Alcantara, S., Lecea, L., Del Rio, J. A., Ferrer, I. and Soriano E (1996). Transient colocalization of parvalbumin and calbindin D28k in the postnatal cerebral cortex: evidence for a phenotypic shift in developing nonpyramidal neurons. Eur. J. Neurosci 8, 1329-1339.[Medline]
Anderson, S. A., Eisenstat, D. D., Shi, L. and Rubenstein, J. L (1997). Interneuron migration from basal forebrain to neocortex: dependence on dlx genes. Science 278, 474-476.[Abstract/Free Full Text]
Berkemeier, L. R.,Winslow, J. W., Kaplan, D. R., Nikolics, K., Goeddel, D. V. and Rosenthal, A (1991). Neurotrophin-5: A novel neurotrophic factor that activates trkB. Neuron 7, 857-866.[Medline]
Bolz, J., Novak, M., G\232tz, M. and Bonhoeffer, T (1990). Formation of target-specific neuronal projections in organotypic slice cultures from rat visual cortex. Nature 346, 359-362.[Medline]
Bugga, L., Gadient, R. A., Kwan, K., Stewart, C. L. and Patterson, P. H (1998). Analysis of neuronal and glial phenotypes in brains of mice deficient in leukemia inhibitory factor. J. Neurobiol 36, 509-524.[Medline]
Carnahan, J. and Nawa, H (1995). Regulation of neuropeptide expression in the brain by neurotrophins. Mol. Neurobiol 10, 135-149.[Medline]
Cauli, B., Audinat, E., Lambolez, B., Angula, A. C., Ropert, N., Tsuzuki, K., Hestrin, S. and Rossier, J (1997). Molecular and physiological diversity of cortical nonpyramidal cells. J. Neurosci 17, 3894-3906.[Abstract/Free Full Text]
DeFelipe, J (1993). Neocortical neuronal diversity: chemical heterogeneity revealed by colocalizations studies of classic neurotransmitters, neuropeptides, calcium-binding proteins, and cell surface molecules. Cereb. Cortex 3, 273-289.[Abstract/Free Full Text]
Demeulemeester, H., Vandesande, F., Orban, G. A., Brandon, C. and Vanderhaeghen, J. J (1988). Heterogeneity of GABAergic cells in cat visual cortex. J. Neurosci 8, 988-1000.[Abstract]
Demeulemeester, H., Vandesande, F., Orban, G. A., Heizmann, C. W. and Pochet, R (1989). Calbindin D-28K and parvalbumin immunoreactivity is confined to two separate neuronal populations in the cat visual cortex, whereas partial coexistence is shown in the dorsal lateral geniculate nucleus. Neurosci. Lett 99, 6-11.[Medline]
Demeulemeester, H., Arckens, L., Vandesande, F., Orban, G. A., Heizmann, C. W. and Pochet, R (1991). Calcium binding proteins and neuropeptides as molecular markers of GABAergic interneurons in the cat visual cortex. Exp. Brain Res 84, 538-544.[Medline]
Emson, P. C (1993). In situ hybridization as a methodological tool for the neuroscientist. Trends Neurosci 16, 9-16.[Medline]
Erickson, J. C., Hollopeter, G. and Palmiter, R. D (1996). Attenuation of the obesity syndrome of ob/ob mice by the loss of neuropeptide Y. Science 274, 1704-1707.[Abstract/Free Full Text]
Erickson, J. C. Clegg, K. E. and Palmiter, R. D (1996). Sensitivity to leptin and susceptibility to seizures of mice lacking neuropeptide Y. Nature 381, 415-418.[Medline]
Fagiolini, M., Pizzorusso, T., Berardi, N., Domenici, L. and Maffei, L (1994). Functional postnatal development of the rat primary visual cortex and the role of visual experience: dark rearing and monocular deprivation. Vision Res 34, 709-720.[Medline]
Gall, C., Lauterborn, J., Isackson, P. and White, J (1990). Seizures, neuropeptide regulation, and mRNA expression in the hippocampus. Prog. Brain Res 83, 371-390.[Medline]
Gonchar, Y. and Burkhalter, A (1997). Three distinct families of GABAergic neurons in rat visual cortex. Cereb. Cortex 7, 347-358.[Abstract/Free Full Text]
Gorba, T. and Wahle, P (1999). Expression of trkB and trkC, but not BDNFmRNA in neurochemically identified interneurons in rat visual cortex in vivo and in organotypic cultures. Eur. J. Neurosci 11, 1179-1190.[Medline]
Gorba, T., Klostermann, O. and Wahle, P (1999). Development of neuronal activity and activity-dependent expression of BDNF mRNA in organotypic cultures of rat visual cortex. Cereb. Cortex 9, 864-877.[Abstract/Free Full Text]
