SEARCH

SEARCH BY CITATION

References

  • Adema, G.J., de Boer, A.J., van't Hullenaar, R., Denijn, M., Ruiter, D.J., Vogel, A.M., and Figdor, C.G. (1993). Melanocyte lineage-specific antigens recognized by monoclonal antibodies NKI-beteb, HMB-50, and HMB-45 are encoded by a single cDNA. Am. J. Pathol. 143, 15791585.
  • Adema, G.J., de Boer, A.J., Vogel, A.M., Loenen, W.A.M., and Figdor, C.G. (1994). Molecular characterization of the melanocyte lineage-specific antigen gp100. J. Biol. Chem. 269, 2012620133.
  • Badman, M.K., Shennan, K.I., Jermany, J.L., Docherty, K., and Clark, A. (1996). Processing of pro-islet amyloid polypeptide (proIAPP) by the prohormone convertase PC2. FEBS Lett. 378, 227231.
  • Bailin, T., Lee, S.T., and Spritz, R.A. (1996). Genomic organization and sequence of D12S53E (Pmel 17), the human homologue of the mouse silver (si) locus. J. Invest. Dermatol. 106, 2427.
  • Bakker, A.B.H., Schreurs, M.W.J., de Boer, A.J., Kawakami, Y., Rosenberg, S.A., Adema, G.J., and Figdor, C.G. (1994). Melanocyte lineage-specific antigen gp100 is recognized by melanoma-derived tumor-infiltrating lymphocytes. J. Exp. Med. 179, 10051009.
  • Barnard, M., and Lajoie, G. (2001). Angiomyolipoma: immunohistochemical and ultrastructural study of 14 cases. Ultrastruct. Pathol. 25, 2129.
  • Basrur, V., Yang, F., Kushimoto, T. et al. (2003). Proteomic analysis of early melanosomes: identification of novel melanosomal proteins. J. Proteome Res. 2, 6979.
  • Baxter, L.L., and Pavan, W.J. (2003). Pmel17 expression is Mitf-dependent and reveals cranial melanoblast migration during murine development. Gene Expr. Patterns 3, 703707.
  • Bennett, D.C., and Lamoreux, M.L. (2003). The color loci of mice – a genetic century. Pigment Cell Res. 16, 333344.
  • Berson, J.F., Harper, D., Tenza, D., Raposo, G., and Marks, M.S. (2001). Pmel17 initiates premelanosome morphogenesis within multivesicular bodies. Mol. Biol. Cell. 12, 34513464.
  • Berson, J.F., Theos, A.C., Harper, D.C., Tenza, D., Raposo, G., and Marks, M.S. (2003). Proprotein convertase cleavage liberates a fibrillogenic fragment of a resident glycoprotein to initiate melanosome biogenesis. J. Cell Biol. 161, 521533.
  • Boissy, R.E. (2003). Melanosome transfer to and translocation in the keratinocyte. Exp. Dermatol. 12, 512.
  • Brouwenstijn, N., Slager, E.H., Bakker, A.B., Schreurs, M.W., Van der Spek, C.W., Adema, G.J., Schrier, P.I., and Figdor, C.G. (1997). Transcription of the gene encoding melanoma-associated antigen gp100 in tissues and cell lines other than those of the melanocytic lineage. Br. J. Cancer 76, 15621566.
  • Bycroft, M., Bateman, A., Clarke, J., Hamill, S.J., Sandford, R., Thomas, R.L., and Chothia, C. (1999). The structure of a PKD domain from polycystin-1: implications for polycystic kidney disease. EMBO J. 18, 297305.
  • Calvo, P.A., Frank, D.W., Bieler, B.M., Berson, J.F., and Marks, M.S. (1999). A cytoplasmic sequence in human tyrosinase defines a second class of di-leucine-based sorting signals for late endosomal and lysosomal delivery. J. Biol. Chem. 274, 1278012789.
  • Chakraborty, A.K., Platt, J.T., Kim, K.K., Kwon, B.S., Bennett, D.C., and Pawelek, J.M. (1996). Polymerization of 5,6-dihydroxyindole-2-carboxylic acid to melanin by the pmel 17/silver locus protein. Eur. J. Biochem. 236, 180188.
