Your search keyword '"contactin"' showing total 134 results

1. Contactin proteins in cerebrospinal fluid show different alterations in dementias

Author

Muqaku, Besnik, Anderl-Straub, Sarah, Werner, Leonie, Nagl, Magdalena, Otto, Markus, Teunissen, Charlotte E., and Oeckl, Patrick

Published

2024

2. Different binding and pathogenic effect of neurofascin and contactin-1 autoantibodies in autoimmune nodopathies.

Author

Hecker, Katharina, Grüner, Julia, Hartmannsberger, Beate, Appeltshauser, Luise, Villmann, Carmen, Sommer, Claudia, and Doppler, Kathrin

Subjects

AUTOANTIBODIES, INTRATHECAL injections, NERVE fibers, DESMOGLEINS, IMMUNOGLOBULINS, ANTIGENS

Abstract

Introduction: IgG4 autoantibodies against paranodal proteins are known to induce acute-onset and often severe sensorimotor autoimmune neuropathies. How autoantibodies reach their antigens at the paranode in spite of the myelin barrier is still unclear. Methods: We performed in vitro incubation experiments with patient sera on unfixed and unpermeabilized nerve fibers and in vivo intraneural and intrathecal passive transfer of patient IgG to rats, to explore the access of IgG autoantibodies directed against neurofascin-155 and contactin-1 to the paranodes and their pathogenic effect. Results: We found that in vitro incubation resulted in weak paranodal binding of anti-contactin-1 autoantibodies whereas anti-neurofascin-155 autoantibodies bound to the nodes more than to the paranodes. After short-term intraneural injection, no nodal or paranodal binding was detectable when using antineurofascin- 155 antibodies. After repeated intrathecal injections, nodal more than paranodal binding could be detected in animals treated with antineurofascin- 155, accompanied by sensorimotor neuropathy. In contrast, no paranodal binding was visible in rats intrathecally injected with anti-contactin-1 antibodies, and animals remained unaffected. Conclusion: These data support the notion of different pathogenic mechanisms of anti-neurofascin-155 and anti-contactin-1 autoantibodies and different accessibility of paranodal and nodal structures. [ABSTRACT FROM AUTHOR]

Published

2023

3. Different binding and pathogenic effect of neurofascin and contactin–1 autoantibodies in autoimmune nodopathies

Author

Katharina Hecker, Julia Grüner, Beate Hartmannsberger, Luise Appeltshauser, Carmen Villmann, Claudia Sommer, and Kathrin Doppler

Subjects

autoimmune nodopathy, IgG4, neurofascin, contactin, node of ranvier, inflammatory neuropathy, Immunologic diseases. Allergy, RC581-607

Abstract

IntroductionIgG4 autoantibodies against paranodal proteins are known to induce acute-onset and often severe sensorimotor autoimmune neuropathies. How autoantibodies reach their antigens at the paranode in spite of the myelin barrier is still unclear.MethodsWe performed in vitro incubation experiments with patient sera on unfixed and unpermeabilized nerve fibers and in vivo intraneural and intrathecal passive transfer of patient IgG to rats, to explore the access of IgG autoantibodies directed against neurofascin-155 and contactin-1 to the paranodes and their pathogenic effect.ResultsWe found that in vitro incubation resulted in weak paranodal binding of anti-contactin-1 autoantibodies whereas anti-neurofascin-155 autoantibodies bound to the nodes more than to the paranodes. After short-term intraneural injection, no nodal or paranodal binding was detectable when using anti-neurofascin-155 antibodies. After repeated intrathecal injections, nodal more than paranodal binding could be detected in animals treated with anti-neurofascin-155, accompanied by sensorimotor neuropathy. In contrast, no paranodal binding was visible in rats intrathecally injected with anti-contactin-1 antibodies, and animals remained unaffected.ConclusionThese data support the notion of different pathogenic mechanisms of anti-neurofascin-155 and anti-contactin-1 autoantibodies and different accessibility of paranodal and nodal structures.

Published

2023

4. Autoantibody profile in a Malaysian cohort of chronic inflammatory demyelinating polyneuropathy.

Author

Tan, Cheng-Yin, Goh, Khean-Jin, Oh, Ai-Wen, Devaux, Jérôme, and Shahrizaila, Nortina

Subjects

*POLYNEUROPATHIES, *CHRONIC inflammatory demyelinating polyradiculoneuropathy, *AUTOANTIBODIES

Abstract

• 8% of our CIDP cohort were autoimmune nodopathies. • In IgG4 anti-NF155 and anti-CNTN1 nodopathies, there were poor responses to IVIG. • One patient with IgG1 anti-NF155 had multifocal CIDP and a good prognosis with IVIG. • Detecting nodo-paranodal antibodies is crucial in diagnosis and disease prognosis. We report on our cohort of patients with chronic inflammatory demyelinating polyneuropathy (CIDP) who fulfilled the 2010 diagnostic criteria of CIDP. Patients were consecutively recruited and their demographics, clinical features and serological analysis of autoantibodies against neurofascin (NF)-155, NF-186, contactin-1 (CNTN1) and contactin-associated protein 1 were obtained. A total of 26 patients for which there was serologic testing were included: 22 typical CIDP, 3 distal CIDP and 1 multifocal CIDP. Of these, 2 patients had previously reported paranodal antibodies; one with autoantibodies IgG4 against NF155 and one with IgG4 against CNTN1. The patient with IgG4 anti-NF155 had young-onset, predominantly distal phenotype with associated tremor and sensory ataxia and poor response to intravenous immunoglobulin (IVIG). The patient with IgG4 anti-CNTN1 antibodies had a subacute onset, sensory ataxia, membranous nephropathy but responded poorly to IVIG. Autoimmune nodopathies represented 8% of our CIDP cohort. The clinical features and treatment response of patients with IgG4 anti-NF155 and anti-CNTN1 were similar to previous reports. Detecting the presence of autoimmune nodopathies was crucial in refining the diagnosis and determining the prognosis. [ABSTRACT FROM AUTHOR]

Published

2022

5. Molecular Architecture of Contactin-associated Protein-like 2 (CNTNAP2) and Its Interaction with Contactin 2 (CNTN2)*

Author

Lu, Zhuoyang, Reddy, MVVV Sekhar, Liu, Jianfang, Kalichava, Ana, Liu, Jiankang, Zhang, Lei, Chen, Fang, Wang, Yun, Holthauzen, Luis Marcelo F, White, Mark A, Seshadrinathan, Suchithra, Zhong, Xiaoying, Ren, Gang, and Rudenko, Gabby

Subjects

Biochemistry and Cell Biology, Biological Sciences, Brain Disorders, Neurosciences, Prevention, Autism, Genetics, Intellectual and Developmental Disabilities (IDD), Mental Health, 2.3 Psychological, social and economic factors, 1.1 Normal biological development and functioning, 2.1 Biological and endogenous factors, Underpinning research, Aetiology, Mental health, Neurological, Contactin 2, Humans, Membrane Proteins, Models, Molecular, Nerve Tissue Proteins, Protein Binding, Protein Domains, cell adhesion, cell surface receptor, protein-protein interaction, structural biology, synapse, contactin, contactin-associated protein like, neuropsychiatric disorders, single particle analysis, synaptic organizer, Chemical Sciences, Medical and Health Sciences, Biochemistry & Molecular Biology, Biological sciences, Biomedical and clinical sciences, Chemical sciences

Abstract

Contactin-associated protein-like 2 (CNTNAP2) is a large multidomain neuronal adhesion molecule implicated in a number of neurological disorders, including epilepsy, schizophrenia, autism spectrum disorder, intellectual disability, and language delay. We reveal here by electron microscopy that the architecture of CNTNAP2 is composed of a large, medium, and small lobe that flex with respect to each other. Using epitope labeling and fragments, we assign the F58C, L1, and L2 domains to the large lobe, the FBG and L3 domains to the middle lobe, and the L4 domain to the small lobe of the CNTNAP2 molecular envelope. Our data reveal that CNTNAP2 has a very different architecture compared with neurexin 1α, a fellow member of the neurexin superfamily and a prototype, suggesting that CNTNAP2 uses a different strategy to integrate into the synaptic protein network. We show that the ectodomains of CNTNAP2 and contactin 2 (CNTN2) bind directly and specifically, with low nanomolar affinity. We show further that mutations in CNTNAP2 implicated in autism spectrum disorder are not segregated but are distributed over the whole ectodomain. The molecular shape and dimensions of CNTNAP2 place constraints on how CNTNAP2 integrates in the cleft of axo-glial and neuronal contact sites and how it functions as an organizing and adhesive molecule.