G\232tz, M. and Bolz, J (1994). Differentiation of transmitter phenotypes in rat cerebral cortex. Eur. J. Neurosci 6, 18-32.[Medline]
G\232tz, M., Williams, B., Bolz, J. and Price, J (1995). The specification of neuronal fate: a common precursor for neurotransmitter subtypes in the rat cerebral cortex in vitro. Eur. J. Neurosci 7, 889-898.[Medline]
Ho, Y., Howard, A. J. and Crapo, J. D (1988). Cloning and sequence of acDNA encoding rat glucose-6-phosphate dehydrogenase. Nucleic Acid Res 16, 7746-7746.[Free Full Text]
Kawaguchi, Y. and Kubota, Y (1997). GABAergic cell subtypes and their synaptic connections in rat cerebral cortex. Cereb. Cortex 7, 476-486.[Abstract/Free Full Text]
Klapstein, G. J. and Colmers, W. F (1997). Neuropeptide Y suppresses epileptiform activity in rat hippocampus in vitro. J. Neurophysiol 78, 1651-1661.[Abstract/Free Full Text]
Klostermann, O. and Wahle, P (1999). Patterns of spontaneous activity and morphology of interneuron types in organotypic cortex and thalamus-cortex cultures. Neurosci 92, 1243-1259.[Medline]
Maisonpierre, P. C., Le Beau, M. M., Espinosa, R., IP, N. Y., Belluscio, L., De La Monte, S. M. and Yancopoulos, G. D (1991). Human and rat brain-derived neurotrophic factor and neurotrophin-3: Gene structures, distributions, and chromosomal localisations. Genomics 10, 558-568.[Medline]
Marty, S., Berzaghi, M. P. and Berninger, B (1997). Neurotrophins and activity-dependent plasticity of cortical interneurons. Trends Neurosci 20, 198-202.[Medline]
Massengill, J. L., Smith, M.-A., Son, D. I. and O'Dowd, D. K (1997). Differential expression of K4-AP currents and Kv-3. 1 potassium channel transcripts in cortical neurons that develop distinct firing phenotypes. J. Neurosci 17, 3136-3147.[Abstract/Free Full Text]
McAllister, A. K., Katz, L. C. and Lo, D. C (1996). Neurotrophin regulation of cortical dendritic growth requires activity. Neuron 17, 1057-1064.[Medline]
Meyer, G. and Ferres-Torres, R (1984). Postnatal maturation of nonpyramidal neurons in the rat visual cortex. J. Comp. Neurol 228, 226-244.[Medline]
Miller, M. W (1986). Maturation of rat visual cortex. III. Postnatal morphogenesis and synaptology of local circuit neurons. Dev. Brain Res 25, 271-285.
Mione, M. C., Danevic, C., Boardman, P., Harris, B. and Parnavelas, J. G (1994). Lineage analysis reveals neurotransmitter (GABA or glutamate) but not calcium-bindung protein homogeneity in clonally related cortical neurons. J. Neurosci 14, 107-123.[Abstract]
Miyazaki, J., Takaki, S., Araki, K., Tashiro, F., Tominaga, K. and Yamamura, K (1989). Expression vector system based on the chicken beta-actin promoter directs efficient production of interleukin-5. Gene 79, 269-277.[Medline]
Nawa, H., Carnahan, J. and Gall, C (1995). BDNF protein measured by a novel enzyme immunoassay in normal brain and after seizure: partial disagreement with mRNA levels. Eur. J. Neurosci 7, 1527-1535.[Medline]
Niwa, H., Yamamura, K. and Miyazaki, J (1991). Efficient selection for high-expression transfectants using a novel eukaryotic vector. Gene 108, 193-199.[Medline]
Obst, K. and Wahle, P (1995). Areal differences of NPY mRNA-expressing neurons are established in the late postnatal rat visual cortex in vivo, but not in organotypic cultures. Eur. J. Neurosci 7, 2139-2158.[Medline]
Obst, K. and Wahle, P (1997). Phenotype specification of cortical neurons during a period of molecular plasticity. Eur. J. Neurosci 9, 2571-2580.[Medline]
Obst, K., Bronzel, M. and Wahle, P (1998). Visual activity is required to maintain the phenotype of supragranular NPY neurons in rat area 17. Eur. J. Neurosci 10, 1422-1428.[Medline]
Parnavelas, J. G. and Cavanagh, M. E (1988). Transient expression of neurotransmitters in the developing neocortex. Trends Neurosci 11, 92-93.[Medline]
Parra, P., Guly\207s, A. I. and Miles, R (1998). How many subtypes of inhibitory cells in the hippocampus?. Neuron 20, 983-993.[Medline]
Patterson, P. H. and Nawa, H (1993). Neuronal differentiation factors/cytokines and synaptic plasticity. Neuron 10, 123-137.