  • Chen, C.-D., Huff, M.E., Matteson, J., Page, L.J., Phillips, R., Kelly, J.W., and Balch, W.E. (2001). Furin initiates gelsolin familial amyloidosis in the Golgi through a defect in Ca2+ stabilization. EMBO J. 20, 62776287.
  • Chiamenti, A.M., Vella, F., Bonetti, F., Pea, M., Ferrari, S., Martignoni, G., Benedetti, A., and Suzuki, H. (1996). Anti-melanoma monoclonal antibody HMB-45 on enhanced chemiluminescence-western blotting recognizes a 30–35 kDa melanosome-associated sialated glycoprotein. Melanoma Res. 6, 291298.
  • Cormier, J.N., Abati, A., Fetsch, P., Hijazi, Y.M., Rosenberg, S.A., Marincola, F.M., and Topalian, S.L. (1998a). Comparative analysis of the in vivo expression of tyrosinase, MART-1/Melan-A, and gp100 in metastatic melanoma lesions: implications for immunotherapy. J. Immunother. 21, 2731.
  • Cormier, J.N., Hijazi, Y.M., Abati, A., Fetsch, P., Bettinotti, M., Steinberg, S.M., Rosenberg, S.A., and Marincola, F.M. (1998b). Heterogeneous expression of melanoma-associated antigens and HLA-A2 in metastatic melanoma in vivo. Int. J. Cancer 75, 517524.
  • Dobson, C.M. (2003). Protein folding and misfolding. Nature 426, 884890.
  • Donatien, P.D., and Orlow, S.J. (1995). Interaction of melanosomal proteins with melanin. Eur. J. Biochem. 232, 159164.
  • Du, J., Miller, A.J., Widlund, H.R., Horstmann, M.A., Ramaswamy, S., and Fisher, D.E. (2003). MLANA/MART1 and SILV/PMEL17/GP100 are transcriptionally regulated by MITF in melanocytes and melanoma. Am. J. Pathol. 163, 333343.
  • Dunn, L.C., and Thigpen, L.W. (1930). The silver mouse: a recessive color variation. J. Heredity 21, 495498.
  • Ehehalt, R., Keller, P., Haass, C., Thiele, C., and Simons, K. (2003). Amyloidogenic processing of the Alzheimer b-amyloid precursor protein depends on lipid rafts. J. Cell Biol. 160, 113123.
  • Février, B., and Raposo, G. (2004). Exosomes: endosomal-derived vesicles shipping extracellular messages. Curr. Opin. Cell Biol. 16, 415421.
  • Février, B., Vilette, D., Archer, F., Loew, D., Faigle, W., Vidal, M., Laude, H., and Raposo, G. (2004). Cells release prions in association with exosomes. Proc. Natl. Acad. Sci. USA 101, 96839688.
  • Folpe, A.L., Goodman, Z.D., Ishak, K.G., Paulino, A.F., Taboada, E.M., Meehan, S.A., and Weiss, S.W. (2000). Clear cell myomelanocytic tumor of the falciform ligament/ligamentum teres: a novel member of the perivascular epithelioid clear cell family of tumors with a predilection for children and young adults. Am. J. Surg. Pathol. 24, 12391246.
  • Furumura, M., Sakai, C., Potterf, S.B., Vieira, W.D., Barsh, G.S., and Hearing, V.J. (1998). Characterization of genes modulated during pheomelanogenesis using differential display. Proc. Natl. Acad. Sci. USA 95, 73747378.
  • Geuze, H.J., and Morre, D.J. (1991). Trans-Golgi reticulum. J. Electron Microsc. Tech. 17, 2434.
  • Gown, A.M., Vogel, A.M., Hoak, D., Gough, F., and McNutt, M.A. (1986). Monoclonal antibodies specific for melanocytic tumors distinguish subpopulations of melanocytes. Am. J. Pathol. 123, 195203.
  • Gruenberg, J. (2001). The endocytic pathway: a mosaic of domains. Nat. Rev. Mol. Cell Biol. 2, 721730.
  • Gruenberg, J., and Stenmark, H. (2004). The biogenesis of multivesicular endosomes. Nat. Rev. Mol. Cell Biol. 5, 317323.