Published

2016

6. Structural Basis for Interactions Between Contactin Family Members and Protein-tyrosine Phosphatase Receptor Type G in Neural Tissues*

Author

Nikolaienko, Roman M, Hammel, Michal, Dubreuil, Véronique, Zalmai, Rana, Hall, David R, Mehzabeen, Nurjahan, Karuppan, Sebastian J, Harroch, Sheila, Stella, Salvatore L, and Bouyain, Samuel

Subjects

Biochemistry and Cell Biology, Biological Sciences, Neurosciences, 1.1 Normal biological development and functioning, Underpinning research, Generic health relevance, Animals, Contactins, Humans, Mice, Models, Biological, Models, Molecular, Multiprotein Complexes, Nerve Tissue, Nerve Tissue Proteins, Receptor-Like Protein Tyrosine Phosphatases, Class 5, Signal Transduction, cell adhesion, cell surface, crystal structure, protein phosphatase, retina, contactin, immunoglobulin|L-like domain, Chemical Sciences, Medical and Health Sciences, Biochemistry & Molecular Biology, Biological sciences, Biomedical and clinical sciences, Chemical sciences

Abstract

Protein-tyrosine phosphatase receptor type G (RPTPγ/PTPRG) interacts in vitro with contactin-3-6 (CNTN3-6), a group of glycophosphatidylinositol-anchored cell adhesion molecules involved in the wiring of the nervous system. In addition to PTPRG, CNTNs associate with multiple transmembrane proteins and signal inside the cell via cis-binding partners to alleviate the absence of an intracellular region. Here, we use comprehensive biochemical and structural analyses to demonstrate that PTPRG·CNTN3-6 complexes share similar binding affinities and a conserved arrangement. Furthermore, as a first step to identifying PTPRG·CNTN complexes in vivo, we found that PTPRG and CNTN3 associate in the outer segments of mouse rod photoreceptor cells. In particular, PTPRG and CNTN3 form cis-complexes at the surface of photoreceptors yet interact in trans when expressed on the surfaces of apposing cells. Further structural analyses suggest that all CNTN ectodomains adopt a bent conformation and might lie parallel to the cell surface to accommodate these cis and trans binding modes. Taken together, these studies identify a PTPRG·CNTN complex in vivo and provide novel insights into PTPRG- and CNTN-mediated signaling.

Published

2016

7. Molecular Architecture of Contactin-associated Protein-like 2 (CNTNAP2) and Its Interaction with Contactin 2 (CNTN2)

Author

Rudenko, Gabby [Univ. of Texas Medical Branch, Galveston, TX (United States). Dept. of Pharmacology and Toxicology. Sealy Center for Structural Biology and Molecular Biophysics]

Published

2016

8. Immunopathogenesis and Treatment of Guillain-Barre Syndrome and Chronic Inflammatory Demyelinating Polyneuropathy

Author

Grebenciucova, Elena, Rezania, Kourosh, Tarsy, Daniel, Series editor, Minagar, Alireza, editor, and Alexander, J. Steven, editor

Published

2017

9. Antibodies against the node of Ranvier: a real-life evaluation of incidence, clinical features and response to treatment based on a prospective analysis of 1500 sera.

Author

Delmont, Emilien, Brodovitch, Alexandre, Kouton, Ludivine, Allou, Thibaut, Beltran, Stéphane, Brisset, Marion, Camdessanché, Jean Philippe, Cauquil, Cécile, Cirion, Jonathan, Dubard, Thierry, Echaniz-Laguna, Andoni, Grapperon, Aude-Marie, Jauffret, Joëlle, Juntas-Morales, Raul, Kremer, Laurent Daniel, Kuntzer, Thierry, Labeyrie, Céline, Lanfranco, Lucas, Maisonobe, Thierry, and Mavroudakis, Nicolas

Subjects

*IMMUNOGLOBULINS, *BLOOD serum analysis, *ANTIBODY titer, *INTRAVENOUS immunoglobulins, *FACIAL paralysis, *CRANIAL nerves

Abstract

Introduction: IgG4 antibodies against neurofascin (Nfasc155 and Nfasc140/186), contactin (CNTN1) and contactin-associated protein (Caspr1) are described in specific subtypes of chronic inflammatory demyelinating polyradiculoneuropathy (CIDP). Our objective was to assess, in a real-life practice, the incidence, the clinical features and the response to treatment of these forms of CIDP. Methods: 1500 sera of patients suspected of having CIDP from France, Belgium and Switzerland were prospectively tested using a flow cytometry technique. The characteristics of patients with antibodies against the node of Ranvier were compared to 100 seronegative CIDP from our department. Results: IgG4 antibodies against Nfasc155, CNTN1, and Caspr1 were, respectively, detected in 15 (prevalence 1%), 10 (0.7%) and 2 (0.2%) sera. Antibodies specific of the Nfasc140/186 were not detected. All subjects with antibodies against the node of Ranvier fulfilled diagnostic criteria for CIDP. CIDP with anti-Nfasc155 were younger, had more sensory ataxia and postural tremor than seronegative CIDP. CIDP with anti-CNTN1 had more frequent subacute onset and facial paralysis, commoner renal involvement with membranous glomerulonephritis and greater disability, than seronegative CIDP. CIDP with anti-Caspr1 had more frequent respiratory failure and cranial nerve involvement but not more neuropathic pain than seronegative CIDP. Intravenous immunoglobulins were ineffective in most seropositive patients. Rituximab produced dramatic improvement in disability and decreased antibodies titres in 13 seropositive patients (8 with anti-Nfasc155 and 5 with anti-CNTN1 antibodies). Conclusions: Although rare, anti-paranodal antibodies are clinically valuable, because they are associated with specific phenotypes and therapeutic response. [ABSTRACT FROM AUTHOR]

Published

2020

10. The Interaction Between Contactin and Amyloid Precursor Protein and Its Role in Alzheimer's Disease.

Author

Bamford, Rosemary A., Widagdo, Jocelyn, Takamura, Natsuki, Eve, Madeline, Anggono, Victor, and Oguro-Ando, Asami

Subjects

*AMYLOID beta-protein precursor, *ALZHEIMER'S disease, *CELL receptors, *MEMBRANE proteins, *NERVOUS system, *VASCULAR dementia

