N-CAM MUTATION INHIBITS TANGENTIAL NEURONAL MIGRATION AND IS PHENOCOPIED BY ENZYMATIC REMOVAL OF POLYSIALIC ACID

被引:362
作者
ONO, K [1 ]
TOMASIEWICZ, H [1 ]
MAGNUSON, T [1 ]
RUTISHAUSER, U [1 ]
机构
[1] CASE WESTERN RESERVE UNIV,DEPT GENET,CLEVELAND,OH 44106
来源
NEURON | 1994年 / 13卷 / 03期
关键词
D O I
10.1016/0896-6273(94)90028-0
中图分类号
Q189 [神经科学];
学科分类号
071006 ;
摘要
The mutation of N-CAM in mice produces a phenotype dominated by an undersized olfactory bulb and accumulation of precursors in the subependymal layer. We demonstrate here that this defect can be duplicated by injection of an enzyme that specifically destroys the polysialic acid (PSA) moiety associated with N-CAM. Studies of BrdU-labeled and pyknotic cells suggest that this defect reflects a decrease in the rostral migration of olfactory precursors and not a change in the proliferation or rate of death of these cells. In addition to their ectopic location, these cells had fewer growth cone-like processes oriented along the migration route. In contrast to tangential movement, radial migration of granule cells in the olfactory bulb was not affected by loss of PSA. These results support the proposed role for PSA in cell translocation, discriminate between different mechanisms of cell migration, and provide insight as to the nature of the N-CAM mutant phenotype.
引用
收藏
页码:595 / 609
页数:15
相关论文
共 55 条
[1]   NCAM POLYSIALIC ACID CAN REGULATE BOTH CELL CELL AND CELL SUBSTRATE INTERACTIONS [J].
ACHESON, A ;
SUNSHINE, JL ;
RUTISHAUSER, U .
JOURNAL OF CELL BIOLOGY, 1991, 114 (01) :143-153
[2]   AUTORADIOGRAPHIC AND HISTOLOGICAL STUDIES OF POSTNATAL NEUROGENESIS .4. CELL PROLIFERATION AND MIGRATION IN ANTERIOR FOREBRAIN, WITH SPECIAL REFERENCE TO PERSISTING NEUROGENESIS IN OLFACTORY BULB [J].
ALTMAN, J .
JOURNAL OF COMPARATIVE NEUROLOGY, 1969, 137 (04) :433-&
[3]   THE CELL-ADHESION MOLECULE L1 HAS A SPECIFIC ROLE IN NEURAL CELL-MIGRATION [J].
ASOU, H ;
MIURA, M ;
KOBAYASHI, M ;
UYEMURA, K .
NEUROREPORT, 1992, 3 (06) :481-484
[4]  
AUSTIN CP, 1990, DEVELOPMENT, V110, P713
[5]   SEQUENTIAL EXPRESSION AND DIFFERENTIAL FUNCTION OF MULTIPLE ADHESION MOLECULES DURING THE FORMATION OF CEREBELLAR CORTICAL LAYERS [J].
CHUONG, CM ;
CROSSIN, KL ;
EDELMAN, GM .
JOURNAL OF CELL BIOLOGY, 1987, 104 (02) :331-342
[6]   DIFFERENTIAL ROLES OF MULTIPLE ADHESION MOLECULES IN CELL-MIGRATION - GRANULE CELL-MIGRATION IN CEREBELLUM [J].
CHUONG, CM .
EXPERIENTIA, 1990, 46 (09) :892-899
[7]   INACTIVATION OF THE N-CAM GENE IN MICE RESULTS IN SIZE-REDUCTION OF THE OLFACTORY-BULB AND DEFICITS IN SPATIAL-LEARNING [J].
CREMER, H ;
LANGE, R ;
CHRISTOPH, A ;
PLOMANN, M ;
VOPPER, G ;
ROES, J ;
BROWN, R ;
BALDWIN, S ;
KRAEMER, P ;
SCHEFF, S ;
BARTHELS, D ;
RAJEWSKY, K ;
WILLE, W .
NATURE, 1994, 367 (6462) :455-459
[8]   SPATIAL REGULATION OF AXONAL GLYCOPROTEIN EXPRESSION ON SUBSETS OF EMBRYONIC SPINAL NEURONS [J].
DODD, J ;
MORTON, SB ;
KARAGOGEOS, D ;
YAMAMOTO, M ;
JESSELL, TM .
NEURON, 1988, 1 (02) :105-116
[9]   NEURITE OUTGROWTH IN RESPONSE TO TRANSFECTED N-CAM CHANGES DURING DEVELOPMENT AND IS MODULATED BY POLYSIALIC ACID [J].
DOHERTY, P ;
COHEN, J ;
WALSH, FS .
NEURON, 1990, 5 (02) :209-219
[10]   REGULATION AND ACTIVITY-DEPENDENCE OF N-CADHERIN, NCAM ISOFORMS, AND POLYSIALIC ACID ON CHICK MYOTUBES DURING DEVELOPMENT [J].
FREDETTE, B ;
RUTISHAUSER, U ;
LANDMESSER, L .
JOURNAL OF CELL BIOLOGY, 1993, 123 (06) :1867-1888
123456