Table Of ContentBrain Research, 577 (1992) 356-357
Elsevier
Author Index
Adams, R.N., see Renner, K.J., 49 De Goeij, D.C.E., Jezova, D. and Tilders, mary cultures and in retinal slice prepa-
Angelucci, L., see Imperato, A., 194 F.J.H., Repeated stress enhances vaso- rations, 10
pressin synthesis in corticotropin releas-
Bakin, J.S., Lepan, B. and Weinberger, ing factor neurons in the paraventricular Iadarola, M.J., see Zhang, W.Q., 312
N.M., Sensitization induced receptive nucleus, 165 Imaoka, S., see Matsuda, S., 92
field plasticity in the auditory cortex is Degoma, E., see Parada, M.A., 218 Imperato, A., Angelucci, L., Casolini, P.,
independent of CS-modality, 226 Desaki, J., see Matsuda, S., 92 Zocchi, A. and Puglisi-Allegra, S., Re-
Becker, D.P., see Katayama, Y., 121 Dow, R.C., see Yau, J.L.W., 155 peated stressful experiences differently
Beitz, A.J., see Lee, J.-H., 80 affect limbic dopamine release during
Bortolotti, F., see Cintra, A., 127 Eason, H., see Fifkova, E., 331 and following stress, 194
Bourdelais, A. and Kalivas, P.W., Apomor- Eigyo, M., see Katoh, A., 57 Ishibashi, C:, see Katoh, A., 57
phine decreases extracellular GABA in
Fagioli, S., see Pavone, F., 347 Jezova, D., see De Goeij, D.C.E., 165
the ventral pallidum of rats with
Fernandez-Sanchez, M.T., see Novelli, A., Joseph, R., Tsering, C., Grunfeld, S. and
6-OHDA lesions in the nucleus accum- 41 Welch, K.M.A., Further studies on
bens , 306
Fifková, E., Eason, H. and Schaner, P., platelet-mediated neurotoxicity , 268
Brady, D.R., Carey, R.G. and Mufson,
Inhibitory contacts on dendritic spines of
E.J., Reduced nicotinamide adenine di- Kalivas, P.W., see Bourdelais, A., 306
the dentate fascia, 331
nucleotide phosphate-diaphorase Kaneto, H., see Xu, Q., 189
Fink, G., see Yau, J.L.W., 155
(NADPH-d) profiles in the amygdala of Kashiba, H., Senba, E., Kawai, Y., Ueda,
Foster, M.C., see Saubermann, A.J., 64
human and new world monkey (Saimiri Y. and Tohyama, ., Axonal blockade
Fried, K., see Frisén, J., 142
sciureus), 236 Frisén, J., Risling, M., Theodorsson, E. and induces the expression of vasoactive in-
Brandon, C., see Criswell, M.H., 101 testinal polypeptide and galanin in rat
Fried, K., NPY-like immunoreactivity in
Bredt, D.S., see Llewellyn-Smith, I.J., 337 sensory nerve fibers in rat sciatic neu- dorsal root ganglion neurons, 19
Buonomano, D.V., Cleary, L.J. and Byrne, roma, 142 Katayama, Y., Tamura, T., Becker, D.P.