  • Halder, T., Pawelec, G., Kirkin, A.F., Zeuthen, J., Meyer, H.E., Kun, L., and Kalbacher, H. (1997). Isolation of novel HLA-DR restricted potential tumor-associated antigens from the melanoma cell line FM3. Cancer Res. 57, 32383244.
  • Hearing, V.J. (2000). The melanosome: the perfect model for cellular responses to the environment. Pigment Cell Res. 13, 2334.
  • Hearing, V.J., Phillips, P., and Lutzner, M.A. (1973). The fine structure of melanogenesis in coat color mutants of the mouse. J. Ultrastruct. Res. 43, 88106.
  • Heijnen, H.F., Debili, N., Vainchencker, W., Breton-Gorius, J., Geuze, H.J., and Sixma, J.J. (1998). Multivesicular bodies are an intermediate stage in the formation of platelet alpha-granules. Blood 91, 23132325.
  • Hoashi, T., Watabe, H., Muller, J., Yamaguchi, Y., Vieira, W.D., and Hearing, V.J. (2005). MART-1 is required for the function of the melanosomal matrix protein PMEL17/GP100 and the maturation of melanosomes. J. Biol. Chem. 280, 1400614016.
  • Höning, S., Sandoval, I.V., and von Figura, K. (1998). A di-leucine-based motif in the cytoplasmic tail of LIMP-II and tyrosinase mediates selective binding of AP-3. EMBO J. 17, 13041314.
  • Huff, M.E., Balch, W.E., and Kelly, J.W. (2003). Pathological and functional amyloid formation orchestrated by the secretory pathway. Curr. Opin. Struct. Biol. 13, 674682.
  • Jimbow, K., Oikawa, O., Sugiyama, S., and Takeuchi, T. (1979). Comparison of eumelanogenesis in retinal and follicular melanocytes; role of vesiculo-globular bodies in melanosome differentiation. J. Invest. Dermatol. 73, 278284.
  • Jimenez-Cervantes, C., Martinez-Esparza, M., Perez, C., Daum, N., Solano, F., and Garcia-Borron, J.C. (2001). Inhibition of melanogenesis in response to oxidative stress: transient downregulation of melanocyte differentiation markers and possible involvement of microphthalmia transcription factor. J. Cell Sci. 114, 23352344.
  • Kapur, R.P., Bigler, S.A., Skelly, M., and Gown, A.M. (1992). Anti-melanoma monoclonal antibody HMB45 identifies an oncofetal glycoconjugate associated with immature melanosomes. J. Histochem. Cytochem. 40, 207212.
  • Kawakami, Y., Eliyahu, S., Delgado, C.H., Robbins, P.F., Sakaguchi, K., Appella, E., Yannelli, J.R., Adema, G.J., Miki, T., and Rosenberg, S.A. (1994). Identification of a human melanoma antigen recognized by tumor-infiltrating lymphocytes associated with in vivo tumor rejection. Proc. Natl. Acad. Sci. USA 91, 64586462.
  • Kawakami, Y., Eliyahu, S., Jennings, C., Sakaguchi, K., Kang, X., Southwood, S., Robbins, P.F., Sette, A., Appella, E., and Rosenberg, S.A. (1995). Recognition of multiple epitopes in the human melanoma antigen gp100 by tumor-infiltrating T lymphocytes associated with in vivo tumor regression. J. Immunol. 154, 39613968.
  • Keeling, L., Andersson, L., Schutz, K.E., Kerje, S., Fredriksson, R., Carlborg, O., Cornwallis, C.K., Pizzari, T., and Jensen, P. (2004). Feather-pecking and victim pigmentation. Nature 431, 645646.
  • Kelly, J.W., and Balch, W.E. (2003). Amyloid as a natural product. J. Cell Biol. 161, 461462.
  • Kerje, S., Sharma, P., Gunnarsson, U. et al. (2004). The Dominant white, Dun and Smoky color variants in chicken are associated with insertion deletion polymorphisms in the PMEL17 gene. Genetics 168, 15071518.
  • Kim, R.Y., and Wistow, G.J. (1992). The cDNA RPE1 and monoclonal antibody HMB-50 define gene products preferentially expressed in retinal pigment epithelium. Exp. Eye Res. 55, 657662.
