Table Of ContentJournal of
Neuroimmunology
LSEVIER Journal of Neuroimmunology 70 (1996) 209-210
Author Index (V ol. 70)
Altmann, D.M., see Elliott, J.I. (70) 139 Gillen, C., see Jander, S. (70) 75
Avissar, S. and Schreiber, G. Gjata, B., see Lefaucheur, J.-P. (70) 37
Measurement of early events in signal transduction beyond receptors Gonzalez, B., see Dalmau, I. (70) 123
involving G proteins function in mononuclear leucocytes (70) 81 Good, M.F., see Pender, M.P. (70) 65
Bai, Y., see Carlson, C.D. (70) 181
Handa, S., see Yuki, N. (70) 1
Berman, J.W., see Cuff, C.A. (70) 21
Hart, R.P., see Carlson, C.D. (70) 181
Blalock, J.E., see Galin, F.S. (70) 15
Hawkins, S.A., see Crockard, A.D. (70) 29
Brosnan, C.F., see Cuff, C.A. (70) 21
Hikawa, N. and Takenaka, T.
Cai, J.-P., see Hudson, S.J. (70) 199 Sensory neurons regulate immunoglobulin secretion of spleen cells:
Carlson, C.D., Bai, Y., Ding, M., Jonakait, G.M. and Hart, R.P. cellular analysis of bidirectional communications between neurons
and immune cells (70) 191
Interleukin-1 involvement in the induction of leukemia inhibitory
Houghten, R.A., see Pender, M.P. (70) 65
factor mRNA expression following axotomy of sympathetic ganglia
(70) 181 Hudson, S.J., Cai, J.-P., Thomas, V. and Chin, Y.-H.
Castellano, B., see Dalmau, I. (70) 123 Intracellular signaling of tumor necrosis factor-a in brain microvascu-
Chalmers, D.T., see Lovenberg, T.W. (70) 113 lar endothelial cells is mediated by a protein tyrosine kinase and
Chin, Y.-H., see Hudson, S.J. (70) 199 protein kinase C-dependent pathway (70) 199
Chou, R.C., see Ignatowski, T.A. (70) 55
Clevenger, W., see Lovenberg, T.W. (70) 113 Ibrahim, M.Z.M., Reder, A.T., Lawand, R., Takash, W. and Sallouh-
Cocuzza, C., see Nicoletti, F. (70) 87 Khatib, S.
Crockard, A.D., Treacy, M.T., Droogan, A.G. and Hawkins, S.A. The mast cells of the multiple sclerosis brain (70) 131
Methylprednisolone attenuates interferon-8 induced expression of Ignatowski, T.A., Chou, R.C. and Spengler, R.N.
HLA-DR on monocytes (70) 29 Changes in noradrenergic sensitivity to tumor necrosis factor-a in
Crowe, P.D., see Lovenberg, T.W. (70) 113 brains of rats administered clonidine (70) 55
Csurhes, P.A., see Pender, M.P. (70) 65
Cuff, C.A., Martiney, J.A., Berman, J.W. and Brosnan, C.F.
Jander, S., Pohl, J., Gillen, C., Schroeter, M. and Stoll, G.
Differential effects of transforming growth factor-B1 on interleukin-
Vascular cell adhesion molecule-1 mRNA is expressed in immune-
l-induced cellular inflammation and vascular permeability in the
mediated and ischemic injury of the rat nervous system (70) 75
rabbit retina (70) 21
Jonakait, G.M., see Carlson, C.D. (70) 181
Dalmau, I., Castellano, B., Pedersen, E.B., Finsen, B., Zimmer, J. and
Gonzalez, B. Lacroix, S., Valliéres, L. and Rivest, S.
Reduction of the microglial cell number in rat primary glial cell C-fos mRNA pattern and corticotropin-releasing factor neuronal activ-
cultures by exogenous addition of dibutyryl cyclic adenosine ity throughout the brain of rats injected centrally with a prostaglandin
monophosphate (70) 123 of E2 type (70) 163
De Souza, E.B., see Lovenberg, T.W. (70) 113 Lafont, H., see Lefaucheur, J.-P. (70) 37
Dijkstra, C.D., see Van der Laan, L.J.W. (70) 145 Lawand, R., see Ibrahim, M.Z.M. (70) 131
Di Marco, R., see Nicoletti, F. (70) 87 Lefaucheur, J.-P., Gjata, B., Lafont, H. and Sebille, A.