J.H., Inhibitory neuron produces het- and Tsubokawa, T., Early cellular swell-
erosynaptic inhibition of the sensory-to- Geula, C., see Mesulam, M.-M., 112 ing during cerebral ischemia in vivo is
motor neuron synapse in Aplysia, 147 Glaser, J., Russell, V.A. and Taljaard, mediated by excitatory amino acids re-
Byrne, J.H., see Buonomano, D.V., 147 J.J.F., Rat brain hypothalamic and hip- leased from nerve terminals , 121
pocampal monoamine and hippocampal Katoh, A., Ishibashi, C., Shiomi, T., Taka-
Carey, R.G., see Brady, D.R., 236 ß-adrenergic receptor changes during hara, Y. and Eigyo, M., Ischemia-in-
Casolini, P., see Imperato, A., 194 pregnancy, 293 duced irreversible deficit of memory
Castiglia, C.M., see Saubermann, A.J., 64 Goiny, M., see Maysinger, D., 300 function in gerbils, 57
Chalmers, J., see Pilowsky, P., 181 Greenberg, D.A., see Lustig, H.S., 343 Kawai, Y., see Kashiba, H., 19
Chan, J., see Lustig, H.S., 343 Grimes, L., see Zhang, W.Q., 312 Kispert, J., see Novelli, A., 41
Chapin, J.K., see Nicolelis, M.A.L., 134 Grunfeld, S., see Joseph, R., 268 Klugewicz, S.W., see Collins III, W.F., 326
Chen, S. and Hiliman, D.E., Transient c-fos Kohsaka, ., see Nakajima, K., 285
and dendritic spine plasticity in hippoc- Hamanoue, M., see Nakajima, K., 285
Kuczenski, R., see Segal, D.S., 351
ampal granule cells, 169 Haring, J.H., Meyerson, L. and Hoffman,
Cintra, A. and Bortolotti, F., Presence of T.L., Effects of parachloroamphetamine Langan, T.J. and Slater, M.C., Astrocytes
strong glucocorticoid receptor immunor- upon the serotonergic innervation of the derived from long-term primary cultures
eactivity within hypothalamic and hy- rat hippocampus, 253 recapitulate features of astrogliosis as
pophyseal cells containing pro-opiomel- Hatfield, R.H. and McKernan, R.M., CSF they re-enter the cell division cycle, 200
anocortic peptides, 127 neuron-specific enolase as a quantitative Lee, J.-H. and Beitz, A.J., Electroacupunc-
Cleary, L.J., see Buonomano, D.V., 147 marker of neuronal damage in a rat ture modifies the expression of c-fos in
Collins III, W.F., Seymour, A.W. and stroke model , 249 the spinal cord induced by noxious stim-
Klugewicz, S.W., Differential effect of Haywood, J.R., see Martin, D.S., 261 ulation, 80
castration on the somal size of pudendal Hernandez, L., see Parada, M.A., 218 Lepan, B., see Bakin, J.S., 226
motoneurons in the adult male rat, 326 Herrera-Marschitz, M., see Maysinger, D., Li, Y.-W., Polson, J.W. and Dampney,
Costa, M., see Llewellyn-Smith, I.J., 337 300 R.A.L., Angiotensin II excites vasomo-
Criswell, M.H. and Brandon, C., Cholin- Hiley, C.R., see Privitera, P.J., 73 tor neurons but not respiratory neurons
ergic and GABAergic neurons occur in Hill, D.R., see Privitera, P.J., 73 in the rostral and caudal ventrolateral
both the distal and proximal turtle retina, Hillman, D.E., see Chen, S., 169 medulla, 161
101 Hirayasu, Y. and Wada, J.A., Convulsive Lin, R.C.S., see Nicolelis, M.A.L., 134
Cuello, A.C., see Maysinger, D., 300 seizures in rats induced by N-methyl-p- Llewellyn-Smith, I.J., see Pilowsky, P., 181
aspartate injection into the massa inter- Llewellyn-Smith, I.J., Song, Z.-M., Costa,
