Human skin pigmentation

Welcome to the Wikiversity learning project for human skin pigmentation. Participants explore melanin, melanosomes, melanocytes, MSH and its receptors and the control of skin pigmentation.

Learning project organization edit

This learning project is initially organized around suggested reading and discussion. Feel free to add new reading and subsections for questions and discussion.

Melanocytes edit

Melanin biosynthesis edit

Figure 1. Diagram of a melanocyte. Melanocortin receptors (MC1R) at the cell surface can respond to MSH and regulate the amount of melanin stored in melanocytes. This image is from What Controls Variation in Human Skin Color? by Gregory S. Barsh.

Melanosome biogenesis edit

Darkness descends with two Rabs

Tanning edit

Regulation of constitutive and UVR-induced skin pigmentation by melanocortin 1 receptor isoforms

Melanosomes passed to keratinocytes edit

Laboratory mice provide a useful experimental system for investigation of the cellular mechanisms of mammalian skin pigmentation.

Mouse coat color mutations: from fancy mice to functional genomics

Working with mice, the transcription factor Foxn1 and the growth factor FGF2 were found to be involved in the melanocyte-keratinocyte interactions that allow melanosomes to be distributed in the skin^[1]. Foxn1 was originally studied because of its importance in the development of the thymus as revealed by Foxn1 mutant nude mice. Foxn1 mutations also cause failure of human hair growth^[2].

Figure 2. Diagram illustrating melanosome production in melanocytes and the subsequent distribution of melanosomes within keratinocytes. This image is from What Controls Variation in Human Skin Color? by Gregory S. Barsh.

References edit

↑ "Dedicated epithelial recipient cells determine pigmentation patterns" by L. Weiner, R. Han, B. M. Scicchitano, J. Li, K. Hasegawa, M. Grossi, D. Lee and J. L Brissette in Cell (2007) Volume 130, pages 932-942.Entrez PubMed 17803914
↑ "Exposing the human nude phenotype" by J. Frank, C. Pignata, A.A. Panteleyev, D. M. Prowse, H. Baden, L. Weiner, L. Gaetaniello, W. Ahmad, N. Pozzi, P. B. Cserhalmi-Friedman, V. M. Aita, H. Uyttendaele, D. Gordon, J. Ott, J. L. Brissette and A. M. Christiano in Nature (1999) Volume 398, pages 473-474. Entrez PubMed 15316080

External links edit

"Your Family May Once Have Been A Different Color" by Robert Krulwich. Morning Edition, February 2, 2009.

[1] "Dedicated epithelial recipient cells determine pigmentation patterns" by L. Weiner, R. Han, B. M. Scicchitano, J. Li, K. Hasegawa, M. Grossi, D. Lee and J. L Brissette in Cell (2007) Volume 130, pages 932-942.Entrez PubMed 17803914

[2] "Exposing the human nude phenotype" by J. Frank, C. Pignata, A.A. Panteleyev, D. M. Prowse, H. Baden, L. Weiner, L. Gaetaniello, W. Ahmad, N. Pozzi, P. B. Cserhalmi-Friedman, V. M. Aita, H. Uyttendaele, D. Gordon, J. Ott, J. L. Brissette and A. M. Christiano in Nature (1999) Volume 398, pages 473-474. Entrez PubMed 15316080

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