  • Kim, K.K., Youn, B.S., Heng, H.H., Shi, X.M., Tsui, L.C., Lee, Z.H., Pickard, R.T., and Kwon, B.S. (1996). Genomic organization and FISH mapping of human Pmel 17, the putative silver locus. Pigment Cell Res. 9, 4248.
  • Kim, S.H., Wang, R., Gordon, D.J., Bass, J., Steiner, D.F., Lynn, D.G., Thinakaran, G., Meredith, S.C., and Sisodia, S.S. (1999). Furin mediates enhanced production of fibrillogenic ABri peptides in familial British dementia. Nat. Neurosci. 2, 984988.
  • Kobayashi, T., Urabe, K., Orlow, S.J., Higashi, K., Imokawa, G., Kwon, B.S., Potterf, B., and Hearing, V.J. (1994). The Pmel 17/silver locus protein. Characterization and investigation of its melanogenic function. J. Biol. Chem. 269, 2919829205.
  • Kobayashi, T., Vieira, W.D., Potterf, B., Sakai, C., Imokawa, G., and Hearing, V.J. (1995). Modulation of melanogenic protein expression during the switch from eu- to pheomelanogenesis. J. Cell Sci. 108, 23012309.
  • Kobayashi, T., Vischer, U.M., Rosnoblet, C., Lebrand, C., Lindsay, M., Parton, R.G., Kruithof, E.K., and Gruenberg, J. (2000). The tetraspanin CD63/lamp3 cycles between endocytic and secretory compartments in human endothelial cells. Mol. Biol. Cell. 11, 18291843.
  • Kornfeld, R., and Kornfeld, S. (1985). Assembly of asparagine-linked oligosaccharides. Annu. Rev. Biochem. 54, 631664.
  • Kubota, R., Wang, Y., Minoshima, S., Kudoh, J., Mashima, Y., Oguchi, Y., and Shimizu, N. (1995). Mapping of the human gene for a melanocyte protein Pmel 17 (D12S53E) to chromosome 12q13-q14. Genomics 26, 430431.
  • Kushimoto, T., Basrur, V., Valencia, J., Matsunaga, J., Vieira, W.D., Ferrans, V.J., Muller, J., Appella, E., and Hearing, V.J. (2001). A model for melanosome biogenesis based on the purification and analysis of early melanosomes. Proc. Natl. Acad. Sci. USA 98, 1069810703.
  • Kwon, B.S. (1993). Pigmentation genes: the tyrosinase gene family and the pmel 17 gene family. J. Invest. Dermatol. 100, 134S140S.
  • Kwon, B.S., Haq, A.K., Pomerantz, S.H., and Halaban, R. (1987a). Isolation and sequence of a cDNA clone for human tyrosinase that maps at the mouse c-albino locus. Proc. Natl. Acad. Sci. USA 84, 74737477.
  • Kwon, B.S., Halaban, R., Kim, G.S., Usack, L., Pomerantz, S., and Haq, A.K. (1987b). A melanocyte-specific complementary DNA clone whose expression is inducible by melanotropin and isobutylmethyl xanthine. Mol. Biol. Med. 4, 339355.
  • Kwon, B.S., Chintamaneni, C., Kozak, C.A., Copeland, N.G., Gilbert, D.J., Jenkins, N., Barton, D., Francke, U., Kobayashi, Y., and Kim, K.K. (1991). A melanocyte-specific gene, Pmel 17, maps near the silver coat color locus on mouse chromosome 10 and is in a syntenic region on human chromosome 12. Proc. Natl. Acad. Sci. USA 88, 92289232.
  • Kwon, B.S., Halaban, R., Ponnazhagan, S., Kim, K., Chintamaneni, C., Bennett, D., and Pickard, R.T. (1995). Mouse silver mutation is caused by a single base insertion in the putative cytoplasmic domain of Pmel 17. Nucleic Acids Res. 23, 154158.
  • Lantuejoul, S., Ferretti, G., Negoescu, A., Parent, B., and Brambilla, E. (1997). Multifocal alveolar hyperplasia associated with lymphangioleiomyomatosis in tuberous sclerosis. Histopathology 30, 570575.