Dampney, R.A.L., see Li, Y.-W., 161 media, 36 M., Bredt, D.S. and Snyder, S.H., Ul-
Daum, P.R., see Privitera. P.J., 73 Hoffman, T.L., see Haring, J.H., 253 trastructural localization of nitric oxide
Dawson, D.A., Robinson, M.J., Macrae, Hofmann, H.-D., see Huba, R., 10 synthase immunoreactivity in guinea-pig
I.M., Reid, J.L. and McCulloch, J., Hong, J.S., see Zhang, W.Q., 312 enteric neurons, 337
Autoradiographic evaluation of forskolin Hou, Z.-l., see Wang, X.-M., 321 Loewen, J.J., Peters, R.I. and Terrian,
and D, dopamine receptor binding in a Huba, R., Schneider, H. and Hofmann, D.M., Adenosine modulation of dynor-
rat model of focal cerebral ischaemia, H.-D., Voltage-gated currents of puta- phin B release by hippocampal synapto-
210 tive GABAergic amacrine cells in pri- somes, 318
Brain Research, 577 (1992) 356-357
Elsevier
Author Index
Adams, R.N., see Renner, K.J., 49 De Goeij, D.C.E., Jezova, D. and Tilders, mary cultures and in retinal slice prepa-
Angelucci, L., see Imperato, A., 194 F.J.H., Repeated stress enhances vaso- rations, 10
pressin synthesis in corticotropin releas-
Bakin, J.S., Lepan, B. and Weinberger, ing factor neurons in the paraventricular Iadarola, M.J., see Zhang, W.Q., 312
N.M., Sensitization induced receptive nucleus, 165 Imaoka, S., see Matsuda, S., 92
field plasticity in the auditory cortex is Degoma, E., see Parada, M.A., 218 Imperato, A., Angelucci, L., Casolini, P.,
independent of CS-modality, 226 Desaki, J., see Matsuda, S., 92 Zocchi, A. and Puglisi-Allegra, S., Re-
Becker, D.P., see Katayama, Y., 121 Dow, R.C., see Yau, J.L.W., 155 peated stressful experiences differently
Beitz, A.J., see Lee, J.-H., 80 affect limbic dopamine release during
Bortolotti, F., see Cintra, A., 127 Eason, H., see Fifkova, E., 331 and following stress, 194
Bourdelais, A. and Kalivas, P.W., Apomor- Eigyo, M., see Katoh, A., 57 Ishibashi, C:, see Katoh, A., 57
phine decreases extracellular GABA in
Fagioli, S., see Pavone, F., 347 Jezova, D., see De Goeij, D.C.E., 165
the ventral pallidum of rats with
Fernandez-Sanchez, M.T., see Novelli, A., Joseph, R., Tsering, C., Grunfeld, S. and
6-OHDA lesions in the nucleus accum- 41 Welch, K.M.A., Further studies on
bens , 306
Fifková, E., Eason, H. and Schaner, P., platelet-mediated neurotoxicity , 268
Brady, D.R., Carey, R.G. and Mufson,
Inhibitory contacts on dendritic spines of
E.J., Reduced nicotinamide adenine di- Kalivas, P.W., see Bourdelais, A., 306
the dentate fascia, 331
nucleotide phosphate-diaphorase Kaneto, H., see Xu, Q., 189
Fink, G., see Yau, J.L.W., 155
(NADPH-d) profiles in the amygdala of Kashiba, H., Senba, E., Kawai, Y., Ueda,
Foster, M.C., see Saubermann, A.J., 64
human and new world monkey (Saimiri Y. and Tohyama, ., Axonal blockade
Fried, K., see Frisén, J., 142
sciureus), 236 Frisén, J., Risling, M., Theodorsson, E. and induces the expression of vasoactive in-
Brandon, C., see Criswell, M.H., 101 testinal polypeptide and galanin in rat
Fried, K., NPY-like immunoreactivity in
Bredt, D.S., see Llewellyn-Smith, I.J., 337 sensory nerve fibers in rat sciatic neu- dorsal root ganglion neurons, 19
Buonomano, D.V., Cleary, L.J. and Byrne, roma, 142 Katayama, Y., Tamura, T., Becker, D.P.