Rudge, J. S., Eaton, M. J., Mather, P., Lindsay, R. M. and Whittemore, S. R (1996). CNTF induces raphe neuronal precursors to switch from a serotonergic to a cholinergic phenotype. Mol. Cell. Neurosci 7, 204-221.[Medline]
Schwarzer, C., Sperk, G., Samanin, R., Rizzi, M., Gariboldi, M. and Vezzani, A (1996). Neuropeptide-immunoreactivity and their mRNA expression in kindling: functional implications for limbic epileptogenesis. Brain Res. Rev 22, 27-50.[Medline]
Shaw, C., Wilkinson, M., Cynader, M., Needler, M. C., Aoki C. and Hall, S. E (1986). The laminar distributions and postnatal development ofneurotransmitter and neuromodulator receptors in cat visual cortex. Brain Res. Bull 16, 661-671.[Medline]
Stevens, C. F (1998). Neuronal diversity: Too many cell types for comfort?. Curr. Biol 8, 708-.
Tan, S.-S., Kalloniatis, M., Sturm, K., Tam, P. P. L., Reese, B. E. and Faulkner-Jones, B (1998). Separate progenitors for radial and tangential cell dispersion during development of the cerebral cortex. Neuron 21, 295-304.[Medline]
Tecott, L. H. and Heberlein, U (1998). Y do we drink?. Cell 95, 733-735.[Medline]
Thiele, T. E., Marsh, D. J., Ste Marie, L., Bernstein, I. L. and Palmiter, R. D (1998). Ethanol consumption and resistance are inversely related to neuropeptide Y levels. Nature 396, 366-369.[Medline]
Thoenen, H (1995). Neurotrophins and neuronal plasticity. Science 270, 593-598.[Abstract/Free Full Text]
Van den Pol, A. N., Obrietan, K., Chen, G. and Belousov, A. B (1996). Neuropeptide Y-mediated long-term depression in excitatory activity in suprachiasmatic neucleus neurons. J. Neurosci 16, 5883-5895.[Abstract/Free Full Text]
Vezzani, A., Sperk, G. and Colmers, W. F (1999). Neuropeptide Y: emergingevidence for a functional role in seizure modulation. Trends Neurosci 22, 25-30.[Medline]
Wahlestedt, C., Pich, E. M., Koob, G. F., Yee, F. and Heilig, M (1993). Modulation of anxiety and neuropeptide Y-Y1 receptors by antisense oligodeoxynucleotides. Science 259, 528-531.[Abstract/Free Full Text]
Wirth, M. J., Gorba, T. and Wahle, P (1998). Epigenetic factors regulate NPY expression in cortical neurons. Regul. Peptides, 75, 283-292.
Wirth, M. J., Obst, K. and Wahle, P (1998). NT-4/5 and LIF, but not NT-3 and BDNF, promote NPY mRNA expression in cortical neurons in the absence of spontaneous bioelectric activity. Eur. J. Neurosci 10, 1457-1464.[Medline]
Woldbye, D. P., Larsen, P. J., Mikkelsen, J. D., Klemp, K., Madsen, T. M. and Bolwig, T. G (1997). Powerful inhibition of kainic acid seizures by neuropeptide Y via Y5-like receptors. Nat. Med 3, 761-764.[Medline]
Yamamori, T., Fukada, K., Aebersold, R., Korsching, S., Fann, M. J. and Patterson, P. H (1989). The cholinergic differentiation factor from heart is identical to leukemia inhibitory factor. Science 246, 1412-1416.[Abstract/Free Full Text]