Abstract

• Genome-wide association study shows link between Contactin family and dementia. • Dysregulated expression of Contactin in the post-mortem brain tissue of AD patients. • Interaction between Contactin and APP is essential for normal brain function. • Proposed mechanisms of aberrant Contactin-APP interaction in the pathogenesis of AD. Alzheimer's disease (AD) is a debilitating disease and the most common cause of dementia. As the world population ages even modest advances in therapies and preventative strategies would be of benefit. The specific physiological function of the amyloid precursor protein (APP) remains unclear despite strong genetic and biochemical evidence of APP involvement in AD. The intricate molecular processes of the nervous system rely on interactions between cell surface receptors coupled to intracellular downstream signaling networks. APP is an integral membrane protein which interacts with members of the Contactin family of proteins. Here we review recent progresses in the field and discuss the physiological importance of APP-Contactin interaction, as well as their roles and contributions in the pathophysiology of AD. [ABSTRACT FROM AUTHOR]

Published

2020

11. Nuclear and Mitochondrial Genome Defects in Autisms

Author

Smith, Moyra, Spence, M Anne, and Flodman, Pamela

Subjects

Biological Sciences, Genetics, Neurosciences, Autism, Brain Disorders, Intellectual and Developmental Disabilities (IDD), Pediatric, Biotechnology, Mental Health, Human Genome, 2.1 Biological and endogenous factors, 1.1 Normal biological development and functioning, Autistic Disorder, Cell Nucleus, DNA, Mitochondrial, Genome, Human, Genome, Mitochondrial, Humans, Microarray Analysis, Nuclear Proteins, autism, genome, mitochondria, dosage changes, copy number, copy number variation, twins, Copy number, Copy number variation, Dosage changes, Genome, Mitochondria, Twins, aminobutyric acid A receptor, aminobutyric acid B receptor, cadherin, cell nucleus DNA, contactin, fragile X mental retardation protein, glutamate receptor, glutamate receptor 6, glutamate receptor ionotropic delta 1, metabotropic receptor, mitochondrial DNA, n methyl dextro aspartic acid receptor 2A, neurexin, neuroligin, protocadherin, unclassified drug, chromosome 15q, chromosome 19q, chromosome deletion, chromosome duplication, DNA structure, environmental factor, gene cluster, gene dosage, gene frequency, gene interaction, gene location, gene locus, gene mapping, gene sequence, gene structure, genetic analysis, genetic risk, genetic variability, genomic instability, hemizygosity, human, karyotype 47, XYY, Klinefelter syndrome, microarray analysis, monozygotic twins, nerve, nerve cell, nerve cell differentiation, nerve function, pathogenesis, review, sequence homology, sex difference, single nucleotide polymorphism, synapse, tuberous sclerosis, Turner syndrome, X chromosome, Y chromosome, General Science & Technology

Abstract

In this review we will evaluate evidence that altered gene dosage and structure impacts neurodevelopment and neural connectivity through deleterious effects on synaptic structure and function, and evidence that the latter are key contributors to the risk for autism. We will review information on alterations of structure of mitochondrial DNA and abnormal mitochondrial function in autism and indications that interactions of the nuclear and mitochondrial genomes may play a role in autism pathogenesis. In a final section we will present data derived using Affymetrix SNP 6.0 microarray analysis of DNA of a number of subjects and parents recruited to our autism spectrum disorders project. We include data on two sets of monozygotic twins. Collectively these data provide additional evidence of nuclear and mitochondrial genome imbalance in autism and evidence of specific candidate genes in autism. We present data on dosage changes in genes that map on the X chromosomes and the Y chromosome. Precise analyses of Y located genes are often difficult because of the high degree of homology of X- and Y-related genes. However, continued efforts to analyze the latter are important, given the consistent evidence for a 4:1 ratio of males to females affected by autism. It is also important to consider whether environmental factors play a role in generating the nuclear and mitochondrial genomic instability we have observed. The study of autism will benefit from a move to analysis of pathways and multigene clusters for identification of subtypes that share a specific genetic etiology.

Published

2009

12. Contactin 2 homophilic adhesion structure and conformational plasticity.

Author

Chataigner, Lucas M.P., Thärichen, Lena, Beugelink, J. Wouter, Granneman, Joke C.M., Mokiem, Nadia J., Snijder, Joost, Förster, Friedrich, and Janssen, Bert J.C.

Subjects

*CELL adhesion molecules, *SMALL-angle X-ray scattering, *CELL communication, *GEL permeation chromatography, *CELL adhesion, *FIBRONECTINS, *GLYCANS

Abstract

The cell-surface attached glycoprotein contactin 2 is ubiquitously expressed in the nervous system and mediates homotypic cell-cell interactions to organize cell guidance, differentiation, and adhesion. Contactin 2 consists of six Ig and four fibronectin type III domains (FnIII) of which the first four Ig domains form a horseshoe structure important for homodimerization and oligomerization. Here we report the crystal structure of the six-domain contactin 2Ig1-6 and show that the Ig5-Ig6 combination is oriented away from the horseshoe with flexion in interdomain connections. Two distinct dimer states, through Ig1-Ig2 and Ig3-Ig6 interactions, together allow formation of larger oligomers. Combined size exclusion chromatography with multiangle light scattering (SEC-MALS), small-angle X-ray scattering (SAXS) and native MS analysis indicates contactin 2Ig1-6 oligomerizes in a glycan dependent manner. SAXS and negative-stain electron microscopy reveals inherent plasticity of the contactin 2 full-ectodomain. The combination of intermolecular binding sites and ectodomain plasticity explains how contactin 2 can function as a homotypic adhesion molecule in diverse intercellular environments. [Display omitted] • Contactin 2 structures have interdomain flexibility • Contactin 2 Ig1-6 forms two distinct dimers that are Ig1-2 and Ig3-6 mediated • Dimerization is glycan and glycan type dependent • The interactions and structural plasticity explain contactin 2 mediated cell adhesion Contactin 2 is a cell adhesion and signaling protein of the nervous system. Chataigner et al. show contactin 2 has structural flexibility and can form two different, glycan regulated dimers and larger oligomers. The structural data explain the adhesion role of contactin 2 in diverse cellular settings. [ABSTRACT FROM AUTHOR]

Published

2024

13. N-Glycans and Glial Cells

Author

Ikenaka, Kazuhiro, Taniguchi, Naoyuki, editor, Endo, Tamao, editor, Hart, Gerald W., editor, Seeberger, Peter H., editor, and Wong, Chi-Huey, editor

Published

2015

14. Contactin-1 Is Reduced in Cerebrospinal Fluid of Parkinson’s Disease Patients and Is Present within Lewy Bodies

Author

Madhurima Chatterjee, Inger van Steenoven, Evelien Huisman, Linda Oosterveld, Henk Berendse, Wiesje M. van der Flier, Marta Del Campo, Afina W. Lemstra, Wilma D. J. van de Berg, and Charlotte E. Teunissen

Subjects

contactin, Lewy bodies, cerebrospinal fluid (CSF), biomarker, synaptic degeneration, Parkinson’s disease (PD), Microbiology, QR1-502

Abstract

Synaptic degeneration is an early phenomenon in Parkinson’s disease (PD) pathogenesis. We aimed to investigate whether levels of synaptic proteins contactin-1 and contactin-2 in cerebrospinal fluid (CSF) of PD patients are reduced compared to dementia with Lewy bodies (DLB) patients and controls and to evaluate their relationship with α-synuclein aggregation. Contactin-1 and -2 were measured in CSF from PD patients (n = 58), DLB patients (n = 72) and age-matched controls (n = 90). Contactin concentration differences between diagnostic groups were assessed by general linear models adjusted for age and sex. Contactin immunoreactivity was characterized in postmortem substantia nigra, hippocampus and entorhinal cortex tissue of PD patients (n = 4) and controls (n = 4), and its relation to α-syn aggregation was evaluated using confocal laser scanning microscopy. Contactin-1 levels were lower in PD patients (42 (36–49) pg/mL) compared to controls (52 (44–58) pg/mL, p = 0.003) and DLB patients (56 (46–67) pg/mL, p = 0.001). Contactin-2 levels were similar across all diagnostic groups. Within the PD patient group, contactin-1 correlated with t-α-syn, tTau and pTau (r = 0.30–0.50, p < 0.05), whereas contactin-2 only correlated with t-α-syn (r = 0.34, p = 0.03). Contactin-1 and -2 were observed within nigral and cortical Lewy bodies and clustered within bulgy Lewy neurites in PD brains. A decrease in CSF contactin-1 may reflect synaptic degeneration underlying Lewy body pathology in PD.