Ding, M., see Carlson, C.D. (70) 181 Angiogenic and inflammatory responses following skeletal muscle
Dopp, E.A., see Van der Laan, L.J.W. (70) 145 injury are altered by immune neutralization of endogenous basic
Douek, D.C., see Elliott, J.I. (70) 139 fibroblast growth factor, insulin-like growth factor-1 and transforming
Droogan, A.G., see Crockard, A.D. (70) 29 growth factor-B 1 (70) 37
Dubois Dalcq, M., see Voskuhl, R.R. (70) 103 Liaw, C., see Lovenberg, T.W. (70) 113
Liu, C., see Lovenberg, T.W. (70) 113
Elliott, J.1., Douek, D.C. and Altmann, D.M. Liu, X.-J., see Lovenberg, T.W. (70) 113
Mice lacking aB* T cells are resistant to the induction of experi- Lodder, I.J., see Van der Laan, L.J.W. (70) 145
mental autoimmune encephalomyelitis (70) 139 Lovenberg, T.W., Crowe, P.D., Liu, C., Chalmers, D.T., Liu, X.-J., Liaw,
C., Clevenger, W., Oltersdorf, T., De Souza, E.B. and Maki, R.A.
Farris II, R.W., see Voskuhl, R.R. (70) 103
Cloning of a cDNA encoding a novel interleukin-1 receptor related
Finsen, B., see Dalmau, I. (70) 123 protein (IL1R-rp2) (70) 113
Galin, F.S., Zhou, S.-R., Whitaker, J.N. and Blalock, J.E.
Preferential association of VA.x light chains with y2a heavy chains in Maity, R., Mukherjee, R. and Skolnick, P.
naturally occurring human myelin basic protein reactive antibodies Stereoselective inhibition of natural killer activity by the sigma ligand
(70) 15 (+)-pentazocine (70) 7
210 Author Index (Vol. 70)
Maki, R.A., see Lovenberg, T.W. (70) 113 Sallouh-Khatib, S., see Ibrahim, M.Z.M. (70) 131
Martiney, J.A., see Cuff, C.A. (70) 21 Satoh, M., see Yamakuni, H. (70) 45
McCombe, P.A., Nickson, I., Tabi, Z. and Pender, M.P. Schreiber, G., see Avissar, S. (70) 81
Corticosteroid treatment of experimental autoimmune en- Schroeter, M., see Jander, S. (70) 75
cephalomyelitis in the Lewis rat results in loss of VB8.2* and myelin Sebille, A., see Lefaucheur, J.-P. (70) 37
basic protein-reactive cells from the spinal cord, with increased total Skolnick, P., see Maity, R. (70) 7
T-cell apoptosis but reduced apoptosis of VB8.2* cells (70) 93 Spengler, R.N., see Ignatowski, T.A. (70) 55
McCombe, P.A., see Pender, M.P. (70) 65 Stoll, G., see Jander, S. (70) 75
McFarland, H.F., see Voskuhl, R.R. (70) 103
Minami, M., see Yamakuni, H. (70) 45 Tabi, Z., see McCombe, P.A. (79) 93
Mukherjee, R., see Maity, R. (70) 7 Tagawa, Y., see Yuki, N. (70) 1
Takash, W., see Ibrahim, M.Z.M. (70) 131
Nagasato, K., see Voskuhl, R.R. (70) 103 Takenaka, T., see Hikawa, N. (70) 191
Nickson, I., see McCombe, P.A. (70) 93 Thomas, V., see Hudson, S.J. (70) 199
Nicoletti, A., see Nicoletti, F. (70) 87 Treacy, M.T., see Crockard, A.D. (70) 29
Nicoletti, F., Patti, F., Cocuzza, C., Zaccone, P., Nicoletti, A., Di Marco,
Valliéres, L., see Lacroix, S. (70) 163
R. and Reggio, A.
Van der Laan, L.J.W., Ruuls, S.R., Weber, K.S., Lodder, I.J., Dopp, E.A.
Elevated serum levels of interleukin-12 in chronic progressive multi-
ple sclerosis (70) 87 and Dijkstra, C.D.
Macrophage phagocytosis of myelin in vitro determined by flow
Oltersdorf, T., see Lovenberg, T.W. (70) 113 cytometry: phagocytosis is mediated by CR3 and induces production
of tumor necrosis factor-a and nitric oxide (70) 145
Patti, F., see Nicoletti, F. (70) 87 Voskuhl, R.R., Farris II, R.W., Nagasato, K., McFarland, H.F. and
Pedersen, E.B., see Dalmau, I. (70) 123 Dubois Dalcq, M.
Epitope spreading occurs in active but not passive EAE induced by
Pender, M.P., Csurhes, P.A., Houghten, R.A., McCombe, P.A. and Good,
myelin basic protein (70) 103
M.LF.