  • Le Poole, I.C., Riker, A.I., Quevedo, M.E., Stennett, L.S., Wang, E., Marincola, F.M., Kast, W.M., Robinson, J.K., and Nickoloff, B.J. (2002). Interferon-gamma reduces melanosomal antigen expression and recognition of melanoma cells by cytotoxic T cells. Am. J. Pathol. 160, 521528.
  • Lee, Z.H., Hou, L., Moellmann, G., Kuklinska, E., Antol, K., Fraser, M., Halaban, R., and Kwon, B.S. (1996). Characterization and subcellular localization of human Pmel 17/silver, a 100-kDa (pre)melanosomal membrane protein associated with 5,6,-dihydroxyindole-2-carboxylic acid (DHICA) converting activity. J. Invest. Dermatol. 106, 605610.
  • Lévy, F., Muehlethaler, K., Salvi, S., Peitrequin, A.-L., Lindholm, C.K., Cerottini, J.-C., and Rimoldi, D. (2005). Ubiquitylation of a melanosomal protein by HECT-E3 ligases serves as sorting signal for lysosomal degradation. Mol. Biol. Cell. 16, 17771787.
  • Luyten, G.P., van der Spek, C.W., Brand, I., Sintnicolaas, K., de Waard-Siebinga, I., Jager, M.J., de Jong, P.T., Schrier, P.I., and Luider, T.M. (1998). Expression of MAGE, gp100 and tyrosinase genes in uveal melanoma cell lines. Melanoma Res. 8, 1116.
  • Magnusson, S., Sottrup-Jensen, L., Petersen, T.E., and Claeys, H. (1975). The primary structure of prothrombin, the role of vitamin K in blood coagulation and a thrombin catalyzed ‘‘negative feed-back“ control mechanism for limiting the activation of prothrombin. In Prothrombin and Related Coagulation Factors, H.C.Hemker, and J.Veltkamp, eds (Leiden, Holland: Universitaire Pers), pp. 2546.
  • Maresh, G.A., Marken, J.S., Neubauer, M., Aruffo, A., Hellström, I., Hellström, K.E., and Marquardt, H. (1994a). Cloning and expression of the gene for the melanoma-associated ME20 antigen. DNA Cell. Biol. 13, 8795.
  • Maresh, G.A., Wang, W.-C., Beam, K.S., Malacko, A.R., Hellström, I., Hellström, K.E., and Marquardt, H. (1994b). Differential processing and secretion of the melanoma-associated ME20 antigen. Arch. Biochem. Biophys. 311, 95102.
  • Marks, M.S., and Seabra, M.C. (2001). The melanosome: membrane dynamics in black and white. Nat. Rev. Mol. Cell Biol. 2, 738748.
  • Martínez-Esparza, M., Jiménez-Cervantes, C., Bennett, D.C., Lozano, J.A., Solano, F., and García-Borrón, J.C. (1999). The mouse silver locus encodes a single transcript truncated by the silver mutation. Mamm. Genome 10, 11681171.
  • Martinez-Esparza, M., Jimenez-Cervantes, C., Solano, F., Lozano, J.A., and Garcia-Borron, J.C. (2000). Regulation of the murine silver locus product (gp87) by the hypopigmenting cytokines TGF-b1 and TNF-a. Pigment Cell Res. 13, 120126.
  • Maul, G.G. (1969). Golgi-melanosome relationship in human melanoma in vitro. J. Ultrastruct. Res. 26, 163176.
  • Mayer, R.J., Tipler, C., Arnold, J., Laszlo, L., Al-Khedhairy, A., Lowe, J., and Landon, M. (1996). Endosome-lysosomes, ubiquitin and neurodegeneration. Adv. Exp. Med. Biol. 389, 261269.
  • de Mazière, A.M., Muehlethaler, K., van Donselaar, E., Salvi, S., Davoust, J., Cerottini, J.-C., Lèvy, F., Slot, J.W., and Rimoldi, D. (2002). The melanocytic protein melan-A/MART-1 has a subcellular localization distinct from typical melanosomal proteins. Traffic 3, 678693.
  • Mobius, W., Ohno-Iwashita, Y., van Donselaar, E.G., Oorschot, V.M., Shimada, Y., Fujimoto, T., Heijnen, H.F., Geuze, H.J., and Slot, J.W. (2002). Immunoelectron microscopic localization of cholesterol using biotinylated and non-cytolytic perfringolysin O. J. Histochem. Cytochem. 50, 4355.