Published

2020

15. Contactin-1/F3 Regulates Neuronal Migration and Morphogenesis Through Modulating RhoA Activity

Author

Yi-An Chen, I-Ling Lu, and Jin-Wu Tsai

Subjects

contactin-1, Cntn1, contactin, cortical development, neuronal migration, cell adhesion, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

During neocortical development, newborn neurons migrate along radial fibers from the germinal ventricular zone (VZ) toward the cortical plate (CP) to populate the cerebral cortex. This radial migration requires adhesion activities between neurons and radial fibers; however, past research has identified only a limited number of adhesion molecules involved in this process. Contactin-1/F3 (Cntn1), a cell adhesion molecule expressed in the developing nervous system is essential for many key developmental events including neural cell adhesion, neurite outgrowth, axon guidance and myelination. However, the potential role of Cntn1 in neuronal migration during cortical development has not been investigated. Here we used in utero electroporation to introduce short hairpin RNA (shRNA) to knock down (KD) Cntn1 in neural stem cells in vivo. We found that Cntn1 KD led to a delay in neuronal migration. The arrested cells presented abnormal morphology in their leading process and more multipolar cells were observed in the deep layers of the brain, suggestive of dysregulation in process formation. Intriguingly, Cntn1 KD also resulted in upregulation of RhoA, a negative regulator for neuronal migration. Interference of RhoA by expression of the dominant-negative RhoAN19 partially rescued the neuronal migration defects caused by Cntn1 KD. Our results showed that Cntn1 is a novel adhesion protein that is essential for neuronal migration and regulates process formation of newborn cortical neurons through modulating RhoA signaling pathway.

Published

2018

16. Clinical and pathophysiological implications of autoantibodies in autoimmune neuropathies.

Author

Collet R, Caballero-Ávila M, and Querol L

Subjects

Humans, Autoantibodies, Guillain-Barre Syndrome therapy, Polyradiculoneuropathy, Chronic Inflammatory Demyelinating diagnosis, Polyradiculoneuropathy, Chronic Inflammatory Demyelinating therapy, Polyneuropathies

Abstract

Autoimmune neuropathies are a heterogeneous group of rare and disabling diseases in which the immune system targets peripheral nervous system antigens and that respond to immune therapies. This review focuses on Guillain-Barré syndrome, chronic inflammatory demyelinating polyneuropathy, multifocal motor neuropathy, polyneuropathy associated with IgM monoclonal gammopathy, and autoimmune nodopathies. Autoantibodies targeting gangliosides, proteins in the node of Ranvier, and myelin-associated glycoprotein have been described in these disorders, defining subgroups of patients with similar clinical features and response to therapy. This topical review describes the role of these autoantibodies in the pathogenesis of autoimmune neuropathies and their clinical and therapeutic importance., (Copyright © 2023 Elsevier Masson SAS. All rights reserved.)

Published

2023

17. Contactin-1/F3 Regulates Neuronal Migration and Morphogenesis Through Modulating RhoA Activity.

Author

Chen, Yi-An, Lu, I-Ling, and Tsai, Jin-Wu

Abstract

During neocortical development, newborn neurons migrate along radial fibers from the germinal ventricular zone (VZ) toward the cortical plate (CP) to populate the cerebral cortex. This radial migration requires adhesion activities between neurons and radial fibers; however, past research has identified only a limited number of adhesion molecules involved in this process. Contactin-1/F3 (Cntn1), a cell adhesion molecule expressed in the developing nervous system is essential for many key developmental events including neural cell adhesion, neurite outgrowth, axon guidance and myelination. However, the potential role of Cntn1 in neuronal migration during cortical development has not been investigated. Here we used in utero electroporation to introduce short hairpin RNA (shRNA) to knock down (KD) Cntn1 in neural stem cells in vivo. We found that Cntn1 KD led to a delay in neuronal migration. The arrested cells presented abnormal morphology in their leading process and more multipolar cells were observed in the deep layers of the brain, suggestive of dysregulation in process formation. Intriguingly, Cntn1 KD also resulted in upregulation of RhoA, a negative regulator for neuronal migration. Interference of RhoA by expression of the dominant-negative RhoAN19 partially rescued the neuronal migration defects caused by Cntn1 KD. Our results showed that Cntn1 is a novel adhesion protein that is essential for neuronal migration and regulates process formation of newborn cortical neurons through modulating RhoA signaling pathway. [ABSTRACT FROM AUTHOR]

Published

2018

18. Contactin-1 and contactin-2 in cerebrospinal fluid as potential biomarkers for axonal domain dysfunction in multiple sclerosis.

Author

Chatterjee, Madhurima, Koel-Simmelink, Marleen J. A., Verberk, Inge M. W., Killestein, Joep, Vrenken, Hugo, Enzinger, Christian, Ropele, Stefan, Fazekas, Franz, Khalil, Michael, and Teunissen, Charlotte E.

Subjects

CEREBROSPINAL fluid, MULTIPLE sclerosis, BIOLOGICAL tags, NEURODEGENERATION, PROGNOSIS, MEMBRANE proteins

Abstract

Background: Contactin-1 and contactin-2 are important for the maintenance of axonal integrity. Objective: To investigate the cerebrospinal fluid levels of contactin-1 and contactin-2 in multiple sclerosis patients and controls, and their potential use as prognostic markers for neurodegeneration. Methods: Cerebrospinal fluid contactin-1 and contactin-2 were measured in relapsing--remitting multiple sclerosis (n=41), secondary progressive multiple sclerosis (n=26) and primary progressive multiple sclerosis patients (n=13) and controls (n=18), and in a second cohort with clinically isolated syndrome patients (n=88, median clinical follow-up period of 2.3 years) and controls (n=20). Correlations/linear regressions were analysed with other baseline cerebrospinal fluid axonal damage markers and cross-sectional/longitudinal magnetic resonance imaging features. Results: Contactin-1 and contactin-2 levels were up to 1.4-fold reduced in relapsing--remitting multiple sclerosis (contactin-1: p=0.01, contactin-2: p=0.02) and secondary progressive multiple sclerosis (contactin-1: p=0.05, contactin-2: p=0.02) compared to controls. In clinically isolated syndrome patients, contactin-1 tended to increase when compared to controls (p=0.07). Both contactin-1 and contactin-2 correlated with neurofilament light, neurofilament heavy and magnetic resonance imaging metrics differently depending on the disease stage. In clinically isolated syndrome patients, baseline contactin-2 level (β=-0.42, p=0.04) predicted the longitudinal decline in cortex volume. Conclusion: Cerebrospinal fluid contactin-1 and contactin-2 reveal axonal dysfunction in various stages of multiple sclerosis and their inclusion to the biomarker panel may provide better insight into the extent of axonal damage/dysfunction. [ABSTRACT FROM AUTHOR]

