Culturing of Melanocytes from the Equine Hair Follicle Outer Root Sheath

Li, Hanluo, Michler, Jule Kristin, Bartella, Alexander, Sander, Anna Katharina, Gaus, Sebastian, Hahnel, Sebastian, Zimmerer, Rüdiger, Simon, Jan-Christoph, Savkovic, Vuk, Lethaus, Bernd

08 May 2023

Hair follicles harbor a heterogeneous regenerative cell pool and represent a putative low-to-non-invasively available source of stem cells. We previously reported a technology for culturing human melanocytes from the hair follicle outer root sheath (ORS) for autologous pigmentation of tissue engineered skin equivalents. This study translated the ORS technology to horses. We de-veloped a culture of equine melanocytes from the ORS (eMORS) from equine forelock hair follicles cultured by means of an analogue human hair follicle-based in vitro methodology. The procedure was adjusted to equine physiology by addition of equine serum to the culture medium. The hair follicles were isolated by macerating forelock skin rests, enzymatically digested and subjected to air-medium-interface cultivation method. The procedure resulted in differentiated equine melanocytes, which exhibited typical morphology, presence of melanosomes, expression of cytoskeleton proteins vimentin, α-SMA, Sox2, S100ß and tyrosinase as well as tyrosinase activity followed by production of melanin. According to all assessed parameters, eMORS could be ranked as partially melanotic melanocytes. The results of the study offer an experimental base for further insight into hair follicle biology in equine and for comparative studies of hair follicles across different species.

info:eu-repo/classification/ddc/570

ddc:570

Endothelin-1 Protects Human Melanocytes from the Photodamaging Effects of Ultraviolet Radiation by Activating the MAP Kinases JNK and p38

von Koschembahr, Anne M.

January 2014

No description available.

Cellular Biology

endothelin-1

human melanocytes

ultraviolet radiation

JNK

p38

DNA damage

Galactomyces Ferment Filtrate Suppresses Melanization and Oxidative Stress in Epidermal Melanocytes

Woolridge Cooper, JàNay K., B.S.

04 September 2018

No description available.

Pharmaceuticals

galactomyces ferment filtrate

melanocytes

Nrf2-ARE

pigmentation

melanosome pH

vitiligo

UV-Induced DNA Damage and Repair: The Role of Melanin and the MC1R Gene

Hauser, Jennifer E.

03 April 2006

No description available.

Biology, Cell

melanoma

human melanocytes

ultraviolet radiation

melanin

eumelanin

melanocortin 1 receptor

cyclobutane pyrimide dimers

Modulation of the human hair follicle pigmentary unit by corticotrophin-releasing hormone and urocortin peptides

Kauser, Sobia, Slominski, A.T., Wei, E.T., Tobin, Desmond J.

January 2006

No / Human skin is a local source of corticotropin-releasing hormone (CRH) and expresses CRH and CRH receptors (CRH-R) at mRNA and protein levels. Epidermal melanocytes respond to CRH by induction of cAMP with up-regulation of pro-opiomelanocortin gene expression and subsequent production of adrenocorticotropin hormone. However, the role of CRH/CRH-R in melanocyte biology is complicated by the significant heterogeneity of cutaneous melanocyte subpopulations, from continuously active and UV-responsive melanocytes in epidermis to UV nonresponsive, hair growth cycle-coupled melanogenesis in hair follicles. In the present study we report that normal human scalp hair follicle melanocytes express CRH at the mRNA level. Furthermore, CRH, urocortin and CRH-R 1 and 2 were differentially expressed in follicular melanocytes, fibroblasts, and keratinocytes depending on anatomic location and differentiation status in situ and in vitro. Stimulation of follicular melanocytes with CRH and CRH peptides, modified for selectivity for CRH-R1 and/or CRH-R2, variably induced cell melanogenesis, dendricity, and proliferation. CRH-peptides also stimulated the expression and activity of Tyrosinase, and expression of Tyrosinase-related protein-1 and-2. However, a modified urocortin peptide highly selective for CRH-R2 down-regulated melanocyte differentiation phenotype. This study indicates that CRH peptides can differentially influence hair follicle melanocyte behavior not only via CRH-R1 signaling but also by complex cross-talk between CRH-R1 and CRH-R2.¿Kauser, S., Slominski, A., Wei, E. T., Tobin, D. J. Modulation of the human hair follicle pigmentary unit by corticotropin-releasing hormone and urocortin peptides.