A study of human T-cell lines generated from multiple sclerosis Weber, K.S., see Van der Laan, L.J.W. (70) 145
patients and controls by stimulation with peptides of myelin basic
Whitaker, J.N., see Galin, F.S. (70) 15
protein (70) 65
Pender, M.P., see McCombe, P.A. (70) 93 Yamakuni, H., Minami, M. and Satoh, M.
Pohl, J., see Jander, S. (70) 75 Localization of mRNA for leukemia inhibitory factor receptor in the
adult rat brain (70) 45
Reder, A.T., see Ibrahim, M.Z.M. (70) 131 Yuki, N., Tagawa, Y. and Handa, S.
Reggio, A., see Nicoletti, F. (70) 87 Autoantibodies to peripheral nerve glycosphingolipids SPG, SLPG,
Reichert, F. and Rotshenker, S. and SGPG in Guillain-Barré syndrome and chronic inflammatory
Deficient activation of microglia during optic nerve degeneration (70) demyelinating polyneuropathy (70) 1
153
Rivest, S., see Lacroix, S. (70) 163 Zaccone, P., see Nicoletti, F. (70) 87
Rotshenker, S., see Reichert, F. (70) 153 Zhou, S.-R., see Galin, F.S. (70) 15
Ruuls, S.R., see Van der Laan, L.J.W. (70) 145 Zimmer, J., see Dalmau, I. (70) 123
Journal of
Neuroimmunology
Journal of Neuroimmunology 70 (1996) 211-215
Subject Index (V ol. 70)
Adrenergic Brain microvascular endothelial cells
Tumor necrosis factor; Hippocampus; Clonidine; Brain (Ignatowski, T.A. Signal transduction; Tumor necrosis factor-a (Hudson, S.J. (70) 199)
(70) 55)
Cell cultures
Antibodies
dB-cAMP; Microglia; Nucleoside diphosphatase; OX42; Glial fibrillary
Experimental allergic encephalomyelitis; B-lymphocytes; Autoimmunity; acidic protein (Dalmau, I. (70) 123)
Multiple sclerosis (Galin, F.S. (70) 15)
Cerebral ischemia
Apoptosis
Corticosteroids; Experimental autoimmune encephalomyelitis; Multiple In situ hybridization; Endothelium; Macrophage; Wallerian degeneration;
sclerosis; Recovery; T-lymphocytes (McCombe, P.A. (70) 93) Experimental autoimmune encephalomyelitis; Experimental autoimmune
neuritis (Jander, S. (70) 75)
Autoantibody
Guillain-Barré syndrome; Chronic inflammatory demyelinating polyneu- c-fos
ropathy; Peripheral nerve; Glycosphingolipid (Yuki, N. (70) 1) Corticotropin-releasing factor; Corticotropin-releasing factor receptor;
Hypothalamic—pituitary—adrenal axis; Immediate early genes; In situ
Autoimmune diseases hybridization histochemistry; I ycytoch y; Intronic probe tech-
Cytokines; Experimental allergic encephalomyelitis interleukin-12; Multi- nology; Immune response; Male rats; Neuroendocrinology; Paraventricu-
ple sclerosis (Nicoletti, F. (70) 87) lar nucleus of the hypothalamus; Supraoptic nucleus of the hypothalamus;
Vasopressin; Oxytocin (Lacroix, S. (70) 163)
Autoimmunity
Experimental allergic encephalomyelitis; B-lymphocytes; Antibodies; Cholinergic differentiation factor
Multiple sclerosis (Galin, F.S. (70) 15)
Leukemia inhibitory factor; Receptor; In situ hybridization; Rat
(Yamakuni, H. (70) 45)
Axotomy
Leukemia inhibitory factor; Interleukin-1; Interleukin-1 receptor; Sympa-
thetic ganglia; Dexamethasone; Substance P; Superior cervical ganglia Chronic inflammatory demyelinating polyneuropathy
(Carlson, C.D. (70) 181) Guillain-Barré syndrome; Autoantibody; Peripheral nerve; Glycosphin-
golipid (Yuki, N. (70) 1)