Published

2018

19. Nodo-/Paranodopathien – eine neue Entität der peripheren Neuropathien.

Author

Doppler, Kathrin

Abstract

Zusammenfassung In den letzten Jahren wurde der Begriff der Nodo-/Paranodopathie als dritte Entität neben der primär demyelinisierenden oder axonalen Polyneuropathie vorgeschlagen. Dieser soll Neuropathien zusammenfassen, bei denen der primäre Schädigungsort im Bereich des Ranvierschen Schnürrings liegt. Diese Erkrankungsgruppe weist elektrophysiologisch viele Gemeinsamkeiten mit demyelinisierenden Polyneuropathien auf, histologisch finden sich jedoch keine Hinweise auf De- oder Remyelinisierung. Als ursächlich für Nodo-/Paranodopathien gelten Autoantikörper gegen Schnürringstrukturen. Neben den schon länger bekannten Autoantikörpern gegen Ganglioside wurden in den letzten Jahren Autoantikörper gegen die paranodalen Proteine Neurofascin-155, Contactin-1 und Caspr beschrieben. Diese werden überwiegend der Immunglobulinsubklasse IgG4 zugeordnet und zeichnen sich klinisch durch eine subakut beginnende schwere überwiegend motorische Polyneuropathie aus, die nicht gut auf die Standardtherapie mit intravenösen Immunglobulinen oder Glukokortikoiden anspricht, jedoch sehr gut auf Rituximab oder Plasmapheresen. Ein Teil der Patienten zeichnet sich klinisch außerdem durch einen ausgeprägten Tremor aus. Summary In the last few years, the term nodo-/paranodopathy was suggested as a third entity besides demyelinating and axonal peripheral neuropathy to describe peripheral neuropathies with primary damage to the node of Ranvier. Nerve conduction studies of patients with nodo-/paranodopathies share some findings of demyelinating neuropathy, but histological work-up does not detect any features of de- or remyelination. Autoantibodies against nodal or paranodal structures are supposed to cause nodo-/paranodopathies. Whereas gangliosides are known to be an antigenic target for several years, autoantibodies against the paranodal proteins neurofascin-155, contactin-1 and Caspr have only been described in the last few years. These autoantibodies belong to the immunoglobulin subclass IgG4. Patients show a typical clinical picture of severe motor-dominant peripheral neuropathy with subacute onset and poor response to the first-line therapy with intravenous immunoglobulins or steroids, but good response to rituximab or plasma exchange. Additionally, some patients suffer from a debilitating tremor. [ABSTRACT FROM AUTHOR]

Published

2018

20. Autoantibodies Against the Node of Ranvier in Seropositive Chronic inflammatory Demyelinating Polyneuropathy: Diagnostic, Pathogenic, and Therapeutic Relevance.

Author

Vural, Atay, Doppler, Kathrin, and Meinl, Edgar

Subjects

AUTOANTIBODIES, POLYNEUROPATHIES, NODES of Ranvier

Abstract

Discovery of disease-associated autoantibodies has transformed the clinical management of a variety of neurological disorders. Detection of autoantibodies aids diagnosis and allows patient stratification resulting in treatment optimization. In the last years, a set of autoantibodies against proteins located at the node of Ranvier has been identified in patients with chronic inflammatory demyelinating polyneuropathy (CIDP). These antibodies target neurofascin, contactin1, or contactin-associated protein 1, and we propose to name CIDP patients with these antibodies collectively as seropositive. They have unique clinical characteristics that differ from seronegative CIDP. Moreover, there is compelling evidence that autoantibodies are relevant for the pathogenesis. In this article, we review the current knowledge on the characteristics of autoantibodies against the node of Ranvier proteins and their clinical relevance in CIDP. We start with a description of the structure of the node of Ranvier followed by a summary of assays used to identify seropositive patients; and then, we describe clinical features and characteristics linked to seropositivity. We review knowledge on the role of these autoantibodies for the pathogenesis with relevance for the emerging concept of nodopathy/paranodopathy and summarize the treatment implications. [ABSTRACT FROM AUTHOR]

Published

2018

21. Contacts in the nervous system: Structural insights into contactin mediated neural adhesion & signaling

Author

Chataigner, Lucas Marc Pierre and Chataigner, Lucas Marc Pierre

Abstract

Proteins are nanoscale molecular machines with a panoply of functions regimenting ubiquitous biological processes across life on earth. Functions of proteins range from nutrient transport, rate enhancement of chemical reactions, to making up structures that make up living things. From the most complex multicellular organisms such as animals or plants, to the more simplistic unicellular organisms such as E.coli, all living things on earth share defining cellular features of which perhaps the most striking is the cellular membrane. The cellular or “plasma” membrane, made up of a lipid bilayer separates the interior of a cell from the exterior environment. This interface serves as a hub which cells communicate with their environment and each other. Cellular membranes across different organisms are made up from distinct assortments of molecules. Such assortments of molecules have a long history under evolutionary pressure, which has led to the emergence of intricate molecular mechanisms controlling diverse biological processes. For formation of complex organisms, processes such as cellular recognition and communication are required and tightly controlled by intricate molecular mechanisms involving diverse molecules. In this dissertation, work on structural and biophysical characterization of vertebrate cell surface contactin proteins is presented. An integrative and multidisciplinary approach is pursued, using structural insights gained from experiments to inform on biological function of contactins in wiring the nervous system in vertebrates. Provided structures inform current knowledge in the molecular basis of signaling and adhesion mechanisms of contactin proteins as required for maintaining specific neuronal contacts and directing wiring between neuronal cells.

Published

2022

22. Contacts in the nervous system: Structural insights into contactin mediated neural adhesion & signaling

Subjects

glycoprotein, glycoproteïne, celadhesiemolecuul(en), L1, structure(s), contactin, myeline, myelin, neurofascin, horseshoe, immunoglobuline, hoefijzer, structuur(en), cell adhesion molecule(s), contactine, immunoglobulin

Abstract

Proteins are nanoscale molecular machines with a panoply of functions regimenting ubiquitous biological processes across life on earth. Functions of proteins range from nutrient transport, rate enhancement of chemical reactions, to making up structures that make up living things. From the most complex multicellular organisms such as animals or plants, to the more simplistic unicellular organisms such as E.coli, all living things on earth share defining cellular features of which perhaps the most striking is the cellular membrane. The cellular or “plasma” membrane, made up of a lipid bilayer separates the interior of a cell from the exterior environment. This interface serves as a hub which cells communicate with their environment and each other. Cellular membranes across different organisms are made up from distinct assortments of molecules. Such assortments of molecules have a long history under evolutionary pressure, which has led to the emergence of intricate molecular mechanisms controlling diverse biological processes. For formation of complex organisms, processes such as cellular recognition and communication are required and tightly controlled by intricate molecular mechanisms involving diverse molecules. In this dissertation, work on structural and biophysical characterization of vertebrate cell surface contactin proteins is presented. An integrative and multidisciplinary approach is pursued, using structural insights gained from experiments to inform on biological function of contactins in wiring the nervous system in vertebrates. Provided structures inform current knowledge in the molecular basis of signaling and adhesion mechanisms of contactin proteins as required for maintaining specific neuronal contacts and directing wiring between neuronal cells.

Published

2022

23. Autoantibody responses to nodal and paranodal antigens in chronic inflammatory neuropathies.

Author

Mathey, E.K., Garg, N., Park, S.B., Nguyen, T., Barnett, M.H., Pollard, J.D., Kiernan, M.C., Baker, S., Yuki, N., Yiannikas, C., Lin, C.S., Spies, J.M., Ghaoui, R., and Vucic, S.

