CNR/Pcdhα family in subplate neurons, and developing cortical connectivity

NeuroReport

Volumn 15, Issue 17, 2004, Pages 2595-2599

  Morishita, Hirofumi ^a,b,d   Murata, Yoji ^a,d   Esumi, Shigeyuki ^a,d   Hamada, Shun ^a,d   Yagi, Takeshi ^a,b,c,d  

^a Grad School of Frontier Biosciences   (Japan)

^b OSAKA UNIVERSITY GRADUATE SCHOOL OF MEDICINE   (Japan)

^c NATIONAL INSTITUTE FOR PHYSIOLOGICAL SCIENCES   (Japan)

^d JAPAN SCIENCE AND TECHNOLOGY AGENCY   (Japan)

Author keywords

Cadherin related neuronal receptor; Corticofugal axon; Protocadherin; Subplate neuron; Thalamocortical axon

Indexed keywords

BROXURIDINE; CADHERIN; CADHERIN RELATED NEURONAL RECEPTOR; CELL RECEPTOR; PROTEIN PRECURSOR; PROTOCADHERIN ALPHA; UNCLASSIFIED DRUG; 4',6 DIAMIDINO 2 PHENYLINDOLE; CALGRANULIN; CELL SURFACE RECEPTOR; CONTACTIN 2; INDOLE DERIVATIVE; MYC PROTEIN; MYC PROTEIN, MOUSE; NERVE CELL ADHESION MOLECULE; NEUROPEPTIDE; PCDHA4 PROTEIN, MOUSE; PROTEOCHONDROITIN SULFATE;

AMINO ACID SEQUENCE; ANIMAL TISSUE; ARTICLE; BRAIN CORTEX; BRAIN DEVELOPMENT; CHEMICAL LABELING; CONTROLLED STUDY; CORTICAL CONNECTIVITY; GENETIC CONSERVATION; HOMOZYGOSITY; IMMUNOHISTOCHEMISTRY; IN SITU HYBRIDIZATION; MOUSE; MOUSE STRAIN; NEOCORTEX; NERVE CELL NETWORK; NERVE TRACT; NONHUMAN; PRIORITY JOURNAL; PROTEIN ANALYSIS; PROTEIN EXPRESSION; PROTEIN FAMILY; REELER MOUSE MUTANT; SUBPLATE NERVE CELL; THALAMOCORTICAL TRACT; ANIMAL; C57BL MOUSE; CELL LINE; COMPARATIVE STUDY; CYTOLOGY; EMBRYO; FEMALE; GENE EXPRESSION REGULATION; GENETIC TRANSFECTION; GENETICS; HUMAN; INSTITUTE FOR CANCER RESEARCH MOUSE; MALE; METABOLISM; METHODOLOGY; MOUSE MUTANT; NERVE CELL; PHYSIOLOGY; PREGNANCY; PRENATAL DEVELOPMENT; WESTERN BLOTTING;

ANIMALS; BLOTTING, WESTERN; BROMODEOXYURIDINE; CELL ADHESION MOLECULES, NEURONAL; CELL LINE; EMBRYO; FEMALE; GENE EXPRESSION REGULATION, DEVELOPMENTAL; HUMANS; IMMUNOHISTOCHEMISTRY; IN SITU HYBRIDIZATION; INDOLES; LEUKOCYTE L1 ANTIGEN COMPLEX; MALE; MICE; MICE, INBRED C57BL; MICE, INBRED ICR; MICE, NEUROLOGIC MUTANTS; NEOCORTEX; NEURAL PATHWAYS; NEURONS; NEUROPEPTIDES; PREGNANCY; PROTEOCHONDROITIN SULFATES; PROTO-ONCOGENE PROTEINS C-MYC; RECEPTORS, CELL SURFACE; TRANSFECTION;

EID: 10844244138     PISSN: 09594965     EISSN: None     Source Type: Journal    
DOI: 10.1097/00001756-200412030-00007     Document Type: Article

References (24)