B-adrenergic
G proteins; Muscarinic; Dopamine receptors; Mononuclear leucocytes Clonidine
(Avissar, S. (70) 81) Tumor necrosis factor; Adrenergic; Hippocampus; Brain (Ignatowski,
T.A. (70) 55)
Basic fibroblast growth factor
Insulin-like growth factor-1; Transforming growth factor-B 1; Endothelial Corticosteroids
cell; Macrophage; Mast cell (Lefaucheur, J.-P. (70) 37)
Apoptosis; Experimental autoimmune encephalomyelitis; Multiple sclero-
sis; Recovery; T-lymphocytes (McCombe, P.A. (70) 93)
dB-cAMP
Cell cultures; Microglia; Nucleoside diphosphatase; OX42; Glial fibril-
lary acidic protein (Dalmau, I. (70) 123) Corticotropin-releasing factor
Corticotropin-releasing factor receptor; c-fos; Hypothalamic—pituitary—
Blood-retina barrier adrenal axis; Immediate early genes; In situ hybridization histochemistry;
Interleukin-1; Transforming growth factor 8; Inflammation; Vascular Immunocytoch y; Intronic probe technology; Immune response;
permeability; Rabbit (Cuff, C.A. (70) 21) Male rats; Neuroendocrinology; Paraventricular nucleus of the hypothala-
mus; Supraoptic nucleus of the hypothalamus; Vasopressin; Oxytocin
(Lacroix, S. (70) 163)
B-lymphocytes
Experimental allergic encephalomyelitis; Autoimmunity; Antibodies;
Multiple sclerosis (Galin, F.S. (70) 15) Corticotropin-releasing factor receptor
Corticotropin-releasing factor; c-fos; Hypothalamic—pituitary—adrenal
Brain axis; Immediate early genes; In situ hybridization histochemistry; Im-
Tumor necrosis factor; Adrenergic; Hippocampus; Clonidine (Ignatowski, munocytochemistry; Intronic probe technology; Immune response; Male
T.A. (70) 55) rats; Neuroendocrinology; Paraventricular nucleus of the hypothalamus;
Supraoptic nucleus of the hypothalamus; Vasopressin; Oxytocin (Lacroix,
Interleukin-1 receptor (Lovenberg, T.W. (70) 113) S. (70) 163)
212 Subject Index (Vol. 70)
CR3 Flow cytometry
Demyelination; Macrophage; Myelin; Flow cytometry; Ingestion Demyelination; Macrophage; Myelin; Ingestion; CR3 (Van der Laan,
(Van der Laan, L.J.W. (70) 145) L.J.W. (70) 145)
Cryptic epitope Glial fibrillary acidic protein
Isoform; Multiple sclerosis; Myelin basic protein; Peptide; T-cell (Pender, Cell cultures; dB—cAMP; Microglia; Nucleoside diphosphatase; OX42
M.P. (70) 65) (Dalmau, I. (70) 123)
Cytokines Glycosphingolipid
Autoimmune diseases; Experimental allergic encephalomyelitis inter- Guillain-Barré syndrome; Chronic inflammatory demyelinating polyneu-
leukin-12; Multiple sclerosis (Nicoletti, F. (70) 87) ropathy; Autoantibody; Peripheral nerve (Yuki, N. (70) 1)
Demyelination G proteins
Macrophage; Myelin; Flow cytometry; Ingestion; CR3 (Van der Laan, -adrenergic; Muscarinic; Dopamine receptors; Mononuclear leucocytes
L.J.W. (70) 145) (Avissar, S. (70) 81)
Dexamethasone Guillain-Barré syndrome
Leukemia inhibitory factor; Interleukin-1; Interleukin-1 receptor; Sympa- Chronic inflammatory demyelinating polyneuropathy; Autoantibody; Pe-
thetic ganglia; Axotomy; Substance P; Superior cervical ganglia (Carlson, ripheral nerve; Glycosphingolipid (Yuki, N. (70) 1)
C.D. (70) 181)
Hippocampus
Dopamine receptors Tumor necrosis factor; Adrenergic; Clonidine; Brain (Ignatowski, T.A.