  • Mochii, M., Takeuchi, T., Kodama, R., Agata, K., and Eguchi, G. (1988). The expression of melanosomal matrix protein in the transdifferentiation of pigmented epithelial cells into lens cells. Cell Differ. 23, 133142.
  • Mochii, M., Agata, K., and Eguchi, G. (1991). Complete sequence and expression of a cDNA encoding a chicken 115-kDa melanosomal matrix protein. Pigment Cell Res. 4, 4147.
  • Moyer, F.H. (1966). Genetic variations in the fine structure and ontogeny of mouse melanin granules. Am. Zool. 6, 4366.
  • Nichols, S.E., Harper, D.C., Berson, J.F., and Marks, M.S. (2003). A novel splice variant of Pmel17 expressed by human melanocytes and melanoma cells lacking some of the internal repeats. J. Invest. Dermatol. 121, 821830.
  • Orlow, S.J. (1995). Melanosomes are specialized members of the lysosomal lineage of organelles. J. Invest. Dermatol. 105, 37.
  • Orlow, S.J., Zhou, B.-K., Boissy, R.E., and Pifko-Hirst, S. (1993). Identification of a mammalian melanosomal matrix glycoprotein. J. Invest. Dermatol. 101, 141144.
  • Owen, T.A., Smock, S.L., Prakash, S. et al. (2003). Identification and characterization of the genes encoding human and mouse osteoactivin. Crit. Rev. Eukaryot. Gene Expr. 13, 205220.
  • Peters, P.J., Neefjes, J.J., Oorschot, V., Ploegh, H.L., and Geuze, H.J. (1991a). Segregation of MHC class II molecules from MHC class I molecules in the Golgi complex for transport to lysosomal compartments. Nature 349, 669676.
  • Peters, P.J., Borst, J., Oorschot, V., Fukuda, M., Krähenbühl, O., Tschopp, J., Slot, J.W., and Geuze, H.J. (1991b). Cytotoxic T lymphocyte granules are secretory lysosomes, containing both perforin and granzymes. J. Exp. Med. 173, 10991109.
  • Peters, P.J., Raposo, G., Neefjes, J.J., Oorschot, V., Leijendekker, R.L., Geuze, H.J., and Ploegh, H.L. (1995). Major histocompatibility complex class II compartments in human B lymphoblastoid cells are distinct from early endosomes. J. Exp. Med. 182, 325334.
  • Peters, E.M.J., Tobin, D.J., Seidah, N.G., and Schallreuter, K.U. (2000). Pro-opiomelanocortin-related peptides, prohormone convertases 1 and 2 and the regulatory peptide 7B2 are present in melanosomes of human melanocytes. J. Invest. Dermatol. 114, 430437.
  • Quevedo, W.C., Fleischmann, R.D., and Dyckman, J. (1981). Premature loss of melanocytes from hair follicles of light (Blt) and silver (si) mice. In Phenotypic Expression in Pigment Cells, M.Seiji, ed. (Tokyo: Tokyo University Press), pp. 177184.
  • Raiborg, C., Rusten, T.E., and Stenmark, H. (2003). Protein sorting into multivesicular endosomes. Curr. Opin. Cell Biol. 15, 446455.
  • Raposo, G., and Marks, M.S. (2002). The dark side of lysosome-related organelles: specialization of the endocytic pathway for melanosome biogenesis. Traffic 3, 237248.
  • Raposo, G., Tenza, D., Murphy, D.M., Berson, J.F., and Marks, M.S. (2001). Distinct protein sorting and localization to premelanosomes, melanosomes, and lysosomes in pigmented melanocytic cells. J. Cell Biol. 152, 809823.
  • Rieder, S., Stricker, C., Joerg, H., Dummer, R., and Stranzinger, G. (2000). A comparative genetic approach for the investigation of ageing grey horse melanoma. J. Anim. Breed. Genet. 117, 7382.
  • Rimoldi, D., Muehlethaler, K., Salvi, S., Valmori, D., Romero, P., Cerottini, J.-C., and Lévy, F. (2001). Subcellular localization of the melanoma-associated protein melan-A/MART-1 influences the processing of its HLA-A2-restricted epitope. J. Biol. Chem. 276, 4318943196.
