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Normal spatial learning despite regional inhibition of LTP in mice lacking Thy-1

被引:210
作者
NostenBertrand, M
Errington, ML
Murphy, KPSJ
Tokugawa, Y
Barboni, E
Kozlova, E
Michalovich, D
Morris, RGM
Silver, J
Stewart, CL
Bliss, TVP
Morris, RJ
机构
[1] NATL INST MED RES, DEPT NEUROBIOL, LONDON NW7 1AA, ENGLAND
[2] NATL INST MED RES, DEPT NEUROPHYSIOL, LONDON NW7 1AA, ENGLAND
[3] CORNELL UNIV, COLL MED, N SHORE UNIV HOSP, DIV MOLEC MED, NEW YORK, NY 11030 USA
[4] UNIV ROMA LA SAPIENZA, DEPT HUMAN BIOPATHOL, I-00100 ROME, ITALY
[5] ERASMUS UNIV ROTTERDAM, DEPT CELL BIOL & GENET, 3000 DR ROTTERDAM, NETHERLANDS
[6] UNIV EDINBURGH, CTR NEUROSCI, EDINBURGH EH8 9LE, MIDLOTHIAN, SCOTLAND
[7] ROCHE INST MOLEC BIOL, NUTLEY, NJ 07110 USA
[8] UNITED MED & DENT SCH, GUYS HOSP, DEPT EXPTL PATHOL, LONDON SE1 9RT, ENGLAND
来源
NATURE | 1996年 / 379卷 / 6568期
关键词
D O I
10.1038/379826a0
中图分类号
O [数理科学和化学]; P [天文学、地球科学]; Q [生物科学]; N [自然科学总论];
学科分类号
07 ; 0710 ; 09 ;
摘要
The process of learning involves stable changes in synaptic efficacy for which long-term potentiation (LTP)(1) provides a widely adopted mammalian model. Synaptic modification induced by learning or LTP may involve the action of cell adhesion molecules(2-4). One such candidate is the ubiquitous neuronal glycoprotein Thy-1 (refs 5, 6). In mice in which the gene encoding Thy-1 has been inactivated, we find a regionally selective impairment of LTP in vivo in the hippocampal formation: LTP is normal in area CA1 but strongly inhibited in the dentate gyrus. Spatial learning by Thy-1-deficient mice, as assessed in the watermaze(7), is unimpaired. Thus LTP in the cortical input to the dentate gyrus seems not to be required for spatial learning.
引用
收藏
页码:826 / 829
页数:4
相关论文
共 30 条
[1]   PKC-GAMMA MUTANT MICE EXHIBIT MILD DEFICITS IN SPATIAL AND CONTEXTUAL LEARNING [J].
ABELIOVICH, A ;
PAYLOR, R ;
CHEN, C ;
KIM, JJ ;
WEHNER, JM ;
TONEGAWA, S .
CELL, 1993, 75 (07) :1263-1271
[2]   IMPAIRMENT OF SPATIAL BUT NOT CONTEXTUAL MEMORY IN CAMKII MUTANT MICE WITH A SELECTIVE LOSS OF HIPPOCAMPAL LTP IN THE RANGE OF THE THETA-FREQUENCY [J].
BEACH, ME ;
HAWKINS, RD ;
OSMAN, M ;
KANDEL, ER ;
MAYFORD, M .
CELL, 1995, 81 (06) :905-915
[3]   A SYNAPTIC MODEL OF MEMORY - LONG-TERM POTENTIATION IN THE HIPPOCAMPUS [J].
BLISS, TVP ;
COLLINGRIDGE, GL .
NATURE, 1993, 361 (6407) :31-39
[4]   DEFICIENT LONG-TERM-MEMORY IN MICE WITH A TARGETED MUTATION OF THE CAMP-RESPONSIVE ELEMENT-BINDING PROTEIN [J].
BOURTCHULADZE, R ;
FRENGUELLI, B ;
BLENDY, J ;
CIOFFI, D ;
SCHUTZ, G ;
SILVA, AJ .
CELL, 1994, 79 (01) :59-68
[5]   SPATIAL LOCATION LEARNING IN MICE WITH IBOTENATE LESIONS OF ENTORHINAL CORTEX OR SUBICULUM [J].
CHO, YH ;
JAFFARD, R .
NEUROBIOLOGY OF LEARNING AND MEMORY, 1995, 64 (03) :285-290
[6]   SELECTIVE LOSS OF HIPPOCAMPAL GRANULE CELLS FOLLOWING ADRENALECTOMY - IMPLICATIONS FOR SPATIAL MEMORY [J].
CONRAD, CD ;
ROY, EJ .
JOURNAL OF NEUROSCIENCE, 1993, 13 (06) :2582-2590
[7]   INCREASE IN EXTRACELLULAR NCAM AND AMYLOID PRECURSOR PROTEIN FOLLOWING INDUCTION OF LONG-TERM POTENTIATION IN THE DENTATE GYRUS OF ANESTHETIZED RATS [J].
FAZELI, MS ;
BREEN, K ;
ERRINGTON, ML ;
BLISS, TVP .
NEUROSCIENCE LETTERS, 1994, 169 (1-2) :77-80
[8]   TARGETED DISRUPTION OF NMDA RECEPTOR-1 GENE ABOLISHES NMDA RESPONSE AND RESULTS IN NEONATAL DEATH [J].
FORREST, D ;
YUZAKI, M ;
SOARES, HD ;
NG, L ;
LUK, DC ;
SHENG, M ;
STEWART, CL ;
MORGAN, JI ;
CONNOR, JA ;
CURRAN, T .
NEURON, 1994, 13 (02) :325-338
[9]  
GORDON JA, 1994, SOC NEUR ABSTR, V20
[10]   IMPAIRED LONG-TERM POTENTIATION, SPATIAL-LEARNING, AND HIPPOCAMPAL DEVELOPMENT IN FYN MUTANT MICE [J].
GRANT, SGN ;
ODELL, TJ ;
KARL, KA ;
STEIN, PL ;
SORIANO, P ;
KANDEL, ER .
SCIENCE, 1992, 258 (5090) :1903-1910
123