G proteins; B-adrenergic; Muscarinic; Mononuclear leucocytes (Avissar, (70) 55)
S. (70) 81)
HLA-DR
DRG neuron Interferon-B; Methylprednisolone; Monocytes; Multiple sclerosis (Croc-
Neurokinin A; Vasoactive intestinal peptide; Neuropeptides; Neuroim- kard, A.D. (70) 29)
munology (Hikawa, N. (70) 191)
Hypothalamic-pituitary—adrenal axis
Endothelial cell Corticotropin-releasing factor; Corticotropin-releasing factor receptor; c-
Basic fibroblast growth factor; Insulin-like growth factor-1; Transforming fos; Immediate early genes; In situ hybridization histochemistry; Im-
growth factor-B1 ;M acrophage; Mast cell (Lefaucheur, J.-P. (70) 37) munocytochemistry; Intronic probe technology; Immune response; Male
rats; Neuroendocrinology; Paraventricular nucleus of the hypothalamus;
Endothelium Supraoptic nucleus of the hypothalamus; Vasopressin; Oxytocin (Lacroix,
In situ hybridization; Macrophage; Wallerian degeneration; Experimental S. (70) 163)
autoimmune encephalomyelitis; Experimental autoimmune neuritis; Cere-
bral ischemia (Jander, S. (70) 75) IgE
Multiple sclerosis; Mast cells; Tryptase (Ibrahim, M.Z.M. (70) 131)
Epitope spreading
Myelin basic protein; Proteolipid protein;.T lymphocyte; Experimental Immediate early genes
allergic encephalomyelitis (Voskuhl, R.R. (70) 103) Corticotropin-releasing factor; Corticotropin-releasing factor receptor; c-
fos; Hypothalamic—pituitary—adrenal axis; In situ hybridization histo-
Experimental allergic encephalomyelitis chemistry; Immunocytochemistry; Intronic probe technology; Immune
B-lymphocytes; Autoimmunity; Antibodies; Multiple sclerosis (Galin, response; Male rats; Neuroendocrinology; Paraventricular nucleus of the
F.S. (70) 15) hypothalamus; Supraoptic nucleus of the hypothalamus; Vasopressin;
Oxytocin (Lacroix, S. (70) 163)
Epitope spreading; Myelin basic protein; Proteolipid protein; T lympho-
cyte (Voskuhl, R.R. (70) 103) Immune response
Corticotropin-releasing factor; Corticotropin-releasing factor receptor; c-
Experimental allergic encephalomyelitis interteukin-12 fos; Hypothalamic—pituitary—adrenal axis; Immediate early genes; In situ
Autoimmune diseases; Cytokines; Multiple sclerosis (Nicoletti, F. (70) hybridization histochemistry; Immunocytochemistry; Intronic probe tech-
87) nology; Male rats; Neuroendocrinology; Paraventricular nucleus of the
hypothalamus; Supraoptic nucleus of the hypothalamus; Vasopressin;
Experimental autoimmune encephalomyelitis Oxytocin (Lacroix, S. (70) 163)
In situ hybridization; Endothelium; Macrophage; Wallerian degeneration;
Experimental autoimmune neuritis; Cerebral ischemia (Jander, S. (70) 75) ytoc ry
Corticotropin-releasing factor; Corticotropin-releasing factor receptor; c-
Apoptosis; Corticosteroids; Multiple sclerosis; Recovery; T-lymphocytes fos; Hypothalamic—pituitary—adrenal axis; Immediate early genes; In situ
(McCombe, P.A. (70) 93) hybridization histochemistry; Intronic probe technology; Immune re-
sponse; Male rats; Neuroendocrinology; Paraventricular nucleus of the
y6-T cells; aB-T cells (Elliott, J.1. (70) 139) hypothalamus; Supraoptic nucleus of the hypothalamus; Vasopressin;
Oxytocin (Lacroix, S. (70) 163)
Experimental autoimmune neuritis
In situ hybridization; Endothelium; Macrophage; Wallerian degeneration; Inflammation
Experimental autoimmune encephalomyelitis; Cerebral ischemia (Jander, Interleukin-1; Transforming growth factor 8; Blood-retina barrier; Vascu-
S. (70) 75) lar permeability; Rabbit (Cuff, C.A. (70) 21)
Subject Index (Vol. 70)
Ingestion Macrophage
Demyelination; Macrophage; Myelin; Flow cytometry; CR3 Basic fibroblast growth factor; Insulin-like growth factor-1; Transforming
(Van der Laan, L.J.W. (70) 145) growth factor-81; Endothelial cell; Mast cell (Lefaucheur, J.-P. (70) 37)