  • Safadi, F.F., Xu, J., Smock, S.L., Rico, M.C., Owen, T.A., and Popoff, S.N. (2001). Cloning and characterization of osteoactivin, a novel cDNA expressed in osteoblasts. J. Cell. Biochem. 84, 1226.
  • Schraermeyer, U., Peters, S., Thumann, G., Kociok, N., and Heimann, K. (1999). Melanin granules of retinal pigment epithelium are connected with the lysosomal degradation pathway. Exp. Eye Res. 68, 237245.
  • Seiji, M., Fitzpatrick, T.B., and Birbeck, M.S.C. (1961). The melanosome: a distinctive subcellular particle of mammalian melanocytes and the site of melanogenesis. J. Invest. Dermatol. 36, 243252.
  • Seiji, M., Fitzpatrick, T.M., Simpson, R.T., and Birbeck, M.S.C. (1963). Chemical composition and terminology of specialized organelles (melanosomes and melanin granules) in mammalian melanocytes. Nature 197, 10821084.
  • Selkoe, D.J. (2003). Folding proteins in fatal ways. Nature 426, 900904.
  • Shikano, S., Bonkobara, M., Zukas, P.K., and Ariizumi, K. (2001). Molecular cloning of a dendritic cell-associated transmembrane protein, DC-HIL, that promotes RGD-dependent adhesion of endothelial cells through recognition of heparan sulfate proteoglycans. J. Biol. Chem. 276, 81258134.
  • Silvers, W.K. (1979). The Coat Colors of Mice. A Model for Mammalian Gene Action and Interaction (New York, NY: Springer-Verlag), p. 379.
  • Simmen, T., Schmidt, A., Hunziker, W., and Beermann, F. (1999). The tyrosinase tail mediates sorting to the lysosomal compartment in MDCK cells via a di-leucine and a tyrosine-based signal. J. Cell Sci. 112, 4553.
  • Solano, F., Martinez-Esparza, M., Jimenez-Cervantes, C., Hill, S.P., Lozano, J.A., and Garcia-Borron, J.C. (2000). New insights on the structure of the mouse silver locus and on the function of the silver protein. Pigment Cell Res. 13, 118124.
  • Sottrup-Jensen, L., Zajdel, M., Claeys, H., Petersen, T.E., and Magnusson, S. (1975). Amino-acid sequence of activation cleavage site in plasminogen: homology with ‘‘pro” part of prothrombin. Proc. Natl. Acad. Sci. USA 72, 25772581.
  • Spanakis, E., Lamina, P., and Bennett, D.C. (1992). Effects of the developmental colour mutations silver and recessive spotting on proliferation of diploid and immortal mouse melanocytes in culture. Development 114, 675680.
  • Steiner, D.F. (1998). The proprotein convertases. Curr. Opin. Chem. Biol. 2, 3139.
  • Taraboulos, A., Scott, M., Semenov, A., Avrahami, D., Laszlo, L., Prusiner, S.B., and Avrahami, D. (1995). Cholesterol depletion and modification of COOH-terminal targeting sequence of the prion protein inhibit formation of the scrapie isoform. J. Cell Biol. 129, 121132.
  • Tarentino, A.L., Plummer, T.H. Jr and Maley, F. (1974). The release of intact oligosaccharides from specific glycoproteins by endo-b-N-acetylglucosaminidase H. J. Biol. Chem. 249, 818824.
  • Thomson, W., and MacKie, R.M. (1989). Comparison of five antimelanoma antibodies for identification of melanocytic cells on tissue sections in routine dermatopathology. J. Am. Acad. Dermatol. 21, 12801284.
  • Tooze, J., and Hollinshead, M. (1991). Tubular early endosomal networks in AtT20 and other cells. J. Cell Biol. 115, 635653.
  • Turner, W.A. Jr, Taylor, J.D., and Tchen, T.T. (1975). Melanosome formation in the goldfish: the role of multivesicular bodies. J. Ultrastruct. Res. 51, 1631.
