MoellmannG., SlominskiA., KuklinskaE., LernerA.. Regulation of melanogenesis in melanocytes.Pigment Cell Res1988; supplement 1: 79–87
4.
WickM.M.. Melanin: Structure and properties. In: FitzpatrickT.B., WickM.M., TodaK. eds. Brown melanoderma. Biology and disease of epidermal pigmentation.Tokyo: University of Tokyo Press,1986: 37–45
5.
SeijiM., FukuzawaH., ShimaoK., ItakuraH.. On the melanization process of the melanosomes.Pigment Cell1973; 1: 39–46.
6.
PawelekJ., KornerA.. The biosynthesis of mammalian melanin.Am Sci1982; 70: 136–45
7.
PawelekJ., KornerA., Bergstrom, BologniaJ.. New regulators of melanin biosynthesis and the auto-destruction of melanoma cells.Nature1980; 286: 617–19
8.
MurrayM., PawelekJ., LamoreuxL.. New regulatory factors for melanogenesis: Developmental changes in neonatal mice of various genotypes.Dev Biol1983; 100: 120–6
9.
BarberJ.I., TownsedD., OldsD.P.Dopachrome oxidoreductase: a new enzyme in the pigment pathway.J Invest Dermatol1984; 83: 145–9
10.
LoganA., WeatherheadB.. Post-tyrosinase inhibition of emlanogenesis by melatonin in hair follicles in vitro.J Invest Dermatol1980; 74: 47–50
11.
WeatherheadB., LoganA.. Interaction of α-melanocyte-stimulating hormone, melatonin, cyclic AMP and cyclic GMP in the control of melanogenesis in hair follicle melanocytes in vitro.J Endocrinol1981; 90: 89–96
12.
GuptaD., AttanasioA., ReiterR.J., eds. The pineal gland and cancer.London: Brain Research Promotion, 1988
MoellmannG., Klein-AngererM.T.A., ScollayD.A.Extracellular granular material and degeneration of keratinocytes in the normally pigmented epidermis of patient with vitiligo.J Invest Dermatol1982; 79: 321–30
16.
HalabanR., LangdonR., BirchallN.Basic fibroblast growth factor from human keratinocytes is a natural mitogen for melanocytes.J Cell Biol1988; 107: 1611–19
17.
HatchomeN., AibaS., KatoT.Possible functional impairment of Langerhans’ cells in vitiliginous skin.Arch Dermatol1987; 123: 51–4
18.
NorrisD.A., KissingerR.M., NaughtonG.M., BystrynJ.C.. Evidence for immunologic mechanisms in human vitiligo: patients’ sera induce damage to human melanocytes in vitro by complement-mediated damage and antibody-dependent cellular cytotoxicity.J Invest Dermatol1988; 90: 783–9
19.
LernerA.B., KirkwoodJ.M.. Vitiligo and melanoma: can genetically abnormal melanocytes result in both vitiligo and melanoma within a single family?J Am Acad Dermatol1984; 11: 696–701
20.
LernerA.B., CageG.W.. Melanomas in horses.Yale J Biol Med1973; 46: 646–9
21.
MilikanL.E., HookR.R., ManningP.J.. Gross and ultrastructural studies in a new melanoma model.Yale J Biol Med1973; 46: 631–45
22.
NordlundJ.J.. The pigmentary system: new interpretations of old data.J Dermatol1985; 12: 105–116
23.
LernerA.B.. On the etiology of vitiligo and gray hair.Am J Med1971; 51: 141
24.
SchallreuterK.U., PittelkowM.R., WoodJ.M.. Free radical reduction by thioredoxin reductase at the surface of normal and vitiliginous human keratinocytes.J Invest Dermatol1986; 87: 728–32
25.
HayashibeK., MishimaY., IchihashiM., KawaiM.. Melanosomal antigenic expression on the cell surface and intracellular subunits within melanogenic compartments of pigment cells: analysis by antimelanosome-associated monoclonal antibody.J Invest Dermatol1986; 87: 89–94
26.
BartschC., FlehmingB.. Effect of melatonin on human melanoma cells in vitro.J Neural Transm1986; supplement 21: 490
27.
SovetreE., SalvatiE., BelugouJ.L.5-Methoxypsolaren increases the plasma melatonin levels in humans.J Invest Dermatol1987; 89: 152–5
28.
LernerA.B., ShioharaT., BoissyR.E.A mouse model for vitiligo.J Invest Dermatol1986; 87: 299–304