Subjects

*NEUROPATHY, *ANTIGENS, *AUTOANTIBODIES, *CELLS, *IMMUNOFLUORESCENCE

Abstract

Autoantibodies to nodal/paranodal proteins have been reported in patients with chronic inflammatory demyelinating polyneuropathy (CIDP) and multifocal motor neuropathy (MMN). To determine the frequency of anti-paranodal antibodies in our cohort of CIDP patients and to validate the presence anti-nodal antibodies in MMN, sera were screened for IgG against human neurofascin 155, contactin-1, neurofascin 186 and gliomedin using ELISA. In CIDP patients, 7% were anti-NF155 IgG 4 positive and 7% were anti-CNTN1 IgG 4 positive. Positive results were confirmed using cell based assays and indirect immunofluorescence on teased nerve fibres. We did not detect IgG autoantibodies against these nodal/paranodal antigens in MMN patients. [ABSTRACT FROM AUTHOR]

Published

2017

24. A current view on contactin-4, -5, and -6: Implications in neurodevelopmental disorders.

Author

Oguro-Ando, Asami, Zuko, Amila, Kleijer, Kristel T.E., and Burbach, J. Peter H.

Subjects

*CELL adhesion molecules, *NEURODEVELOPMENTAL treatment, *BRAIN physiology, *NEURAL development, *NEURAL circuitry

Abstract

Contactins (Cntns) are a six-member subgroup of the immunoglobulin cell adhesion molecule superfamily (IgCAMs) with pronounced brain expression and function. Recent genetic studies of neuropsychiatric disorders have pinpointed contactin-4 ( CNTN4 ), contactin-5 ( CNTN5 ) and contactin-6 ( CNTN6 ) as candidate genes in neurodevelopmental disorders, particularly in autism spectrum disorders (ASDs), but also in intellectual disability, schizophrenia (SCZ), attention-deficit hyperactivity disorder (ADHD), bipolar disorder (BD), alcohol use disorder (AUD) and anorexia nervosa (AN). This suggests that they have important functions during neurodevelopment. This suggestion is supported by data showing that neurite outgrowth, cell survival and neural circuit formation can be affected by disruption of these genes. Here, we review the current genetic data about their involvement in neuropsychiatric disorders and explore studies on how null mutations affect mouse behavior. Finally, we highlight to role of protein–protein interactions in the potential mechanism of action of Cntn4, -5 and -6 and emphasize that complexes with other membrane proteins may play a role in neuronal developmental functions. [ABSTRACT FROM AUTHOR]

Published

2017

25. Contactin 4, -5 and -6 differentially regulate neuritogenesis while they display identical PTPRG binding sites

Author

Oriane Mercati, Anne Danckaert, Gwénaëlle André-Leroux, Marco Bellinzoni, Laura Gouder, Kazutada Watanabe, Yasushi Shimoda, Régis Grailhe, Fabrice De Chaumont, Thomas Bourgeron, and Isabelle Cloëz-Tayarani

Subjects

Contactin, Rat primary cortical neurons, 3D modeling, Co-culture between HEK cells and primary neurons, Neurite outgrowth, Neurite quantification, Protein tyrosine phosphatase receptor gamma, Science, Biology (General), QH301-705.5

Abstract

Summary The neural cell-adhesion molecules contactin 4, contactin 5 and contactin 6 are involved in brain development, and disruptions in contactin genes may confer increased risk for autism spectrum disorders (ASD). We describe a co-culture of rat cortical neurons and HEK293 cells overexpressing and delivering the secreted forms of rat contactin 4–6. We quantified their effects on the length and branching of neurites. Contactin 4–6 effects were different depending on the contactin member and duration of co-culture. At 4 days in culture, contactin 4 and -6 increased the length of neurites, while contactin 5 increased the number of roots. Up to 8 days in culture, contactin 6 progressively increased the length of neurites while contactin 5 was more efficient on neurite branching. We studied the molecular sites of interaction between human contactin 4, -5 or -6 and the human Protein Tyrosine Phosphatase Receptor Gamma (PTPRG), a contactin partner, by modeling their 3D structures. As compared to contactin 4, we observed differences in the Ig2 and Ig3 domains of contactin 5 and -6 with the appearance of an omega loop that could adopt three distinct conformations. However, interactive residues between human contactin 4–6 and PTPRG were strictly conserved. We did not observe any differences in PTPRG binding on contactin 5 and -6 either. Our data suggest that the differential contactin effects on neurite outgrowth do not result from distinct interactions with PTPRG. A better understanding of the contactin cellular properties should help elucidate their roles in ASD.

Published

2013

26. A CNTNAP1 Missense Variant Is Associated with Canine Laryngeal Paralysis and Polyneuropathy

Author

Letko, Anna, Minor, Katie M, Friedenberg, Steven G, Shelton, G Diane, Salvador, Jill Pesayco, Mandigers, Paul J J, Leegwater, Peter A J, Winkler, Paige A, Petersen-Jones, Simon M, Stanley, Bryden J, Ekenstedt, Kari J, Johnson, Gary S, Hansen, Liz, Jagannathan, Vidhya, Mickelson, James R, Drögemüller, Cord, Letko, Anna, Minor, Katie M, Friedenberg, Steven G, Shelton, G Diane, Salvador, Jill Pesayco, Mandigers, Paul J J, Leegwater, Peter A J, Winkler, Paige A, Petersen-Jones, Simon M, Stanley, Bryden J, Ekenstedt, Kari J, Johnson, Gary S, Hansen, Liz, Jagannathan, Vidhya, Mickelson, James R, and Drögemüller, Cord

Abstract

Laryngeal paralysis associated with a generalized polyneuropathy (LPPN) most commonly exists in geriatric dogs from a variety of large and giant breeds. The purpose of this study was to discover the underlying genetic and molecular mechanisms in a younger-onset form of this neurodegenerative disease seen in two closely related giant dog breeds, the Leonberger and Saint Bernard. Neuropathology of an affected dog from each breed showed variable nerve fiber loss and scattered inappropriately thin myelinated fibers. Using across-breed genome-wide association, haplotype analysis, and whole-genome sequencing, we identified a missense variant in the CNTNAP1 gene (c.2810G>A; p.Gly937Glu) in which homozygotes in both studied breeds are affected. CNTNAP1 encodes a contactin-associated protein important for organization of myelinated axons. The herein described likely pathogenic CNTNAP1 variant occurs in unrelated breeds at variable frequencies. Individual homozygous mutant LPPN-affected Labrador retrievers that were on average four years younger than dogs affected by geriatric onset laryngeal paralysis polyneuropathy could be explained by this variant. Pathologic changes in a Labrador retriever nerve biopsy from a homozygous mutant dog were similar to those of the Leonberger and Saint Bernard. The impact of this variant on health in English bulldogs and Irish terriers, two breeds with higher CNTNAP1 variant allele frequencies, remains unclear. Pathogenic variants in CNTNAP1 have previously been reported in human patients with lethal congenital contracture syndrome and hypomyelinating neuropathy, including vocal cord palsy and severe respiratory distress. This is the first report of contactin-associated LPPN in dogs characterized by a deleterious variant that most likely predates modern breed establishment.

Published

2020

27. Contactins as novel potential biomarkers for Alzheimer's disease, Parkinson's disease and Multiple sclerosis: Emerging Synaptic Biomarkers for Neurodegenerative Diseases

Author

Chatterjee, M. and Chatterjee, M.

Published

2020

28. Structural Molecular Components of Septate Junctions in Cnidarians Point to the Origin of Epithelial Junctions in Eukaryotes.

