Retinoic acid promotes differentiation of photoreceptors in vitro

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Akagawa, K (1990). Presence of light-responding neurons in the reaggregate cultures of rat retinae. Brain Res. Dev. Brain Res 57, 143-145.[Medline]

Altshuler, D. M. and Cepko, C. L (1992). A temporally regulated, diffusible activity is required for rod photoreceptor development in vitro. Development 114, 947-957.[Abstract]

Altshuler, D. M., Lo Turco, J. J., Rush, J. and Cepko, C (1993). Taurine promotes the differentiation of a vertebrate retinal cell type in vitro. Development 119, 1317-1328.[Abstract]

Anchan, R., Reh, T. A., Angello, J., Balliet, A. and Walker, M (1991). EGF and TGFstimulate retinal neuroepithelial cell proliferation in vitro. Neuron 6, 1-20.[Medline]

Balkan, W., Colbert, M., Bock, C. and Linney, E (1992). Transgenic indicator mice for studying activated retinoic acid receptors during development. Proc. Natl. Acad. Sci. USA 89, 3347-3351.[Abstract/Free Full Text]

Barnstable, C. J., Hofstein, R. and Akagawa, K (1985). A marker of early amacrine cell development in rat retina. Brain Res 352, 286-290.[Medline]

Carter-Dawson, L. D. and LaVail, M. M (1979). Rods and cones in the mouse retina. II. Autoradiographic analysis of cell generation using tritiated thymidine. J. Comp. Neurol 188, 263-272.[Medline]

Dizhoor, A. M., Ray, S., Kumar, S., Niemi, G., Spencer, M., Brolley, D., Walsh, K. A., Philipov, P. P., Hurley, J. B. and Stryer, L (1991). Recoverin: a calcium sensitive activator of retinal rod guanylate cyclase. Science 251, 915-918.[Abstract/Free Full Text]

Dodd, J., Morton, S. B., Karagogeos, D., Yamamoto, M. and Jessell, T. M (1988). Spatial regulation of axonal glycoprotein expression on subsets of embryonic spinal neurons. Neuron 1, 105-16.[Medline]

Durston, A. J., Timmermans, J. P. M., Hage, W. J., Hendriks, H. F. J., de Vries, N. J., Heideveld, M. and Nieuwkoop, P. D (1989). Retinoic acid causes an anteroposterior transformation in the developing central nervous system. Nature 340, 140-144.[Medline]

Gaur, V. P., De Leeuw, A. M., Milam, A. H. and Saari, J. C (1990). Localization of cellular retinoic acid-binding protein to amacrine cells of rat retina. Exp. Eye Res 50, 505-511.[Medline]

Harris, W. A. and Messersmith, S. L (1992). Two cellular inductions involved in photoreceptor determination in the Xenopus retina. Neuron 9, 357-372.[Medline]

Hayes, K. C., Carey, R. E. and Schmidt, S. Y (1975). Retinal degeneration associated with taurine deficiency in the cat. Science 188, 949-951.[Abstract/Free Full Text]

Heyman, R. A., Mangelsdorf, D. J., Dyck, J. A., Stein, R. B., Eichele, G., Evans, R. M. and Thaller, C (1992). 9-cis retinoic acid is a high affinity ligand for the retinoid X receptor. Cell 68, 397-406.[Medline]

Hicks, D. and Courtois, Y (1992). Fibroblast growth factor stimulates photoreceptor differentiation in vitro. J. Neuroscience 12, 2022-2033.[Abstract]

Hinds, J. W. and Hinds, P. L (1978). Early development of amacrine cells in the mouse retina: an electron microscopic, serial section analysis. J. Comp. Neurol 179, 277-300.[Medline]

Hinds, J. W. and Hinds, P. L (1979). Differentiation of photoreceptors and horizontal cells in the embryonic mouse retina: an electron microscopic, serial section analysis. J. Comp. Neurol 187, 495-512.[Medline]

Hockfield, S. and McKay, R. D (1985). Identification of major cell classes in the developing mammalian nervous system. J. Neurosci 5, 3310-3328.[Abstract]

