Caspr2, a New Member of the Neurexin Superfamily, Is Localized at the Juxtaparanodes of Myelinated Axons and Associates with K+ Channels

Poliak, Sebastian; Gollan, Leora; Martínez, Ricardo; Custer, Andrew W.; Einheber, Steven; Salzer, James L.; Trimmer, James S.; Shrager, Peter; Peles, Elior

doi:10.1016/s0896-6273(00)81049-1

Cited by 467 publications

(475 citation statements)

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“…CNTNAP2 is a large gene spanning 2.3 mb of DNA on chromosome 7 and is coding for contactin-associated protein-like 2 (CNTNAP2, also termed Caspr2) a neuronal membrane protein and member of the neurexin superfamily, 36,37 possibly involved in potassium channel trafficking. 36,38 So far it has been suggested as a candidate gene for various neuropsychiatric disorders, [39][40][41][42][43][44][45] however little is known about its specific function and regulation.…”

Section: Discussionmentioning

confidence: 99%

Genome-wide association study with DNA pooling identifies variants at CNTNAP2 associated with pseudoexfoliation syndrome

et al. 2010

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Genetic and nongenetic factors contribute to development of pseudoexfoliation (PEX) syndrome, a complex, age-related, generalized matrix process frequently associated with glaucoma. To identify specific genetic variants underlying its etiology, we performed a genome-wide association study (GWAS) using a DNA-pooling approach. Therefore, equimolar amounts of DNA samples of 80 subjects with PEX syndrome, 80 with PEX glaucoma (PEXG) and 80 controls were combined into separate pools and hybridized to 500K SNP arrays (Affymetrix). Array probe intensity data were analyzed and visualized with expressly developed software tools GPFrontend and GPGraphics in combination with GenePool software. For replication, independent German cohorts of 610 unrelated patients with PEX/PEXG and 364 controls as well as Italian cohorts of 249 patients and 190 controls were used. Of 19, 17 SNPs showing significant allele frequency difference in DNA pools were confirmed by individual genotyping. Further single genotyping at CNTNAP2 locus revealed association between PEX/PEXG for two SNPs, which was confirmed in an independent German but not the Italian cohort. Both SNPs remained significant in the combined German cohorts even after Bonferroni correction (rs2107856: P c ¼0.0108, rs2141388: P c ¼0.0072). CNTNAP2 was found to be ubiquitously expressed in all human ocular tissues, particularly in retina, and localized to cell membranes of epithelial, endothelial, smooth muscle, glial and neuronal cells. Confirming efficiency of GWAS with DNA-pooling approach by detection of the known LOXL1 locus, our study data show evidence for association of CNTNAP2 with PEX syndrome and PEXG in German patients.

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Section: Discussionmentioning

confidence: 99%

Genome-wide association study with DNA pooling identifies variants at CNTNAP2 associated with pseudoexfoliation syndrome

et al. 2010

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“…33,34 Specifically, CASPR2 is a single-pass transmembrane protein, distinguished from most other neurexins by an extracellular discoidin/neuropilin homology domain and a fibrinogen-like region (Figure 1b). 35 These domains mediate cell-cell adhesions and extracellular matrix interactions. 36,37 The large extracellular region of CASPR2 also features four laminin G domains and two epidermal growth factor-like (EGF-like) domains predicted to be involved in receptor-ligand interactions, cell adhesion, migration, and differentiation.…”

Section: Molecular Properties Of Cntnap2mentioning

confidence: 99%

“…The most well-defined role for CASPR2 is in the axon initial segment (AIS) and juxtaparanodal regions of myelinated nerves, 35 where it forms a complex with contactin-2 (known as CNTN2 or TAG-1). 63,64 Formation of this complex is mediated by Protein 4.1B binding to the intracellular portion of CASPR2 and is required for the clustering of voltage-gated potassium channels at juxtaparanodes.…”

Section: Caspr2 and The Juxtaparanodementioning

confidence: 99%

Shining a light on CNTNAP2: complex functions to complex disorders

2013

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The genetic basis of complex neurological disorders involving language are poorly understood, partly due to the multiple additive genetic risk factors that are thought to be responsible. Furthermore, these conditions are often syndromic in that they have a range of endophenotypes that may be associated with the disorder and that may be present in different combinations in patients. However, the emergence of individual genes implicated across multiple disorders has suggested that they might share similar underlying genetic mechanisms. The CNTNAP2 gene is an excellent example of this, as it has recently been implicated in a broad range of phenotypes including autism spectrum disorder (ASD), schizophrenia, intellectual disability, dyslexia and language impairment. This review considers the evidence implicating CNTNAP2 in these conditions, the genetic risk factors and mutations that have been identified in patient and population studies and how these relate to patient phenotypes. The role of CNTNAP2 is examined in the context of larger neurogenetic networks during development and disorder, given what is known regarding the regulation and function of this gene. Understanding the role of CNTNAP2 in diverse neurological disorders will further our understanding of how combinations of individual genetic risk factors can contribute to complex conditions.

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“…Multiple converging lines of evidence implicate CNTNAP2 in ASD pathology, including its role in a syndromic form of autism [68], variants found in linkage and association studies [35-37], presence of RVs [79], its impact in functional magnetic resonance imaging (MRI) readouts in humans [126], and molecular evidence that its knockout leads to the behavioral manifestation of all three core domains of autism as well as neuronal migration abnormalities [93]. A member of the neurexin superfamily, CNTNAP2 is involved in cell-cell adhesion, clustering of potassium channels at the juxtaparanode [127], neuronal migration, and regulation of GABAergic interneuron numbers [93]. There are data to support an additional contactin family member, CNTN4 , in autism pathophysiology [109,128,129], although this has been recently challenged [130].…”

Section: Emerging Biological Themesmentioning

confidence: 99%