J.H., Inhibitory neuron produces het- and Tsubokawa, T., Early cellular swell-
erosynaptic inhibition of the sensory-to- Geula, C., see Mesulam, M.-M., 112 ing during cerebral ischemia in vivo is
motor neuron synapse in Aplysia, 147 Glaser, J., Russell, V.A. and Taljaard, mediated by excitatory amino acids re-
Byrne, J.H., see Buonomano, D.V., 147 J.J.F., Rat brain hypothalamic and hip- leased from nerve terminals , 121
pocampal monoamine and hippocampal Katoh, A., Ishibashi, C., Shiomi, T., Taka-
Carey, R.G., see Brady, D.R., 236 ß-adrenergic receptor changes during hara, Y. and Eigyo, M., Ischemia-in-
Casolini, P., see Imperato, A., 194 pregnancy, 293 duced irreversible deficit of memory
Castiglia, C.M., see Saubermann, A.J., 64 Goiny, M., see Maysinger, D., 300 function in gerbils, 57
Chalmers, J., see Pilowsky, P., 181 Greenberg, D.A., see Lustig, H.S., 343 Kawai, Y., see Kashiba, H., 19
Chan, J., see Lustig, H.S., 343 Grimes, L., see Zhang, W.Q., 312 Kispert, J., see Novelli, A., 41
Chapin, J.K., see Nicolelis, M.A.L., 134 Grunfeld, S., see Joseph, R., 268 Klugewicz, S.W., see Collins III, W.F., 326
Chen, S. and Hiliman, D.E., Transient c-fos Kohsaka, ., see Nakajima, K., 285
and dendritic spine plasticity in hippoc- Hamanoue, M., see Nakajima, K., 285
Kuczenski, R., see Segal, D.S., 351
ampal granule cells, 169 Haring, J.H., Meyerson, L. and Hoffman,
Cintra, A. and Bortolotti, F., Presence of T.L., Effects of parachloroamphetamine Langan, T.J. and Slater, M.C., Astrocytes
strong glucocorticoid receptor immunor- upon the serotonergic innervation of the derived from long-term primary cultures
eactivity within hypothalamic and hy- rat hippocampus, 253 recapitulate features of astrogliosis as
pophyseal cells containing pro-opiomel- Hatfield, R.H. and McKernan, R.M., CSF they re-enter the cell division cycle, 200
anocortic peptides, 127 neuron-specific enolase as a quantitative Lee, J.-H. and Beitz, A.J., Electroacupunc-
Cleary, L.J., see Buonomano, D.V., 147 marker of neuronal damage in a rat ture modifies the expression of c-fos in
Collins III, W.F., Seymour, A.W. and stroke model , 249 the spinal cord induced by noxious stim-
Klugewicz, S.W., Differential effect of Haywood, J.R., see Martin, D.S., 261 ulation, 80
castration on the somal size of pudendal Hernandez, L., see Parada, M.A., 218 Lepan, B., see Bakin, J.S., 226
motoneurons in the adult male rat, 326 Herrera-Marschitz, M., see Maysinger, D., Li, Y.-W., Polson, J.W. and Dampney,
Costa, M., see Llewellyn-Smith, I.J., 337 300 R.A.L., Angiotensin II excites vasomo-
Criswell, M.H. and Brandon, C., Cholin- Hiley, C.R., see Privitera, P.J., 73 tor neurons but not respiratory neurons
ergic and GABAergic neurons occur in Hill, D.R., see Privitera, P.J., 73 in the rostral and caudal ventrolateral
both the distal and proximal turtle retina, Hillman, D.E., see Chen, S., 169 medulla, 161
101 Hirayasu, Y. and Wada, J.A., Convulsive Lin, R.C.S., see Nicolelis, M.A.L., 134
Cuello, A.C., see Maysinger, D., 300 seizures in rats induced by N-methyl-p- Llewellyn-Smith, I.J., see Pilowsky, P., 181
aspartate injection into the massa inter- Llewellyn-Smith, I.J., Song, Z.-M., Costa,
Dampney, R.A.L., see Li, Y.-W., 161 media, 36 M., Bredt, D.S. and Snyder, S.H., Ul-
Daum, P.R., see Privitera. P.J., 73 Hoffman, T.L., see Haring, J.H., 253 trastructural localization of nitric oxide
