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Abo, T. and Balch, C. M (1981). A differentiation antigen of human NK and K cells identified by a monoclonal antibody (HNK-1). J. Immunol 127, 1024-1029.[Abstract]

Airaksinen, M. S., Titievsky, A. and Saarma, M (1999). GDNF family neurotrophic factor signaling: four masters, one servant?. Mol. Cell. Neurosci 13, 313-325.[Medline]

Baetge, G. and Gershon, M. D (1989). Transient catecholaminergic (TC) cells in the vagus nerves and bowel of fetal mice: relationship to the development of enteric neurons. Dev. Biol 132, 189-211.[Medline]

Baloh, R. H., Enomoto, H., Johnson, E. M. and Milbrandt, J (2000). The GDNF family ligands and receptors \320 implications for neural development. Curr. Opin. Neurobiol 10, 103-110.[Medline]

Baloh, R. H., Tansey, M. G., Golden, J. P., Creedon, D. J., Heuckeroth, R. O., Keck, C. L., Zimonjic, D. B., Popescu, N. C., Johnson, E. M., Jr and Milbrandt, J (1997). TrnR2, a novel receptor that mediates neurturin and GDNF signaling through Ret. Neuron 18, 793-802.[Medline]

Blaugrund, E., Pham, T. D., Tennyson, V. M., Lo, L., Sommer, L., Anderson, D. J. and Gershon, M. D (1996). Distinct subpopulations of enteric neuronal progenitors defined by time of development, sympathoadrenal lineage markers and Mash-1-dependence. Development 122, 309-320.[Abstract]

Bottenstein, J. E. and Sato, G. H (1979). Growth of a rat neuroblastoma cell line in serum-free supplemented medium. Proc. Nat. Acad. Sci. USA 76, 514-517.[Abstract/Free Full Text]

Buj-Bello, A., Adu, J., Pi\226on, L. G., Horton, A., Thompson, J., Rosenthal, A., Chinchetru, M., Buchman, V. L. and Davies, A. M (1997). Neurturin responsiveness requires a GPI-linked receptor and the ret receptor tyrosine kinase. Nature 387, 721-724.[Medline]

Buj-Bello, A., Buchman, V. L., Horton, A., Rosenthal, A. and Davies, A. M (1995). GDNF is an age-specific survival factor for sensory and autonomic neurons. Neuron 15, 821-828.[Medline]

Cacalano, G., Fari\226as, I., Wang, L.-C., Hagler, K., Forgie, A., Moore, M., Armanini, M., Phillips, H., Ryan, A. M., Reichardt, L. F. et al. ( (1998). GRF-1 is an essential receptor component for GDNF in the developing nervous system and kidney. Neuron 21, 53-62.[Medline]

Carnahan, J. F., Anderson, D. J. and Patterson, P. H (1991). Evidence that enteric neurons may derive from the sympathoadrenal lineage. Dev. Biol 148, 552-561.[Medline]

Chalazonitis, A., Rothman, T., Chen, J. and Gershon, M. D (1998). Age-dependent differences in the effects of GDNF and NT-3 on the development of neurons and glia from neural crest-derived precursors immunoselected from the fetal rat gut: expression of GFR-1 in vitro and in vivo. Dev. Biol 204, 385-406.[Medline]

Chalazonitis, A., Rothman, T. P., Chen, J., Vinson, E. N., MacLennan, A. J. and Gershon, M. D (1998). Promotion of the development of enteric neurons and glia by neuropoietic cytokines: interactions with neurotrophin-3. Dev. Biol 198, 343-365.[Medline]

Coulter, H. D., Gershon, M. D. and Rothman, T. P (1988). Neural and glial phenotypic expression by neural crest cells in culture: effects of control and presumptive aganglionic bowel from ls/ls mice. J Neurobiol 19, 507-531.[Medline]