Hyatt, G. A., Schmitt, E. A., Marsh-Armstrong, N. R. and Dowling, J. E (1992). Retinoic acid-induced duplication of the zebrafish retina. Proc. Natl. Acad. Sci. USA 89, 8293-8297.[Abstract/Free Full Text]

Kelley, M. W., Xu, X.-M., Wagner, M. A., Warchol, M. E. and Corwin, J. T (1993). The developing organ of Corti contains retinoic acid and forms supernumerary hair cells in response to exogenous retinoic acid in culture. Development 119, 1041-1053.[Abstract]

Kljavin, I. J. and Reh, T. A (1991). Muller cells are a preferred substrate for in vitro neurite extension by rod photoreceptors. J. Neurosci 11, 2985-2994.[Abstract]

LaVail, M. M., Rapaport, D. H. and Rakic, P (1991). Cytogenesis in the monkey retina. J. Comp. Neurol 309, 86-114.[Medline]

Lendahl, U., Zimmerman, L. B. and McKay, R. D (1990). CNS stem cells express a new class of intermediate filament protein. Cell 60, 585-595.[Medline]

Lillien, L. and Cepko, C (1992). Control of proliferation in the retina, temporal changes in responsiveness to FGF and TGF alpha. Development 115, 253-66.[Abstract]

Lombardini, J. B (1991). Taurine: retinal function. Brain Res. Rev 16, 151-169.

McCaffery, P., Lee, M. O., Wagner, M. A., Sladek, N. E. and Drager, U. C (1992). Asymmetrical retinoic acid synthesis in the dorsoventral axis of the retina. Development 115, 371-382.[Abstract]

McCaffery, P., Posch, K. C., Napoli, J. L. Gudas, L. and Drager, U. C (1993). Changing patterns of the retinoic acid system in developing retina. Dev. Biol 158, 390-399.[Medline]

McCaffery, P., Tempst, P. Lara, G. and Drager, U. C (1991). Aldehyde dehydrogenase is a positional marker in the retina. Development 112, 693-702.[Abstract]

Mangelsdorf, D. J., Borgmeyer, U., Heyman, R. A., Zhou, J. Y., Ong, E. S., Oro, A. E., Kakizuka, A. and Evans, R. M (1992). Characterization of three RXR genes that mediate the action of 9-cis retinoic acid. Genes Dev 6, 329-344.[Abstract/Free Full Text]

Manns, M. and Fritzsch, B (1991). The eye in the brain: retinoic acid effects morphogenesis of the eye and pathway selection of axons but not the differentiation of the retina in Xenopus laevis. Neurosci. Letters 127, 150-154.[Medline]

Milam, A. H., Dacey, D. M. and Dizhoor, A. M (1993). Recoverin immunoreactivity in mammalian cone bipolar cells. Vis. Neurosci 10, 1-12.[Medline]

Mlodzik, M., Hiromi, Y., Weber, U., Goodman, C. S. and Rubin, G (1990). The Drosophila seven-up gene, a member of the steroid receptor gene superfamily, controls photoreceptor cell fate. Cell 60, 211-224.[Medline]

Negishi, K., Teranishi, T. and Kato, S (1985). Growth rate of a peripheral annulus defined by neurotoxic destruction in the goldfish retina. Dev. Brain Res 20, 291-295.

Oro, A. E., McKeown, M. and Evans, R. M (1992). The Drosophila retinoid X receptor homolog ultraspiracle functions in both female reproduction and eye morphogenesis. Development 115, 449-462.[Abstract]

Park, C. M. and Hollenberg, M. J (1989). Basic fibroblast growth factor induces retinal regeneration in vivo. Dev. Biol 134, 201-205.[Medline]

Pittack, C., Jones, M. and Reh, T. A (1991). Basic fibroblast growth factor induces retinal pigment epithelium to generate neural retina in vitro. Development 113, 577-588.[Abstract]

Reh, T. A (1992). Cellular interactions determine neuronal phenotypes in rodent retinal cultures. J. Neurobiol 23, 1067-1083.[Medline]