In situ hybridization In situ hybridization; Endothelium; Wallerian degeneration; Experimental
Leukemia inhibitory factor; Cholinergic differentiation factor; Receptor; autoimmune encephalomyelitis; Experimental autoimmune neuritis; Cere-
Rat (Yamakuni, H. (70) 45) bral ischemia (Jander, S. (70) 75)
Endothelium; Macrophage; Wallerian degeneration; Experimental autoim- Demyelination; Myelin; Flow cytometry; Ingestion; CR3 (Van der Laan,
mune encephalomyelitis; Experimental autoimmune neuritis; Cerebral L.J.W. (70) 145)
ischemia (Jander, S. (70) 75)
Optic nerve; Wallerian degeneration; Nerve regeneration; Microglia;
In situ hybridization histochemistry Myelin; MAC-2 (Reichert, F. (70) 153)
Corticotropin-releasing factor; Corticotropin-releasing factor receptor; c-
fos; Hypothalamic—pituitary—adrenal axis; Immediate early genes; Im- Male rats
munocytochemistry; Intronic probe technology; Immune response; Male Corticotropin-releasing factor; Corticotropin-releasing factor receptor; c-
rats; Neuroendocrinology; Paraventricular nucleus of the hypothalamus; fos; Hypothalamic—pituitary—adrenal axis; Immediate early genes; In situ
Supraoptic nucleus of the hypothalamus; Vasopressin; Oxytocin (Lacroix, hybridization histochemistry; I cytoch y; Intronic probe tech-
S. (70) 163) nology; Immune response; Neuroendocrinology; Paraventricular nucleus
of the hypothalamus; Supraoptic nucleus of the hypothalamus; Vaso-
Insulin-like growth factor-1 pressin; Oxytocin (Lacroix, S. (70) 163)
Basic fibroblast growth factor; Transforming growth factor-B 1; Endothe-
lial cell; Macrophage; Mast cell (Lefaucheur, J.-P. (70) 37) Mast cell
Basic fibroblast growth factor; Insulin-like growth factor-1; Transforming
Interferon-B growth factor-81; Endothelial cell; Macrophage (Lefaucheur, J.-P. (70)
HLA-DR; Methylprednisolone; Monocytes; Multiple sclerosis (Crockard, 37) ;
A.D. (70) 29)
Multiple sclerosis; IgE; Tryptase (Ibrahim, M.Z.M. (70) 131)
Interleukin-1
Transforming growth factor B; Inflammation; Blood-retina barrier; Vas-
Methylprednisolone
cular permeability; Rabbit (Cuff, C.A. (70) 21)
HLA-DR; Interferon-8; Monocytes; Multiple sclerosis (Crockard, A.D.
(70) 29)
Leukemia inhibitory factor; Interleukin-1 receptor; Sympathetic ganglia;
Axotomy; Dexamethasone; Substance P; Superior cervical ganglia (Carl-
Microglia
son, C.D. (70) 181)
Cell cultures; dB—cAMP; Nucleoside diphosphatase; OX42; Glial fibril-
lary acidic protein (Dalmau, I. (70) 123)
Interleukin-1 receptor
Brain (Lovenberg, T.W. (70) 113)
Optic nerve; Wallerian degeneration; Nerve regeneration; Macrophage;
Myelin; MAC-2 (Reichert, F. (70) 153)
Leukemia inhibitory factor; Interleukin-1; Sympathetic ganglia; Axo-
tomy; Dexamethasone; Substance P; Superior cervical ganglia (Carlson,
Monocytes
C.D. (70) 181)
HLA-DR; Interferon-8; Methylprednisolone; Multiple sclerosis (Croc-
kard, A.D. (70) 29)
Intronic probe technology
Corticotropin-releasing factor; Corticotropin-releasing factor receptor; c-
Mononuclear leucocytes
fos; Hypothalamic—pituitary—adrenal axis; Immediate early genes; In situ
G proteins; B-adrenergic; Muscarinic; Dopamine receptors (Avissar, S.
hybridization histochemistry; Immunocytochemistry; Immune response;
(70) 81)
Male rats; Neuroendocrinology; Paraventricular nucleus of the hypothala-
mus; Supraoptic nucleus of the hypothalamus; Vasopressin; Oxytocin
(Lacroix, S. (70) 163) Multiple sclerosis
Experimental allergic encephalomyelitis; B-lymphocytes; Autoimmunity;
Antibodies (Galin, F.S. (70) 15)
Isoform
Cryptic epitope; Multiple sclerosis; Myelin basic protein; Peptide; T-cell
(Pender, M.P. (70) 65) HLA-DR; Interferon-8; Methylprednisolone; Monocytes (Crockard, A.D.