Creedon, D. J., Tansey, M. G., Baloh, R. H., Osborne, P. A., Lampe, P. A., Fahrner, T. J., Heuckeroth, R. O., Milbrandt, J. and Johnson, E. M (1997). Neurturin shares receptors and signal transduction pathways with glial cell line-derived neurotrophic factor in sympathetic neurons. Proc. Natl. Acad. Sci. USA 94, 7018-7023.[Abstract/Free Full Text]

Durbec, P., Marcos-Gutierrez, C. V., Kilkenny, C., Grigoriou, M., Wartiowaara, K., Suvanto, P., Smith, D., Ponder, B., Constantini, F., Saarma, M. et al. ( (1996). GDNF signalling through the RET receptor tyrosine kinase. Nature 381, 789-792.[Medline]

Ehrenfels, C. W., Carmillo, P. J., Orozco, O., Cate, R. L. and Sanicola, M (1999). Perturbation of RET signaling in the embryonic kidney. Dev. Genet 24, 263-272.[Medline]

Eigenbrot, C. and Gerber, N (1997). X-ray structure of glial cell line-derivedneurotrophic factor at 1.9 A resolution and implications for receptor binding. Nat. Struct. Biol 4, 435-438.[Medline]

Enomoto, H., Araki, T., Jackman, A., Heuckeroth, R. O., Snider, W. D., Johnson, E. M. and Milbrandt, J (1998). GFR1-deficient mice have deficits in the enteric nervous system and kidneys. Neuron 21, 317-324.[Medline]

Erickson, C. A., Loring, J. F. and Lester, S. M (1989). Migratory pathways of HNK-1-immunoreactive neural crest cells in the rat embryo. Dev. Biol 134, 112-118.[Medline]

Ernsberger, U. and Rohrer, H (1996). The development of the noradrenergic transmitter phenotype in postganglionic sympathetic neurons. Neurochem. Res 21, 823-829.[Medline]

Forgie, A., Doxakis, E., Buj-Bello, A., Wyatt, S. and Davies, A. M (1999). Differences and developmental changes in the responsiveness of PNS neurons to GDNF and neurturin. Mol. Cell. Neurosci 13, 430-440.[Medline]

Furness, J. B., Young, H. M., Pompolo, S., Bornstein, J. C., Kunze, W. A. A. and McConalogue, K (1995). Plurichemical transmission and chemical coding of neurons in the digestive tract. Gastroenterology 108, 554-563.[Medline]

Goldhawk, D. E., Meakin, S. O. and Verdi, J. M (2000). Subpopulations of rat B2+ neuroblasts exhibit differential neurotrophin responsiveness during sympathetic development. Dev. Biol 218, 367-377.[Medline]

Groves, A. K. and Anderson, D. J (1996). Role of environmental signals and transcriptional regulators in neural crest development. Dev. Genet 18, 64-72.[Medline]

Hawrot, E. and Patterson, P. H (1979). Long-term culture of dissociated sympathetic neurons. Methods Enzymol 58, 574-583.[Medline]

Hearn, C. J., Murphy, M. and Newgreen, D (1998). GDNF and ET-3 differentially modulate the numbers of avian enteric neural crest cells and enteric neurons invitro. Dev. Biol 197, 93-105.[Medline]

Heuckeroth, R. O., Enomoto, H., Grider, J. R., Golden, J. P., Hanke, J. A., Jackman, A., Molliver, D., C., Bardgett, M. E., Snider, W. D., Johnson, E. M., Jr et al. ( (1999). Gene targeting reveals a critical role for neurturin in the development and maintenance of enteric, sensory, and parasympathetic neurons. Neuron 22, 253-263.[Medline]

Heuckeroth, R. O., Lampe, P. A., Johnson, E. M. and Milbrandt, J (1998). Neurturin and GDNF promote proliferation and survival of enteric neuron and glial progenitors in vitro. Dev. Biol 200, 116-129.[Medline]