1. Kohmura N, Senzaki K, Hamada S, Kai N, Yasuda R, Watanabe M et al. Diversity revealed by a novel family of cadherins expressed in neurons at a synaptic complex. Neuron 1998; 20:1137-1151.
2. Wu Q and Maniatis T. A striking organization of a large family of human neural cadherin-like cell adhesion genes. Cell 1999; 97: 779-790.
3. Sugino H, Hamada S, Yasuda R, Tuji A, Matsuda Y, Fujita M et al. Genomic organization of the family of CNR cadherin genes in mice and humans. Genomics 2000; 3:75-87.
4. Wu Q, Zhang T, Cheng JF, Kim Y, Grimwood J, Schmutz J et al. Comparative DNA sequence analysis of mouse and human protocadherin gene clusters. Genome Res 2001; 11:389-404.
5. Senzaki K, Ogawa M and Yagi T. Proteins of the CNR family are multiple receptors for Reelin. Cell 1999; 99:635-647.
6. Carroll P, Gayet O, Feuillet C, Kallenbach S, de Bovis B, Dudley K et al. Juxtaposition of CNR protocadherins and reelin expression in the developing spinal cord. Mol Cell Neurosci 2001; 17:611-623.
7. Takei Y, Hamada S, Senzaki K, Mutoh T, Sugino H and Yagi T. Two novel CNRs form the CNR gene cluster have molecular features distinct from those of CNR1 to 8. Genomics 2001; 72:321-330.
8. Schaeren-Wiemers N and Gerfin-Moser A. A single protocol to detect transcripts of various types and expression levels in neural tissue and cultured cells: in situ hybridization using digoxigenin-labelled cRNA probes. Histochemistry 1993; 100:431-440.
9. Del Rio JA, Martinez A, Auladell C and Soriano E. Developmental history of the subplate and developing white matter in the murine neocortex. Neuronal organization and relationship with the main afferent systems at embryonic and perinatal stages. Cerebr Cortex 2000; 10:784-801.
10. Wolfer DP, Henehan-Beatty A, Stoeckli ET, Sonderegger P and Lipp HP. Distribution of TAG-1/axonin-1 in fibre tracts and migratory streams of the developing mouse nervous system. J Comp Neurol 1994; 345:1-32.
11. Fukuda T, Kawano H, Ohyama K, Li HP, Takeda Y, Oohira A et al. Immunohistochemical localization of neurocan and L1 in the formation of thalamocortical pathway of developing rats. J Comp Neurol 1997; 382: 141-152.
12. Jones L, Lopez-Bendito G, Gruss P, Stoykova A and Molnar Z. Pax6 is required for the normal development of the forebrain axonal connections. Development 2002; 129:5041-5052.
13. Sheppard AM and Pearlman AL. Abnormal reorganization of preplate neurons and their associated extracellular matrix: an early manifestation of altered neocortical development in the reeler mutant mouse. J Comp Neural 1997; 378:173-179.
14. Redies C, Engelhart K and Takeichi M. Differential expression of N- and R-cadherin in functional neuronal systems and other structures of the developing chicken brain. J Comp Neurol 1993; 333:398-416.
15. Suzuki SC, Inoue T, Kimura Y, Tanaka T and Takeichi M. Neuronal circuits are subdivided by differential expression of type-II classic cadherins in postnatal mouse brains. Mol Cell Neurosci 1997; 9:433-447.
16. Obst-Pernberg K, Medina L and Redies C. Expression of R-cadherin and N-cadherin by cell groups and fiber tracts in the developing mouse forebrain: relation to the formation of functional circuits. Neuroscience 2001; 106:505-533.
17. Treubert-Zimmermann U, Heyers D and Redies C. Targeting axons to specific fiber tracts in vivo by altering cadherin expression. J Neurosci 2002; 22:7617-7626.
18. Redies C, Treubert-Zimmermann U and Luo J. Cadherins as regulators for the emergence of neural nets from embryonic divisions. J Physiol Paris 2003; 97:5-15.
19. Hirano S, Yan Q and Suzuki ST. Expression of a novel protocadherin, OL-protocadherin, in a subset of functional systems of the developing mouse brain. J Neurosci 1999; 19:995-1005.
20. Aoki E, Kimura R, Suzuki ST and Hirano S. Distribution of OL-protocadherin protein in correlation with specific neural compartments and local circuits in the postnatal mouse brain. Neuroscience 2003; 117:593-614.
21. Kallenbach S, Khantane S, Carroll P, Gayet O, Alonso S, Henderson CE et al. Changes in subcellular distribution of protocadherin gamma proteins accompany maturation of spinal neurons. J Neurosci Res 2003; 72:549-556.
22. Wang X, Weiner JA, Levi S, Craig AM, Bradley A and Sanes JR. Gamma protocadherins are required for survival of spinal interneurons. Neuron 2002; 36:843-854.
23. Lopez-Bendito G and Molnar Z. Thalamocortical development: how are we going to get there? Nature Rev Neurosci 2003; 4:276-289.
24. Arber S. Subplate neurons: bridging the gap to function in the cortex. Trends Neurosci 2004; 27:111-113.