Reh, T. A (1987). Cell-specific regulation of neuronal production in the larval frog retina. J. Neurosci 7, 3317-3324.[Abstract]

Reh, T. A. and Kljavin, I. J (1989). Age of differentiation determines rat retinal germinal cell phenotype: Induction of differentiation by dissociation. J. Neurosci 9, 4179-4189.[Abstract]

Reh, T. A. and Tully, T (1986). Regulation of tyrosine hydroxylase containing amacrine cell number in larval frog retina. Dev. Biol 114, 463-469.[Medline]

Represa, J., Sanchez, A., Miner, C., Lewis, J. and Giraldez, F (1990). Retinoic acid modulation of the early development of the inner ear is associated with the control of c-fos expression. Development 110, 1081-1090.[Abstract/Free Full Text]

Ruberte, E., Dolle, P., Chambon, P. and Morriss-Kay, G (1991). Retinoic acid receptors and cellular retinoid binding proteins. II. Their differential pattern of transcription during early morphogenesis in mouse embryos. Development 111, 45-60.[Abstract]

Ruiz i Altaba, A. and Jessell, T. M (1991). Retinoic acid modifies the pattern of cell differentiation in the central nervous system of neurula stage Xenopus embryos. Development 112, 945-958.[Abstract]

Rutishauser, U (1993). Adhesion molecules of the nervous system. Curr. Opin. Neurobiol 3, 709-715.[Medline]

Schachner, M (1989). Families of neural adhesion molecules. Ciba Found. Sympos 145, 156-169.

Stenkamp, D. L., Gregory, J. K. and Adler, R (1993). Retinoic effects in purified cultures of chick embryo retina neurons and photoreceptors. Invest. Ophthalm. Vis. Sci 34, 2425-2436.[Abstract/Free Full Text]

Thaller, C. and Eichele, G (1987). Identification and spatial distribution of retinoids in the developing chick limb bud. Nature 327, 625-628.[Medline]

Thaller, C., Hofmann, C. and Eichele, G (1993). 9-cis-retinoic acid, a potent inducer of digit pattern duplications in the chick wing bud. Development 118, 957-965.[Abstract]

Tickle, C., Alberts, B., Wolpert, L. and Lee, J (1982). Local application of retinoic acid to the limb bud mimics the action of the polarizing region. Nature 296, 564-566.[Medline]

Vandaele, S., Nordquist, D. T., Feddersen, R. M., Tretjakoff, I., Peterson, A. C. and Orr, H. T (1991). Purkinje cell protein-2 regulatory regions and transgene expression in cerebellar compartments. Genes Dev 5, 1136-48.[Abstract/Free Full Text]

Watanabe, T. and Raff, M. C (1990). Rod photoreceptor development in vitro: Intrinsic properties of proliferating neuroepithelial cells change as development proceeds in the rat retina. Neuron 2, 461-467.

Watanabe, T. and Raff, M. C (1992). Diffusible rod-promoting signals in the developing rat retina. Development 114, 899-906.[Abstract]

Wilhelm, M., Straznicky, C. and G'abriel, R (1992). Neuron-specific enolase-like immunoreactivity in the vertebrate retina: selective labelling of Muller cells in Anura. Histochemistry 98, 243-252.[Medline]

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				F. Merhi-Soussi, B. Angenieux, K. Canola, C. Kostic, M. Tekaya, D. Hornfeld, and Y. Arsenijevic High Yield of Cells Committed to the Photoreceptor Fate from Expanded Mouse Retinal Stem Cells Stem Cells, September 1, 2006; 24(9): 2060 - 2070. [Abstract] [Full Text] [PDF]

				H. Akiyama, T. Tanaka, H. Doi, H. Kanai, T. Maeno, H. Itakura, T. Iida, Y. Kimura, S. Kishi, and M. Kurabayashi Visible light exposure induces VEGF gene expression through activation of retinoic acid receptor-{alpha} in retinoblastoma Y79 cells Am J Physiol Cell Physiol, April 1, 2005; 288(4): C913 - C920. [Abstract] [Full Text] [PDF]