Dawson, D.A., Robinson, M.J., Macrae, Hofmann, H.-D., see Huba, R., 10 synthase immunoreactivity in guinea-pig
I.M., Reid, J.L. and McCulloch, J., Hong, J.S., see Zhang, W.Q., 312 enteric neurons, 337
Autoradiographic evaluation of forskolin Hou, Z.-l., see Wang, X.-M., 321 Loewen, J.J., Peters, R.I. and Terrian,
and D, dopamine receptor binding in a Huba, R., Schneider, H. and Hofmann, D.M., Adenosine modulation of dynor-
rat model of focal cerebral ischaemia, H.-D., Voltage-gated currents of puta- phin B release by hippocampal synapto-
210 tive GABAergic amacrine cells in pri- somes, 318
Lustig, H.S., Von Brauchitsch, K.L., Chan, Pavone, F. and Fagioli, S., Serotonergic Speckmann, E.-J., see Pohl, M., 29
J. and Greenberg, D.A., Cyclic GMP influence on cholinergic-induced analge- Straub, H., see Pohl, M., 29
modulators and excitotoxic injury in ce- sia: differences in two inbred strains of
rebral cortical cultures, 343 mice, 347 Takahara, Y., see Katoh, A., 57
Pazos, L., see Renner, K.J., 49 Takahashi, M., see Xu, Q., 189
Macrae, I.M., see Dawson, D.A., 210 Pennypacker, K.R., see Zhang, W.Q., 312 Taljaard, J.J.F., see Glaser, J., 293
Martin, D.S. and Haywood, J.R., Sympa- Peters, R.I., see Loewen, J.J., 318 Tamura, T., see Katayama, Y., 121
thetic nervous system activation by glu- Pilowsky, P., Llewellyn-Smith, I.J., Min- Terrian, D.M., see Loewen, J.J., 318
tamate injections into the paraventricular son, J. and Chalmers, J., Sympathetic Theodorsson, E., see Frisén, J., 142
nucleus , 261 preganglionic neurons in rabbit spinal Tilders, F.J.H., see De Goeij, D.C.E., 165
Matsuda, S., Desaki, J., Okumura, N., cord that project to the stellate or the Tohyama, ., see Kashiba, H., 19
Shiosaka, S., Imaoka, S. and Sakanaka, superior cervical ganglion, 181 Torreblanca, A., see Novelli, A., 41
M., Basic fibroblast growth factor-like Tsering, C., see Joseph, R., 268
Pohl, M., Straub, H. and Speckmann, E.-J.,
immunoreactivity in the trigeminal prop- Low magnesium-induced epileptiform Tsubokawa, T., see Katayama, Y., 121
rioceptive and motor systems , 92 discharges in guinea pig hippocampal Tsuzaki, N., see Nakajima, K., 285
Maysinger, D., Herrera-Marschitz, M., Go- slices: depression by the organic calcium
iny, M., Ungerstedt, U. and Cuello, antagonist verapamil, 29 Uchida, K., Excitatory amino acid receptors
appear to mediate paroxysmal depolar-
A.C., Effects of nerve growth factor on Polson, J.W., see Li, Y.-W., 161
cortical and striatal acetylcholine and Privitera, P.J., Daum, P.R., Hill, D.R. and iviztirnog, sh1i5f1t s in rat neocortical neurons in
dopamine release in rats with cortical Hiley, C.R., Autoradiographic visualiza- Ueda, Y., see Kashiba, H., 19
devascularizing lesions, 300 tion and characteristics of ['**I]bradyki-
McCulloch, J., see Dawson, D.A., 210 nin binding sites in guinea pig brain , 73 Ungerstedt, U., see Maysinger, D., 300
McCullough, L.D. and Salamone, J.D., Uryu, K., Okumura, T., Shibasaki, T. and
Puglisi-Allegra, S., see Imperato, A., 194 Sakanaka, M., Fine structure and possi-
Increases in extracellular dopamine lev-
ble origins of nerve fibers with corticotro-
els and locomotor activity after direct Reid, J.L., see Dawson, D.A., 210 pin-releasing factor-like immunoreactiv-
cilnefuuss ioanc cuofm bepnhsen c,y c1l idine into the nu- Renner, K.J., Pazos, L. and Adams, R.N., ity in the rat central amygdaloid nucleus,