(70) 29)
Leukemia inhibitory factor
Cholinergic differentiation factor; Receptor; In situ hybridization; Rat Cryptic epitope; Isoform; Myelin basic protein; Peptide; T-cell (Pender,
(Yamakuni, H. (70) 45) MP. (70) 65)
Interleukin-1; Interleukin-1 receptor; Sympathetic ganglia; Axotomy; Autoimmune diseases; Cytokines; Experimental allergic encephalomyeli-
Dexamethasone; Substance P; Superior cervical ganglia (Carlson, C.D. tis interleukin-12 (Nicoletti, F. (70) 87)
(70) 181)
Apoptosis; Corticosteroids; Experimental autoimmune encephalomyelitis;
MAC:2 Recovery; T-lymphocytes (McCombe, P.A. (70) 93)
Optic nerve; Wallerian degeneration; Nerve regeneration; Microglia;
Macrophage; Myelin (Reichert, F. (70) 153) Mast cells; IgE; Tryptase (Ibrahim, M.Z.M. (70) 131)
214 Subject Index (Vol. 70)
Muscarinic hybridization histochemistry; Immunocytochemistry; Intronic probe tech-
G proteins; B-adrenergic; Dopamine receptors; Mononuclear leucocytes nology; Immune response; Male rats; Neuroendocrinology; Supraoptic
(Avissar, S. (70) 81) nucleus of the hypothalamus; Vasopressin; Oxytocin (Lacroix, S. (70)
163)
Myelin
Demyelination; Macrophage; Flow cytometry; Ingestion; CR3 Pentazocine
(Van der Laan, L.J.W. (70) 145) ‘ Sigma receptors; NK cell activity; Splenocyte (Maity, R. (70) 7)
Optic nerve; Wallerian degeneration; Nerve regeneration; Microglia;
Macrophage; MAC-2 (Reichert, F. (70) 153) Peptide
Cryptic epitope; Isoform; Multiple sclerosis; Myelin basic protein; T-cell
(Pender, M.P. (70) 65)
Myelin basic protein
Cryptic epitope; Isoform; Multiple sclerosis; Peptide; T-cell (Pender,
M.P. (70) 65) Peripheral nerve
Guillain-Barré syndrome; Chronic inflammatory demyelinating polyneu-
Epitope spreading; Proteolipid protein; T lymphocyte; Experimental aller- ropathy; Autoantibody; Glycosphingolipid (Yuki, N. (70) 1)
gic encephalomyelitis (Voskuhl, R.R. (70) 103)
Proteolipid protein
Nerve regeneration Epitope spreading; Myelin basic protein; T lymphocyte; Experimental
Optic nerve; Wallerian degeneration; Microglia; Macrophage; Myelin; allergic encephalomyelitis (Voskuhl, R.R. (70) 103)
MAC-2 (Reichert, F. (70) 153)
Rabbit
Neuroendocrinology
Corticotropin-releasing factor; Corticotropin-releasing factor receptor; c- Interleukin-1; Transforming growth factor B; Inflammation; Blood-retina
barrier; Vascular permeability (Cuff, C.A. (70) 21)
fos; Hypothalamic—pituitary—adrenal axis; Immediate early genes; In situ
hybridization histochemistry; Immunocytochemistry; Intronic probe tech-
nology; Immune response; Male rats; Paraventricular nucleus of the Rat
hypothalamus; Supraoptic nucleus of the hypothalamus; Vasopressin; Leukemia inhibitory factor; Cholinergic differentiation factor; Receptor;
Oxytocin (Lacroix, S. (70) 163) In situ hybridization (Yamakuni, H. (70) 45)
Neuroimmunology
Receptor
DRG neuron; Neurokinin A; Vasoactive intestinal peptide; Neuropeptides
Leukemia inhibitory factor; Cholinergic differentiation factor; In situ
(Hikawa, N. (70) 191) hybridization; Rat (Yamakuni, H. (70) 45)
Neurokinin A
DRG neuron; Vasoactive intestinal peptide; Neuropeptides; Neuroim- Recovery
munology (Hikawa, N. (70) 191) Apoptosis; Corticosteroids; Experimental autoimmune encephalomyelitis;
Multiple sclerosis; T-lymphocytes (McCombe, P.A. (70) 93)
Neuropeptides
DRG neuron; Neurokinin A; Vasoactive intestinal peptide; Neuroim- Sigma receptors
munology (Hikawa, N. (70) 191) Pentazocine; NK cell activity; Splenocyte (Maity, R. (70) 7)
NK cell activity
Signal transduction
Sigma receptors; Pentazocine; Splenocyte (Maity, R. (70) 7)
Tumor necrosis factor-a; Brain microvascular endothelial cells (Hudson,
S.J. (70) 199)
Nucleoside diphosphatase
Cell cultures; dB—cAMP; Microglia; OX42; Glial fibrillary acidic protein
(Dalmau, I. (70) 123) Splenocyte
Sigma receptors; Pentazocine; NK cell activity (Maity, R. (70) 7)
Optic nerve
Wallerian degeneration; Nerve regeneration; Microglia; Macrophage; Substance P
Myelin; MAC-2 (Reichert, F. (70) 153) Leukemia inhibitory factor; Interleukin-1; Interleukin-1 receptor; Sympa-
thetic ganglia; Axotomy; Dexamethasone; Superior cervical ganglia
OX42 (Carlson, C.D. (70) 181)
Cell cultures; dB-cAMP; Microglia; Nucleoside diphosphatase; Glial
fibrillary acidic protein (Dalmau, I. (70) 123)
Superior cervical ganglia
Leukemia inhibitory factor; Interleukin-1; Interleukin-1 receptor; Sympa-
Oxytocin
thetic ganglia; Axotomy; Dexamethasone; Substance P (Carlson, C.D.