				T. Zahir, H. Klassen, and M. J. Young Effects of Ciliary Neurotrophic Factor on Differentiation of Late Retinal Progenitor Cells Stem Cells, March 1, 2005; 23(3): 424 - 432. [Abstract] [Full Text] [PDF]

				S. S. Williams, J. P. Mear, H.-C. Liang, S. S. Potter, B. J. Aronow, and M. C. Colbert Large-scale reprogramming of cranial neural crest gene expression by retinoic acid exposure Physiol Genomics, October 4, 2004; 19(2): 184 - 197. [Abstract] [Full Text] [PDF]

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				R.-T. Yan and S.-Z. Wang Requirement of NeuroD for Photoreceptor Formation in the Chick Retina Invest. Ophthalmol. Vis. Sci., January 1, 2004; 45(1): 48 - 58. [Abstract] [Full Text] [PDF]

				J. James, A. V. Das, S. Bhattacharya, D. M. Chacko, X. Zhao, and I. Ahmad In Vitro Generation of Early-Born Neurons from Late Retinal Progenitors J. Neurosci., September 10, 2003; 23(23): 8193 - 8203. [Abstract] [Full Text] [PDF]

				A. Li, X. Zhu, B. Brown, and C. M. Craft Gene Expression Networks Underlying Retinoic Acid-Induced Differentiation of Human Retinoblastoma Cells Invest. Ophthalmol. Vis. Sci., March 1, 2003; 44(3): 996 - 1007. [Abstract] [Full Text] [PDF]

				H. Akiyama, T. Tanaka, T. Maeno, H. Kanai, Y. Kimura, S. Kishi, and M. Kurabayashi Induction of VEGF Gene Expression by Retinoic Acid through Sp1-Binding Sites in Retinoblastoma Y79 Cells Invest. Ophthalmol. Vis. Sci., May 1, 2002; 43(5): 1367 - 1374. [Abstract] [Full Text] [PDF]

				A. Li, X. Zhu, and C. M. Craft Retinoic Acid Upregulates Cone Arrestin Expression in Retinoblastoma Cells through a Cis Element in the Distal Promoter Region Invest. Ophthalmol. Vis. Sci., May 1, 2002; 43(5): 1375 - 1383. [Abstract] [Full Text] [PDF]

				M. Mori, N. B. Ghyselinck, P. Chambon, and M. Mark Systematic Immunolocalization of Retinoid Receptors in Developing and Adult Mouse Eyes Invest. Ophthalmol. Vis. Sci., May 1, 2001; 42(6): 1312 - 1318. [Abstract] [Full Text]

				X. Zhang and X. Yang Regulation of retinal ganglion cell production by Sonic hedgehog Development, January 3, 2001; 128(6): 943 - 957. [Abstract] [PDF]

				P. A. Yourey, S. Gohari, J. L. Su, and R. F. Alderson Vascular Endothelial Cell Growth Factors Promote the In Vitro Development of Rat Photoreceptor Cells J. Neurosci., September 15, 2000; 20(18): 6781 - 6788. [Abstract] [Full Text] [PDF]

				C. A. G. G. Driessen, H. J. Winkens, K. Hoffmann, L. D. Kuhlmann, B. P. M. Janssen, A. H. M. Van Vugt, J. P. Van Hooser, B. E. Wieringa, A. F. Deutman, K. Palczewski, et al. Disruption of the 11-cis-Retinol Dehydrogenase Gene Leads to Accumulation of cis-Retinols and cis-Retinyl Esters Mol. Cell. Biol., June 15, 2000; 20(12): 4275 - 4287. [Abstract] [Full Text]

				B. A. Link, J. M. Fadool, J. Malicki, and J. E. Dowling The zebrafish young mutation acts non-cell-autonomously to uncouple differentiation from specification for all retinal cells Development, May 15, 2000; 127(10): 2177 - 2188. [Abstract] [PDF]

				V. Tropepe, B. L. Coles, B. J. Chiasson, D. J. Horsford, A. J. Elia, R. R. McInnes, and D. van der Kooy Retinal Stem Cells in the Adult Mammalian Eye Science, March 17, 2000; 287(5460): 2032 - 2036. [Abstract] [Full Text]