Horger, B. A., Nishimura, M. C., Armanini, M. P., Wang, L.-C., Poulsen, K. T., Rosenblad, C., Kirik, D., Moffat, B., Simmons, L., Johnson, E. et al. ( (1998). Neurturin exerts potent actions on survival and function of midbrain dopaminergic neurons. J. Neurosci 18, 4929-4937.[Abstract/Free Full Text]

Jing, S., Wen, D., Yu, Y., Holst, P. L., Luo, Y., Fang, M., Tamir, R., Antonio, L., Hu, Z., Cupples, R. et al. ( (1996). GDNF-induced activtion of the ret protein tyrosine kinase is mediated by GDNFR-alpha, a novel receptor for GDNF. Cell 85, 1113-1124.[Medline]

Jing, S., Yu, Y., Fang, M., Hu, Z., Holst, P. L., Boone, T., Delaney, J., Schultz, H., Zhou, R. and Fox, G. M (1997). GFRalpha-2 and GFRalpha-3 are two new receptors for ligands of the GDNF family. J. Biol. Chem 272, 33111-33117.[Abstract/Free Full Text]

Klein, R. D., Sherman, D., Ho, W. H., Stone, D., Bennett, G. L., Moffat, B., Vandlen, R., Simmons, L., Gu, Q., Hongo, J. A. et al. ( (1997). A GPI-linked protein that interacts with Ret to form a candidate neurturin receptor. Nature 387, 712-721.

Krieglstein, K., Henheik, P., Farkas, L., Jaszai, J., Galter, D., Krohn, K. and Unsicker, K (1998). Glial cell line-derived neurotrophic factor requires transforming growth factor-for exerting its full neurotrophic potential on peripheral and CNS neurons. J. Neurosci 18, 9822-9834.[Abstract/Free Full Text]

Lo, L., Tiveron, M.-C. and Anderson, D. J (1998). MASH1 activates expression of the paired homeodomain transcription factor Phox2a, and couples pan-neuronal and subytpe-specific components of autonomic neuronal identity. Development 125, 609-620.[Abstract]

Moore, M. W., Klein, R. D., Fari\226as, I., Sauer, H., Armamini, M., Phillip, H., Reichardt, L. F., Ryan, A. M., Carver-Moore, K. and Rosenthal, A (1996). Renal and neuronal abnormalities in mice lacking GDNF. Nature 382, 76-79.[Medline]

Naveilhan, P., Baudet, C., Mikaels, A., Shen, L., Westphal, H. and Ernfors, P (1998). Expression and regulation of GFRalpha3, a glial cell line neurotrophic factor family receptor. Proc. Natl. Acad. Sci. USA 95, 1295-1300.[Abstract/Free Full Text]

Pachnis, V., Mankoo, B. and Costantini, F (1993). Expression of the c-ret proto-oncogene during mouse embryogenesis. Development 119, 1005-1017.[Abstract]

Pham, T. D., Gershon, M. D. and Rothman, T. P (1991). Time of origin of neurons in the murine enteric nervous system: sequence in relation to phenotype. J. Comp. Neurol 314, 789-798.[Medline]

Pichel, J. G., Shen, L., Sheng, H. Z., Granholm, A., Lee, E. J., Huang, S. P., Saarma, M., Hoffer, B. J., Sariola, H. and Westphal, H (1996). Defects in enteric innervation and kidney development in mice lacking GDNF. Nature 382, 73-76.[Medline]

Pisano, J. M. and Birren, S. J (1999). Restriction of developmental potential during divergence of the enteric and sympathetic neuronal lineages. Development 126, 2855-2868.[Abstract]

Pomeranz, H. D., Rothman, T. P., Chalazonitis, A., Tennyson, V. M. and Gershon, M. D (1993). Neural crest-derived cells isolated from the gut by immunoselection develop neuronal and glial phenotypes when cultured on laminin. Dev. Biol 156, 341-361.[Medline]