Corticotropin-releasing factor; Corticotropin-releasing factor receptor; c-
(70) 181)
fos; Hypothalamic—pituitary—adrenal axis; Immediate early genes; In situ
hybridization histochemistry; Immunocytochemistry; Intronic probe tech-
nology; Immune response; Male rats; Neuroendocrinology; Paraventricu- Supraoptic nucleus of the hypothalamus
lar nucleus of the hypothalamus; Supraoptic nucleus of the hypothalamus; Corticotropin-releasing factor; Corticotropin-releasing factor receptor; c-
Vasopressin (Lacroix, S. (70) 163) fos; Hypothalamic-—pituitary—adrenal axis; Immediate early genes; In situ
hybridization histochemistry; Immunocytochemistry; Intronic probe tech-
Paraventricular nucleus of the hypothalamus nology; Immune response; Male rats; Neuroendocrinology; Paraventricu-
Corticotropin-releasing factor; Corticotropin-releasing factor receptor; c- lar nucleus of the hypothalamus; Vasopressin; Oxytocin (Lacroix, S. (70)
fos; Hypothalamic—pituitary—adrenal axis; Immediate early genes; In situ 163)
Subject Index (Vol. 70)
Sympathetic ganglia Tumor necrosis factor
Leukemia inhibitory factor; Interleukin-1; Interleukin-1 receptor; Axo- Adrenergic; Hippocampus; Clonidine; Brain (Ignatowski, T.A. (70) 55)
tomy; Dexamethasone; Substance P; Superior cervical ganglia (Carlson,
C.D. (70) 181)
Tumor necrosis factor-a
Signal transduction; Brain microvascular endothelial cells (Hudson, S.J.
T-cell (70) 199)
Cryptic epitope; Isoform; Multiple sclerosis; Myelin basic protein; Pep-
tide (Pender, M.P. (70) 65)
Vascular permeability
a B-T cells Interleukin-1; Transforming growth factor 8; Inflammation; Blood-retina
Experimental autoimmune encephalomyelitis; y6-T cells (Elliott, J.I. (70) barrier; Rabbit (Cuff, C.A. (70) 21)
139)
Vasoactive intestinal peptide
y6-T cells DRG neuron; Neurokinin A; Neuropeptides; Neuroimmunology (Hikawa,
Experimental autoimmune encephalomyelitis; aB-T cells (Elliott, J.I. N. (70) 191)
(70) 139)
T-lymphocytes Vasopressin
Apoptosis; Corticosteroids; Experimental autoimmune encephalomyelitis; Corticotropin-releasing factor; Corticotropin-releasing factor receptor; c-
Multiple sclerosis; Recovery (McCombe, P.A. (70) 93) fos; Hypothalamic—pituitary—adrenal axis; Immediate early genes; In situ
hybridization histochemistry; I cytochemistry; Intronic probe tech-
Epitope spreading; Myelin basic protein; Proteolipid protein; Experimen- nology; Immune response; Male rats; Neuroendocrinology; Paraventricu-
tal allergic encephalomyelitis (Voskuhl, R.R. (70) 103) lar nucleus of the hypothalamus; Supraoptic nucleus of the hypothalamus;
Oxytocin (Lacroix, S. (70) 163)
Transforming growth factor B
Interleukin-1; Inflammation; Blood-retina barrier; Vascular permeability; Wallerian degeneration
Rabbit (Cuff, C.A. (70) 21) In situ hybridization; Endothelium; Macrophage; Experimental autoim-
mune encephalomyelitis; Experimental autoimmune neuritis; Cerebral
Transforming growth factor-61 ischemia (Jander, S. (70) 75)
Basic fibroblast growth factor; Insulin-like growth factor-1; Endothelial
cell; Macrophage; Mast cell (Lefaucheur, J.-P. (70) 37)
Optic nerve; Nerve regeneration; Microglia; Macrophage; Myelin; MAC-2
(Reichert, F. (70) 153)
Tryptase
Multiple sclerosis; Mast cells; IgE (Ibrahim, M.Z.M. (70) 131)
