Neuroendocrine Functions of Melanocytes: Beyond the Skin-Deep Melanin Maker

Takeda, Kazuhisa; Takahashi, Na Ho; Shibahara, Shigeki

doi:10.1620/tjem.211.201

Cited by 63 publications

(53 citation statements)

References 172 publications

(190 reference statements)

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…The melanocytes predominate in the skin epidermis but are also found in the hair and iris where they give colour to these structures and in the inner ear, nervous system and heart Takeda et al 2007). Other cells as well as melanocytes may produce melanin, e.g.…”

Section: Melaninsmentioning

confidence: 99%

The Pigment in Alkaptonuria Relationship to Melanin and Other Coloured Substances: A Review of Metabolism, Composition and Chemical Analysis

et al. 2015

View full text Add to dashboard Cite

The pigments found in plants, animals and humic substances are well described and classified. In humans considerable progress has been made with the main pigment melanin in defining its biochemistry, the different types and function. However, analytical techniques to show these differences in vivo are still not readily available. NMR and IR spectroscopy are relatively insensitive and reveal only major structural differences. Techniques utilising MS are useful in determining elemental content but require further studies to optimise conditions for accurate mass analysis. How the components may be structurally organised seems to be the most problematic with scanning TEM and the improved FTIR of use in this respect. As regards understanding the nature of the pigment related to HGA seen in patients with Alkaptonuria (AKU), it is still thought of as a melaninlike pigment simply because of its colour and likewise thought to be a polymer of undetermined size. It is important that detailed analysis be carried out to define more accurately this pigment. However, observations suggest it to be the same as the HGA-derived pigment, pyomelanin, produced by bacteria and containing both quinone and phenolic groups. The interesting developments in alkaptonuria will be to understand how such a polymer can cause such profound collagen and connective tissue damage and how best to reverse this process.

show abstract

Section: Melaninsmentioning

confidence: 99%

The Pigment in Alkaptonuria Relationship to Melanin and Other Coloured Substances: A Review of Metabolism, Composition and Chemical Analysis

et al. 2015

View full text Add to dashboard Cite

show abstract

“…hair graying and whitening so that molecular prediction of gray/white hair is yet impossible. However, preliminary studies in mice, horses, and men [175][176][177] suggest that hair graying/whitening, at least in its early onset form [178], is mainly under genetic control. Future studies may identify molecular predictors for gray/white hair, which in combination with molecular age predictors [179], may be useful for practical FDP applications.…”

Section: Hair Colormentioning

confidence: 99%

Colorful DNA polymorphisms in humans

Liu

Wen

Kayser

2013

Seminars in Cell & Developmental Biology

View full text Add to dashboard Cite

a b s t r a c tIn this review article we summarize current knowledge on how variation on the DNA level influences human pigmentation including color variation of iris, hair, and skin. We review recent progress in the field of human pigmentation genetics by focusing on the genes and DNA polymorphisms discovered to be involved in determining human pigmentation traits, their association with diseases particularly skin cancers, and their power to predict human eye, hair, and skin colors with potential utilization in forensic investigations.

show abstract

“…Melanocytes proximity to blood vessels in some internal locations suggests endocrine function [21]. Prostaglandin D synthetase is expressed in melanocytes but not in other skin cell types.…”

Section: Melaninmentioning

confidence: 99%

Towards a New Ophthalmic Biology and Physiology: The Unsuspected Intrinsic Property of Melanin to Dissociate the Water Molecule

Herrera¹

2017

MOJCSR

View full text Add to dashboard Cite

The development and evolution of eyes is ancient and difficult problem in biology. Darwin postulated a prototype eye which can evolve under natural selection. NeoDarwinists, based in morphological criteria, have postulated a polyphyletic origin that has evolved independently in the various animal phyla. Molecular phylogenetic analyses and developmental genetic experiments, cast serious doubts on both theories. The study of the development of the eye in the amphibian embryo has been a formidable tool research to experimental embryology and evolutionary biology as early as 1901. The embryonic induction, the interactions between different embryonic tissues (organizers); and the role of genes, were conceived as result of reciprocal transplantation experiments.The classical description is that the eye in vertebrates develops from the neural plate, as an evagination from the brain, forming the optic vesicle; which subsequently invaginates to form the optic cup. The inner layer of the optic cup forms the retina with its photoreceptor layers, whereas the outer layer gives rise to the pigment epithelium which absorbs the light in the back of the retina. However, failed to recognize the importance of melanin pigment. The mammalian eye consists of several layers that contain melanin, 40 % more than skin in average. Retinal, Iris and ciliary pigment epithelial cells are derived from neural ectoderm, oppositely, the uveal melanocytes, placed in choroid, iris and ciliary body stroma, are developed from the neural crest. The photo screening protective effects of melanin, the biophysical and biochemical also protective effects and biologic and photo biologic effects; have been extensively studied, but so far, researchers have been considered melanin merely as a sun block with difficult-to-explain properties. Therefore, the unsuspected intrinsic property of melanin to transforms visible and invisible light, into chemical energy, through water dissociation, as chlorophyll in plants, founded in our research facility in 2002 break the ground in regards our concepts about the biology and physiology of the body and therefore the eye. Melanin is a fundamental molecule in bioenergetic pathways, wherever is placed, and the ocular globe is not an exception. Thereby, the main function of melanin in the eye, is chemical energy production through water dissociation, as chlorophyll in plants.

show abstract

Neuroendocrine Functions of Melanocytes: Beyond the Skin-Deep Melanin Maker

Cited by 63 publications

References 172 publications

The Pigment in Alkaptonuria Relationship to Melanin and Other Coloured Substances: A Review of Metabolism, Composition and Chemical Analysis

The Pigment in Alkaptonuria Relationship to Melanin and Other Coloured Substances: A Review of Metabolism, Composition and Chemical Analysis

Colorful DNA polymorphisms in humans

Towards a New Ophthalmic Biology and Physiology: The Unsuspected Intrinsic Property of Melanin to Dissociate the Water Molecule

Contact Info

Product

Resources

About