				M. J. Belliveau, T. L. Young, and C. L. Cepko Late Retinal Progenitor Cells Show Intrinsic Limitations in the Production of Cell Types and the Kinetics of Opsin Synthesis J. Neurosci., March 15, 2000; 20(6): 2247 - 2254. [Abstract] [Full Text] [PDF]

				A. K. Söderpalm, D. A. Fox, J.-O. Karlsson, and T. van Veen Retinoic Acid Produces Rod Photoreceptor Selective Apoptosis in Developing Mammalian Retina Invest. Ophthalmol. Vis. Sci., March 1, 2000; 41(3): 937 - 947. [Abstract] [Full Text]

				I Novales Flamarique The ontogeny of ultraviolet sensitivity, cone disappearance and regeneration in the sockeye salmon Oncorhynchus nerka J. Exp. Biol., January 4, 2000; 203(7): 1161 - 1172. [Abstract] [PDF]

				M. Belliveau and C. Cepko Extrinsic and intrinsic factors control the genesis of amacrine and cone cells in the rat retina Development, January 2, 1999; 126(3): 555 - 566. [Abstract] [PDF]

				V. Fontaine, N. Kinkl, J. Sahel, H. Dreyfus, and D. Hicks Survival of Purified Rat Photoreceptors In Vitro Is Stimulated Directly by Fibroblast Growth Factor-2 J. Neurosci., December 1, 1998; 18(23): 9662 - 9672. [Abstract] [Full Text] [PDF]

				E. M. Morrow, M. J. Belliveau, and C. L. Cepko Two Phases of Rod Photoreceptor Differentiation during Rat Retinal Development J. Neurosci., May 15, 1998; 18(10): 3738 - 3748. [Abstract] [Full Text] [PDF]

				S McFarlane, M. Zuber, and C. Holt A role for the fibroblast growth factor receptor in cell fate decisions in the developing vertebrate retina Development, January 10, 1998; 125(20): 3967 - 3975. [Abstract] [PDF]

				Z. Z. Liu, L. Q. Zhu, and F. F. Eide Critical Role of TrkB and Brain-Derived Neurotrophic Factor in the Differentiation and Survival of Retinal Pigment Epithelium J. Neurosci., November 15, 1997; 17(22): 8749 - 8755. [Abstract] [Full Text] [PDF]

				E. M. Levine, H. Roelink, J. Turner, and T. A. Reh Sonic Hedgehog Promotes Rod Photoreceptor Differentiation in Mammalian Retinal Cells In Vitro J. Neurosci., August 15, 1997; 17(16): 6277 - 6288. [Abstract] [Full Text] [PDF]

				C Neophytou, A. Vernallis, A Smith, and M. Raff Muller-cell-derived leukaemia inhibitory factor arrests rod photoreceptor differentiation at a postmitotic pre-rod stage of development Development, January 6, 1997; 124(12): 2345 - 2354. [Abstract] [PDF]

				Z. Ezzeddine, X Yang, T DeChiara, G Yancopoulos, and C. Cepko Postmitotic cells fated to become rod photoreceptors can be respecified by CNTF treatment of the retina Development, January 3, 1997; 124(5): 1055 - 1067. [Abstract] [PDF]

				M. Alexiades and C. Cepko Subsets of retinal progenitors display temporally regulated and distinct biases in the fates of their progeny Development, January 3, 1997; 124(6): 1119 - 1131. [Abstract] [PDF]

				G.�A. Hyatt, E.�A. Schmitt, J.�M. Fadool, and J.�E. Dowling Retinoic acid alters photoreceptor development�in�vivo PNAS, November 12, 1996; 93(23): 13298 - 13303. [Abstract] [Full Text] [PDF]

				P. Bovolenta, J.-M. Frade, E. Marti, M.-A. Rodriguez-Pena, Y.-A. Barde, and A. Rodriguez-Tebar Neurotrophin-3 Antibodies Disrupt the Normal Development of the Chick Retina J. Neurosci., July 15, 1996; 16(14): 4402 - 4410. [Abstract] [Full Text] [PDF]