McKernan, R.M., see Hatfield, R.H., 249 Idne tevcitvioo n voolft amnmoerterpiicn epherviindeen cer elefaosre thien 175
Merchenthaler, I.J., see Zhang, W.Q., 312 the thalamus of freely moving rats, 49 Von Brauchitsch, K.L., see Lustig, H.S.,
Mesulam, M.-M. and Geula, C., Overlap Risling, M., see Frisén, J., 142 343
between acetylcholinesterase-rich and Robinson, M.J., see Dawson, D.A., 210
choline acetyltransferase-positive Russell, V.A., see Glaser, J., 293 Wada, J.A., see Hirayasu, Y., 36
(cholinergic) axons in human Wang, X.-M., Yuan, B. and Hou, Z.-l., ole
cerebral cortex , 112 Sakanaka, M., see Matsuda, S., 92 of the deep mesencephalic nucleus in the
Meyerson, L., see Haring, J.H., 253 Sakanaka, M., see Uryu, K., 175 antinociception induced by stimulation
Minson, J., see Pilowsky, P., 181 Salamone, J.D., see McCullough, L.D., 1 of the anterior pretectal nucleus in rats,
Mufson, E.J., see Brady, D.R., 236 Saubermann, A.J., Castiglia, C.M. and 321
Foster, M.C., Preferential uptake of Weinberger, N.M., see Bakin, J.S., 226
Nakajima, K., Tsuzaki, N., Shimojo, M., rubidium from extracellular space by Welch, K.M.A., see Joseph, R., 268
Hamanoue, M. and Kohsaka, ., Micro- glial cells compared to neurons in leech
glia isolated from rat brain secrete a Xu, Q., Takahashi, M. and Kaneto, H.,
ganglia, 64
urokinase-type plasminogen activator Schaner, P., see Fifkova, E., 331 Dependency on the brain function of
, 285 Schneider, H., see Huba, R., 10 arginine vasopressin system of the devel-
Nicolelis, M.A.L., Chapin, J.K. and Lin, Seckl, J.R., see Yau, J.L.W., 155 opment to and recovery from analgesic
R.C.S., Somatotopic maps within the Segal, D.S. and Kuczenski, R., Repeated tolerance to morphine , 189
zona incerta relay parallel GABAergic cocaine administration induces behav- Yau, J.L.W., Dow, R.C., Fink, G. and
Novetsle1olx3mi,4a , tsouspeAen.rs,i oorr y Kciosplpaleitrchtuw,lau sy,s J.a,tn od tFhbeer raninánensodtceeozmr-,- Senbicsoarpre,oaa nlss Eees.dse, n sisinete eix zctaaKrtuaaidcsoaenhtl ilebua aln,ada r n dHc .o,ra drcoe1cps9u apmombniednniesn ,g 3dr5ee1-- cSloeerscitkoilnc,so idJ i.nRc.ra,en ads Me edgihlaiulcp opcooscreatpmitpcaoali ld chmoirlneiecnreeaprltgooi-cr
Sánchez, M.T., Torreblanca, A. and Seymour, A.W., see Collins III, W.F., 326 messenger RNA expression, 155
Zmiutsksoe,l s V.,p roDdoumcoei c neaucriodt-ocxoinctiatiyn inign tnoexui-c Shibasaki, T., see Uryu, K., 175 YYeu,a n,H .,B .s,e es eeZ haWnagn,g , W.XQ..-,M .,3 123 21
Shimojo, M., see Nakajima, K., 285
ronal cultures through a synergism be- Shiomi, T., see Katoh, A., 57 Zhang, W.Q., Pennypacker, K.R., Ye, H.,
tween excitatory amino acids, 41 Shiosaka, S., see Matsuda, S., 92 Merchenthaler, I.J., Grimes, L., Ia-
Okumura, N., see Matsuda, S., 92 Silverman, W.F., Neuron-specific enolase darola, M.J. and Hong, J.S., A 35 kDa
Okumura, T., see Uryu, K., 175 reflects metabolic activity in mesenceph- Fos-related antigen is co-localized with
alic neurons of the rat, 276 substance P and dynorphin in striatal
Parada, M.A., Hernández, L. and Degoma, Slater, M.C., see Langan, T.J., 200 neurons, 312
E., Serotonin may play a role in the Snyder, S.H., see Llewellyn-Smith, I.J., Zitko, V., see Novelli, A., 41
anorexia induced by amphetamine injec- 337 Zocchi, A., see Imperato, A., 194
tions into the lateral hypothalamus , 218 Song, Z.-M., see Llewellyn-Smith, I.J., 337