Author

Ganot, Philippe, Zoccola, Didier, Tambutté, Eric, Voolstra, Christian R., Aranda, Manuel, Allemand, Denis, and Tambutté, Sylvie

Abstract

Septate junctions (SJs) insure barrier properties and control paracellular diffusion of solutes across epithelia in invertebrates. However, the origin and evolution of their molecular constituents in Metazoa have not been firmly established. Here, we investigated the genomes of early branching metazoan representatives to reconstruct the phylogeny of the molecular components of SJs. Although Claudins and SJ cytoplasmic adaptor components appeared successively throughout metazoan evolution, the structural components of SJs arose at the time of Placozoa/Cnidaria/Bilateria radiation. We also show that in the scleractinian coral Stylophora pistillata, the structural SJ component Neurexin IV colocalizes with the cortical actin network at the apical border of the cells, at the place of SJs. We propose a model for SJ components in Cnidaria. Moreover, our study reveals an unanticipated diversity of SJ structural component variants in cnidarians. This diversity correlates with gene-specific expression in calcifying and noncalcifying tissues, suggesting specific paracellular pathways across the cell layers of these diploblastic animals. [ABSTRACT FROM AUTHOR]

Published

2015

29. A CNTNAP1 Missense Variant Is Associated with Canine Laryngeal Paralysis and Polyneuropathy

Author

Letko, Minor, Friedenberg, Shelton, Salvador, Mandigers, Leegwater, Winkler, Petersen-Jones, Stanley, Ekenstedt, Johnson, Hansen, Jagannathan, Mickelson, and Drögemüller

Subjects

Labrador retriever, whole-genome sequencing, Saint Bernard, rare disease, neurological disorder, Canis familiaris, contactin, Leonberger

Abstract

Laryngeal paralysis associated with a generalized polyneuropathy (LPPN) most commonly exists in geriatric dogs from a variety of large and giant breeds. The purpose of this study was to discover the underlying genetic and molecular mechanisms in a younger-onset form of this neurodegenerative disease seen in two closely related giant dog breeds, the Leonberger and Saint Bernard. Neuropathology of an affected dog from each breed showed variable nerve fiber loss and scattered inappropriately thin myelinated fibers. Using across-breed genome-wide association, haplotype analysis, and whole-genome sequencing, we identified a missense variant in the CNTNAP1 gene (c.2810G&gt, A, p.Gly937Glu) in which homozygotes in both studied breeds are affected. CNTNAP1 encodes a contactin-associated protein important for organization of myelinated axons. The herein described likely pathogenic CNTNAP1 variant occurs in unrelated breeds at variable frequencies. Individual homozygous mutant LPPN-affected Labrador retrievers that were on average four years younger than dogs affected by geriatric onset laryngeal paralysis polyneuropathy could be explained by this variant. Pathologic changes in a Labrador retriever nerve biopsy from a homozygous mutant dog were similar to those of the Leonberger and Saint Bernard. The impact of this variant on health in English bulldogs and Irish terriers, two breeds with higher CNTNAP1 variant allele frequencies, remains unclear. Pathogenic variants in CNTNAP1 have previously been reported in human patients with lethal congenital contracture syndrome and hypomyelinating neuropathy, including vocal cord palsy and severe respiratory distress. This is the first report of contactin-associated LPPN in dogs characterized by a deleterious variant that most likely predates modern breed establishment.

Published

2020

30. A CNTNAP1 Missense Variant Is Associated with Canine Laryngeal Paralysis and Polyneuropathy

Subjects

Labrador retriever, whole-genome sequencing, Saint Bernard, rare disease, Canis familiaris, neurological disorder, contactin, Leonberger

Abstract

Laryngeal paralysis associated with a generalized polyneuropathy (LPPN) most commonly exists in geriatric dogs from a variety of large and giant breeds. The purpose of this study was to discover the underlying genetic and molecular mechanisms in a younger-onset form of this neurodegenerative disease seen in two closely related giant dog breeds, the Leonberger and Saint Bernard. Neuropathology of an affected dog from each breed showed variable nerve fiber loss and scattered inappropriately thin myelinated fibers. Using across-breed genome-wide association, haplotype analysis, and whole-genome sequencing, we identified a missense variant in the CNTNAP1 gene (c.2810G>A; p.Gly937Glu) in which homozygotes in both studied breeds are affected. CNTNAP1 encodes a contactin-associated protein important for organization of myelinated axons. The herein described likely pathogenic CNTNAP1 variant occurs in unrelated breeds at variable frequencies. Individual homozygous mutant LPPN-affected Labrador retrievers that were on average four years younger than dogs affected by geriatric onset laryngeal paralysis polyneuropathy could be explained by this variant. Pathologic changes in a Labrador retriever nerve biopsy from a homozygous mutant dog were similar to those of the Leonberger and Saint Bernard. The impact of this variant on health in English bulldogs and Irish terriers, two breeds with higher CNTNAP1 variant allele frequencies, remains unclear. Pathogenic variants in CNTNAP1 have previously been reported in human patients with lethal congenital contracture syndrome and hypomyelinating neuropathy, including vocal cord palsy and severe respiratory distress. This is the first report of contactin-associated LPPN in dogs characterized by a deleterious variant that most likely predates modern breed establishment.

Published

2020

31. Actions and Interactions of Alcohol and Transforming Growth Factor β1 on Prepubertal Hypothalamic Gonadotropin-Releasing Hormone.

Author

Srivastava, Vinod K., Hiney, Jill K., and Dees, William L.

Subjects

*IMMUNOBLOTTING, *POLYMERASE chain reaction methodology, *ANALYSIS of variance, *ANIMAL experimentation, *ETHANOL, *GENE expression, *GROWTH factors, *HYPOTHALAMIC hormones, *GONADOTROPIN releasing hormone, *PUBERTY, *RATS, *RESEARCH funding, *STATISTICS, *DATA analysis software, *DESCRIPTIVE statistics

Abstract

Background Alcohol ( ALC) diminishes gonadotropin-releasing hormone ( Gn RH) secretion and delays puberty. Glial transforming growth factor β1 ( TGF β1) plays a role in glial-neuronal communications facilitating prepubertal Gn RH secretion. We assessed the effects of acute ALC administration on TGF β1-induced Gn RH gene expression in the brain preoptic area ( POA) and release of the peptide from the medial basal hypothalamus ( MBH). Furthermore, we assessed actions and interactions of TGF β1 and ALC on an adhesion/signaling gene family involved in glial-neuronal communications. Methods Prepubertal female rats were administered ALC or water via gastric gavage at 7:30 am. At 9:00 am, saline or TGF β1 (100 ng/3 μl) was administered into the third ventricle. At 3:00 pm, the POA was removed and frozen for gene expression analysis and repeated for protein assessments. In another experiment, the MBH was removed from ALC-free rats. After equilibration, tissues were incubated in Locke's medium only or medium containing TGF β1 with or without 50 mM ALC for measurement of Gn RH peptide released in vitro. Results TGF β1 induced Gn RH gene expression in the POA, and this effect was blocked by ALC. We also described the presence and responsiveness of the TGF β1 receptor in the POA and showed that acute ALC exposure not only altered the TGF β1-induced increase in TGF β- R1 protein expression but also the activation of receptor-associated proteins, Smad2 and Smad3, key downstream components of the TGF β1 signaling pathway. Assessment of an adhesion/signaling family consisting of glial receptor protein tyrosine phosphatase beta and neuronal contactin-associated protein-1 (Caspr1) and contactin showed that the neuronal components were induced by TGF β1 and that ALC blocked these effects. Finally, TGF β1 was shown to induce release of the Gn RH peptide in vitro , an action that was blocked by ALC. Conclusions We have demonstrated glial-derived TGF β1 induces Gn RH gene expression in the POA and stimulates release of the peptide from the MBH, actions necessary for driving the pubertal process. Importantly, ALC acted at both brain regions to block stimulatory effects of TGF β1. Furthermore, ALC altered neuronal components of an adhesion/signaling family previously shown to be expressed on Gn RH neurons and implicated in glial- Gn RH neuronal communications. These results further demonstrate detrimental effects of ALC at puberty. [ABSTRACT FROM AUTHOR]

Published

2014

32. Nanomechanics of β-rich proteins related to neuronal disorders studied by AFM, all-atom and coarse-grained MD methods.