Hair follicle melanocytes

Melanogenesis

Corticotropin-releasing hormone

CRH receptors

Hair growth

The effects of Sophora angustifolia and other natural plant extracts on melanogenesis and melanin transfer in human skin cells.

Singh, Suman K., Baker, Richard, Wibawa, J.I.D., Bell, M., Tobin, Desmond J.

January 2013

No / Skin pigmentation is a multistep process of melanin synthesis by melanocytes, its transfer to recipient keratinocytes and its degradation. As dyspigmentation is a prominent marker of skin ageing, novel effective agents that modulate pigmentation safely are being sought for both clinical and cosmetic use. Here, a number of plant extracts were examined for their effect on melanogenesis (by melanin assay and Western blotting) and melanin transfer (by confocal immunomicroscopy of gp100-positive melanin granules in cocultures and by SEM analysis of filopodia), in human melanocytes and in cocultures with phototype-matched normal adult epidermal keratinocytes. Mulberry, Kiwi and Sophora extracts were assessed against isobutylmethylxanthine, hydroquinone, vitamin C and niacinamide. Compared with unstimulated control, all extracts significantly reduced melanogenesis in human melanoma cells and normal adult epidermal melanocytes. These extracts also reduced melanin transfer and reduced filopodia expression on melanocytes, similar to hydroquinone and niacinamide, indicating their effectiveness as multimode pigmentation actives.

Age-spots

Filopodia

Hyperpigmentation

Melanocytes

Solar lentigines

Skin pigmentation

Melanin synthesis

Ex vivo organ culture of human hair follicles: a model epithelial-neuroectodermal-mesenchymal interaction system.

Tobin, Desmond J.

10 1900

No / The development of hair follicle organ culture techniques is a significant milestone in cutaneous biology research. The hair follicle, or more accurately the "pilo-sebaceous unit", encapsulates all the important physiologic processes found in the human body; controlled cell growth/death, interactions between cells of different histologic type, cell differentiation and migration, and hormone responsitivity to name a few. Thus, the value of the hair follicle as a model for biological scientific research goes way beyond its scope for cutaneous biology or dermatology alone. Indeed, the recent and dramatic upturn in interest in hair follicle biology has focused principally on the pursuit of two of biology's holy grails; post-embryonic morphogenesis and control of cyclical tissue activity. The hair follicle organ culture model, pioneered by Philpott and colleagues, ushered in an exceptionally accessible way to assess how cells of epithelial (e.g., keratinocytes), mesenchymal (e.g., fibroblasts), and neuroectodermal (e.g., melanocytes) origin interact in a three-dimensional manner. Moreover, this assay system allows us to assess how various natural and pharmacologic agents affect complex tissues for growth modulation. In this article, I focus on the culture of the human hair follicle mini-organ, discussing both the practical issues involved and some possible research applications of this assay.

Keratinocytes

Fibroblasts

Melanocytes

Mesenchymal

Epithelial

Neuroectodermal

Neural crest

Stem cells

Human hair follicles

The cell biology of human hair follicle pigmentation.

Tobin, Desmond J.

10 November 2010

No / Although we have made significant progress in understanding the regulation of the UVR-exposed epidermal-melanin unit, we know relatively little about how human hair follicle pigmentation is regulated. Progress has been hampered by gaps in our knowledge of the hair growth cycle’s controls, to which hair pigmentation appears tightly coupled. However, pigment cell researchers may have overly focused on the follicular melanocytes of the nocturnal and UVR-shy mouse as a proxy for human epidermal melanocytes. Here, I emphasize the epidermis-follicular melanocyte pluralism of human skin, as research models for vitiligo, alopecia areata and melanoma, personal care/cosmetics innovation. Further motivation could be in finding answers to why hair follicle and epidermal pigmentary units remain broadly distinct? Why melanomas tend to originate from epidermal rather than follicular melanocytes? Why multiple follicular melanocyte sub-populations exist? Why follicular melanocytes are more sensitive to aging influences? In this perspective, I attempt to raise the status of the human hair follicle melanocyte and highlight some species-specific issues involved which the general reader of the pigmentation literature (with its substantial mouse-based data) may not fully appreciate.

Melanin

Canities

Hair graying

Melanogenesis

Alopecia areata

Melanocytes

Hair follicle

Pigmentation

Adult human epidermal melanocytes for neurodegeneration research

Papageorgiou, Nikolaos, Carpenter, Elizabeth, Scally, Andy J., Tobin, Desmond J.

