an increasing interest in the apparently normal skin in vitiligo. Altered expression of the adhesion molecule E-cadherin and persistent deregulated intracellular redox status that promotes the acquisition of a stress-induced senescent phenotype in melanocytes of normally pigmented skin from patients with vitiligo have been described. Growing evidence has shown that such cellular and functional alterations are not necessarily restricted to melanocytes but may be extended to other cutaneous cell populations in both lesional and nonlesional areas. However, whether dermal fibroblasts exhibit related alterations that may contribute to the defects associated with melanocytes in vitiligo is not known. Here we reveal within the dermal compartment cells a myofibroblast phenotype and a predisposition to premature senescence, indicating the existence of altered cross-talk between dermal and epidermal components that may affect melanocyte functionality even in the apparently normal skin of patients with vitiligo.