Rossi, J., Luukko, K., Poteryaev, D., Laurikainen, A., Sun, Y. F., Laakso, T., Eerikainen, S., Tuominen, R., Lakso, M., Rauvala, H. et al. ( (1999). Retarded growth and deficits in the enteric and parasympathetic nervous system in mice lacking GFR alpha2, a functional neurturin receptor. Neuron 22, 243-252.[Medline]

S\207nchez, M. P., Silos-Santiago, I., Frisen, J., He, B., Lira, S. A. and Barbacid, M (1996). Renal agenesis and the absence of enteric neurons in mice lacking GDNF. Nature 382, 70-73.[Medline]

Sanicola, M., Hession, C., Worley, D., Carmillo, P., Ehrenfels, C., Walus, L., Robinson, S., Jaworski, G., Wei, H., Tizard, R. et al. ( (1997). Glial cell line-derived neurotrophic factor-dependent RET activation can be mediated by two different cell surface accessory proteins. Proc. Natl. Acad. Sci. USA 94, 6238-6243.[Abstract/Free Full Text]

Schiltz, C. A., Benjamin, J. and Epstein, M. L (1999). Expression of the GDNF receptors ret and GFR1 in the developing avian enteric nervous system. J. Comp. Neurol 414, 193-211.[Medline]

Tang, M. J., Worley, D., Sanicola, M. and Dressler, G. R (1998). The RET-glial cell-derived neurotrophic factor (GDNF) pathway stimulates migration and chemoattraction of epithelial cells. J. Cell Biol 142, 1337-1345.[Abstract/Free Full Text]

Tansey, M. G., Baloh, R. H., Milbrandt, J. and Johnson, E. M (2000). GFR-mediated localization of RET to lipid rafts is required for effective downstream signaling, differentiation and neuronal survival. Neuron 25, 611-623.[Medline]

Taraviras, S., Marcos-Gutierrez, C. V., Durbec, P., Jani, H., Grigoriou, M., Sukumaran, M., Wang, L.-C., Hynes, M., Raisman, G. and Pachnis, V (1999). Signalling by the RET receptor tyrosine kinase and its role in the development of the mammalian enteric nervous system. Development 126, 2785-2797.[Abstract]

Treanor, J. J. S., Goodman, L., de Sauvage, F., Stone, D. M., Poulsen, K. T., Beck, C. D., Gray, C., Armanini, M. P., Pollock, R. A., Hefti, F. et al. ( (1996). Characterization of a multicomponent receptor for GDNF. Nature 382, 80-83.[Medline]

Trupp, M., Arenas, E., Fainzilber, M., Nilsson, A.-S., Sieber, B.-A., Grigoriou, M., Kilkenny, C., Salazar-Grueso, E., Pachnis, V., Arum\212e, U. et al. ( (1996). Functional receptor for GFNF encoded by the c-ret proto-oncogene. Nature 27, 785-793.

Widenfalk, J., Nosrat, C., Tomac, A., Westphal, H., Hoffer, B. and Olson, L (1997). Neurturin and glial cell line-derived neurotrophic factor receptor-beta (GDNFR-beta), novel proteins related to GDNF and GDNFR-alpha with specific cellular patterns of expression suggesting roles in the developing and adult nervous systems and in peripheral organs. J. Neurosci 17, 8506-8519.[Abstract/Free Full Text]

Wu, J. J., Chen, J.-X., Rothman, T. P. and Gershon, M. D (1999). Inhibition of in vitro enteric neuronal development by endothelin-3: mediation by endothelin B receptors. Development 126, 1161-1173.[Abstract]

Yu, T., Scully, S., Yu, Y., Fox, G. M., Jing, S. and Zhou, R (1998). Expression of GDNF family receptor components during development: Implications in the mechanisms of interaction. J. Neurosci 18, 4684-4696.[Abstract/Free Full Text]
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