January 2008

No / Neuronal models for Alzheimer's disease research frequently have limitations as a result of their nonhuman origin and/or transformed state. Here we examined the potential of readily accessible neural crest-derived human epidermal melanocytes isolated from elderly individuals as a model system for Alzheimer's disease research. The amyloidogenic isoforms of amyloid precursor protein (APP; isoforms APP751/770) and amyloid beta (A¿)1¿40 were detected in epidermal melanocytes using immunocytochemistry and western blotting. Incubation of epidermal melanocytes with aggregated A¿1¿40 peptide caused a concentration-dependent reduction in cell viability, whereas age-matched dermal fibroblasts remained unaffected. These findings suggest that epidermal melanocytes from elderly donors are capable of amyloidogenesis and are sensitive to A¿1¿40 cytotoxicity. Thus, these cells may provide a readily accessible human cell model for Alzheimer's disease research.

Alzheimer's disease

Neuronal models

Amyloid precursor protein

APP

Padronização de cultura de pele humana para avaliação de toxicidade e eficácia de produtos cosméticos / Standardization of human skin culture for toxicity evaluation and efficacy of cosmetic products

Ribeiro, Cláudio de Jesus

15 September 2003

A legislação brasileira para cosméticos exige que os apelos mercadológicos desses produtos sejam comprovados. Os testes in vivo utilizando animais para avaliação desta categoria de produtos ou os princípios ativos nela contidos são, atualmente, bastante criticados. O presente trabalho teve como objetivo desenvolver um modelo de cultura de pele humana e avaliar a viabilidade dos melanócitos durante o período de 7 dias. A manutenção do tecido foi avaliada pela observação microscópica após coloração com HE e Masson, os melanócitos ativos pela reação de DOPA e a melanina pela coloração Fontana-Masson. Fragmentos de pele com 2mm2 mantidos em meio de Leibovitz à temperatura ambiente e atmosfera com 95% de ar e 5% de CO2, sofreram menos alterações morfológicas comparados aos mantidos em DMEM à temperatura de 37°C, 5% de CO2, 40% de O2 e 55% de N2. Fragmentos com 20mm2 mantidos em Leibovitz apresentaram alterações semelhantes aos de 2mm2. Células em divisão foram observadas em amostras de pele mantidas em Leibovitz enriquecido com SFB e ácido retinóico. A presença de melanina foi verificada durante todo o período de cultura, bem como a dos melanócitos, que se mostraram DOPA reativos. A radiação UVA/UVB, empregada com a finalidade de verificar se os melanócitos sofriam alguma alteração na atividade e morfologia, não provocou qualquer mudança nestas células, por outro lado induziu uma redistribuição da melanina nos queratinócitos dos fragmentos irradiados. Os resultados obtidos mostraram que é possível manter pele humana em cultura por 7dias, bem como a viabilidade dos melanócitos e sugere ser possível a aplicação do modelo estudado em futuros ensaios de eficácia e segurança de produtos tópicos. / The Brazilian law for cosmetics demands that the marketing of these products should be proofed. The tests in vivo utilizing animals for evaluation of this category of products or the active components in it, are very criticized nowadays. The present work had as an objective to develop a model of culture of human skin, and evaluate the viability of the melanocytes during a period of 7 days. The maintenance of the tissue was evaluated by the microscopic observation after coloring with HE and Masson, the active melanocytes by the DOPA reaction and the melanin by coloring of Fontana-Masson. Fragments of skin with 2mm2 kept in Leibovitz at room temperature and atmosphere with 95 % of air and 5 % of CO2, presented less morphologic alterations than the ones kept in DMEM at the temperature of 37, 5% of CO2, 40% of O2 and 55% of N2. Fragments with 20mm2 kept in Leibovitz presented similar alterations to the 2mm2. Mitotic cells were observed in samples of skin kept in enriched Leibovitz with FBS and retinoic acid. The presence of melanin was verified through all of the period of culture as well as the melanocytes that were DOPA-reactive. The radiation UVA/UVB, used with the aim of verifying if the melanocytes presented any alteration in the activity and morphology, didn\'t provoke any changes in the cells, on the other hand it induced a redistribution of the melanin in the keratinocytes of the irradiated fragments. The results obtained showed that it is possible to keep the human skin in culture for 7 days as well as the viability of melanocytes, and suggests the possibility of application of the studied model in future research on the efficacy and the safety of topic products.

Cosmetologia

Cosmetology

Cultura

Melanin

Melanina

Melanócitos

Melanocytes

Pele

Skin culture