  • Turque, N., Denhez, F., Martin, P., Planque, N., Bailly, M., Begue, A., Stehelin, D., and Saule, S. (1996). Characterization of a new melanocyte-specific gene (QNR-71) expressed in v-myc-transformed quail neuroretina. EMBO J. 15, 33383350.
  • Van den Steen, P., Rudd, P.M., Dwek, R.A., and Opdenakker, G. (1998). Concepts and principles of O-linked glycosylation. Crit. Rev. Biochem. Mol. Biol. 33, 151208.
  • Vennegoor, C., Hageman, P., van Nouhuijs, H., Ruiter, D.J., Calafat, J., Ringens, P.J., and Rümke, P. (1988). A monoclonal antibody specific for cells of the melanocytic lineage. Am. J. Pathol. 130, 179192.
  • Vijayasaradhi, S., Xu, Y.Q., Bouchard, B., and Houghton, A.N. (1995). Intracellular sorting and targeting of melanosomal membrane proteins: identification of signals for sorting of the human brown locus protein, gp75 J. Cell Biol. 130, 807820.
  • Vogel, A.M., and Esclamado, R.M. (1988). Identification of a secreted Mr 95 000 glycoprotein in human melanocytes and melanomas by a melanocyte specific monoclonal antibody. Cancer Res. 48, 12861294.
  • de Vries, T.J., Fourkour, A., Wobbes, T., Verkroost, G., Ruiter, D.J., and van Muijen, G.N. (1997). Heterogeneous expression of immunotherapy candidate proteins gp100, MART-1, and tyrosinase in human melanoma cell lines and in human melanocytic lesions. Cancer Res. 57, 32233229.
  • de Vries, T.J., Trancikova, D., Ruiter, D.J., and van Muijen, G.N. (1998). High expression of immunotherapy candidate proteins gp100, MART-1, tyrosinase and TRP-1 in uveal melanoma. Br. J. Cancer 78, 11561161.
  • Weterman, M.A., Ajubi, N., van Dinter, I.M., Degen, W.G., van Muijen, G.N., Ruitter, D.J., and Bloemers, H.P. (1995). Nmb, a novel gene, is expressed in low-metastatic human melanoma cell lines and xenografts. Int. J. Cancer 60, 7381.
  • Wolfers, J., Lozier, A., Raposo, G. et al. (2001). Tumor-derived exosomes are a source of shared tumor rejection antigens for CTL cross-priming. Nat. Med. 7, 297303.
  • Wubbolts, R.W., Leckie, R.S., Veenhuizen, P.T., Schwartzmann, G., Möbius, W., Hoernschemeyer, J., Slot, J.W., Geuze, H.J., and Stoorvogel, W. (2003). Proteomic and biochemical analyses of human B cell-derived exosomes: potential implications for their function and multivesicular body formation. J. Biol. Chem. 278, 1096310972.
  • Yamasaki, S., Tanaka, S., Fujii, H., Matsumoto, T., Okuda, C., Watanabe, G., and Suda, K. (2000). Monotypic epithelioid angiomyolipoma of the liver. Histopathology 36, 451456.
  • Yasumoto, K., Watabe, H., Valencia, J.C., Kushimoto, T., Kobayashi, T., Appella, E., and Hearing, V.J. (2004). Epitope mapping of the melanosomal matrix protein gp100 (PMEL17): rapid processing in the endoplasmic reticulum and glycosylation in the early Golgi compartment. J. Biol. Chem. 279, 2833028338.
  • Youssefian, T., and Cramer, E.M. (2000). Megakaryocyte dense granule components are sorted in multivesicular bodies. Blood 95, 40044007.
  • Yu, Z., and Restifo, N.P. (2002). Cancer vaccines: progress reveals new complexities. J. Clin. Invest. 110, 289294.
  • Zhou, B.K., Kobayashi, T., Donatien, P.D., Bennett, D.C., Hearing, V.J., and Orlow, S.J. (1994). Identification of a melanosomal matrix protein encoded by the murine si (silver) locus using ‘‘organelle scanning“. Proc. Natl. Acad. Sci. USA 91, 70767080.
  • Zou, W.-Q., and Cashman, N.R. (2002). Acidic pH and detergents enhance in vitro conversion of human brain PrPC to a PrPSc-like form. J. Biol. Chem. 277, 4394243947.