Author

Mikulska, Karolina, Strzelecki, Janusz, and Nowak, Wiesław

Subjects

*NANOMECHANICS, *ATOMIC force microscopes, *MOLECULAR dynamics, *FIBRONECTINS, *GAUSSIAN distribution

Abstract

Computer simulations of protein unfolding substantially help to interpret force-extension curves measured in single-molecule atomic force microscope (AFM) experiments. Standard all-atom (AA) molecular dynamics simulations (MD) give a good qualitative mechanical unfolding picture but predict values too large for the maximum AFM forces with the common pulling speeds adopted here. Fine tuned coarse-grain MD computations (CG MD) offer quantitative agreement with experimental forces. In this paper we address an important methodological aspect of MD modeling, namely the impact of numerical noise generated by random assignments of bead velocities on maximum forces (F) calculated within the CG MD approach. Distributions of CG forces from 2000 MD runs for several model proteins rich in β structures and having folds with increasing complexity are presented. It is shown that F have nearly Gaussian distributions and that values of F for each of those β-structures may vary from 93.2 ± 28.9 pN (neurexin) to 198.3 ± 25.2 pN (fibronectin). The CG unfolding spectra are compared with AA steered MD data and with results of our AFM experiments for modules present in contactin, fibronectin and neurexin. The stability of these proteins is critical for the proper functioning of neuronal synaptic clefts. Our results confirm that CG modeling of a single molecule unfolding is a good auxiliary tool in nanomechanics but large sets of data have to be collected before reliable comparisons of protein mechanical stabilities are made. [Figure not available: see fulltext.] [ABSTRACT FROM AUTHOR]

Published

2014

33. A

Author

Anna, Letko, Katie M, Minor, Steven G, Friedenberg, G Diane, Shelton, Jill Pesayco, Salvador, Paul J J, Mandigers, Peter A J, Leegwater, Paige A, Winkler, Simon M, Petersen-Jones, Bryden J, Stanley, Kari J, Ekenstedt, Gary S, Johnson, Liz, Hansen, Vidhya, Jagannathan, James R, Mickelson, and Cord, Drögemüller

Subjects

Cell Adhesion Molecules, Neuronal, Mutation, Missense, rare disease, Animals, Wild, Breeding, Nerve Fibers, Myelinated, Polymorphism, Single Nucleotide, Article, Labrador retriever, Polyneuropathies, Dogs, Species Specificity, Animals, Point Mutation, Dog Diseases, Age of Onset, neurological disorder, Canidae, Whole Genome Sequencing, Peroneal Nerve, Canis familiaris, Axons, contactin, Amino Acid Substitution, Haplotypes, whole-genome sequencing, Saint Bernard, Vocal Cord Paralysis, Leonberger

Abstract

Laryngeal paralysis associated with a generalized polyneuropathy (LPPN) most commonly exists in geriatric dogs from a variety of large and giant breeds. The purpose of this study was to discover the underlying genetic and molecular mechanisms in a younger-onset form of this neurodegenerative disease seen in two closely related giant dog breeds, the Leonberger and Saint Bernard. Neuropathology of an affected dog from each breed showed variable nerve fiber loss and scattered inappropriately thin myelinated fibers. Using across-breed genome-wide association, haplotype analysis, and whole-genome sequencing, we identified a missense variant in the CNTNAP1 gene (c.2810G>A; p.Gly937Glu) in which homozygotes in both studied breeds are affected. CNTNAP1 encodes a contactin-associated protein important for organization of myelinated axons. The herein described likely pathogenic CNTNAP1 variant occurs in unrelated breeds at variable frequencies. Individual homozygous mutant LPPN-affected Labrador retrievers that were on average four years younger than dogs affected by geriatric onset laryngeal paralysis polyneuropathy could be explained by this variant. Pathologic changes in a Labrador retriever nerve biopsy from a homozygous mutant dog were similar to those of the Leonberger and Saint Bernard. The impact of this variant on health in English bulldogs and Irish terriers, two breeds with higher CNTNAP1 variant allele frequencies, remains unclear. Pathogenic variants in CNTNAP1 have previously been reported in human patients with lethal congenital contracture syndrome and hypomyelinating neuropathy, including vocal cord palsy and severe respiratory distress. This is the first report of contactin-associated LPPN in dogs characterized by a deleterious variant that most likely predates modern breed establishment.

Published

2020

34. Contactins as novel potential biomarkers for Alzheimer's disease, Parkinson's disease and Multiple sclerosis

Subjects

Parkinson's disease, synaptic degeneration, biomarker, Neurodegeneration, Alzheimer's disease, multiple sclerosis, protein, serum, cerebrospinal fluid, contactin

Published

2020

35. Molecular organization and function of vertebrate septate-like junctions

Author

Catherine Faivre-Sarrailh, Institut de Neurobiologie de la Méditerranée [Aix-Marseille Université] (INMED - INSERM U1249), Institut National de la Santé et de la Recherche Médicale (INSERM)-Aix Marseille Université (AMU), Faivre-Sarrailh, Catherine, and Aix Marseille Université (AMU)-Institut National de la Santé et de la Recherche Médicale (INSERM)

Subjects

0301 basic medicine, Potassium Channels, Caspr, Biophysics, Septate junctions, Nerve Tissue Proteins, [SDV.BC]Life Sciences [q-bio]/Cellular Biology, Biochemistry, Nerve Fibers, Myelinated, 03 medical and health sciences, Myelin, 0302 clinical medicine, Ranvier's Nodes, medicine, Cell Adhesion, Animals, Humans, Contactin, [SDV.NEU] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC], Axon, Neurofascin, Paranodal junctions, Myelin Sheath, ComputingMilieux_MISCELLANEOUS, Node of Ranvier, Cell adhesion molecule, Chemistry, Saltatory conduction, Cell Biology, Axons, Cell biology, 030104 developmental biology, medicine.anatomical_structure, Intercellular Junctions, nervous system, Vertebrates, Ultrastructure, [SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC], NODAL, Cell Adhesion Molecules, 030217 neurology & neurosurgery

Abstract

International audience; Septate-like junctions display characteristic ladder-like ultrastructure reminiscent of the invertebrate epithelial septate junctions and are present at the paranodes of myelinated axons. The paranodal junctions where the myelin loops attach to the axon at the borders of the node of Ranvier provide both a paracellular barrier to ion diffusion and a lateral fence along the axonal membrane. The septate-like junctions constrain the proper distribution of nodal Na + channels and juxtaparanodal K + channels, which are required for the safe propagation of the nerve influx and rapid saltatory conduction. The paranodal cell adhesion molecules have been identified as target antigens in peripheral demyelinating autoimmune diseases and the pathogenic mechanisms described. This review aims at presenting the recent knowledge on the molecular and structural organization of septate-like junctions, their formation and stabilization during development, and how they are involved in demyelinating diseases.

Published

2020

36. Contactins as novel potential biomarkers for Alzheimer's disease, Parkinson's disease and Multiple sclerosis

Subjects

Parkinson's disease, synaptic degeneration, biomarker, Neurodegeneration, Alzheimer's disease, multiple sclerosis, protein, serum, cerebrospinal fluid, contactin

Published

2020

37. Contactins as novel potential biomarkers for Alzheimer's disease, Parkinson's disease and Multiple sclerosis:Emerging Synaptic Biomarkers for Neurodegenerative Diseases

Author

Chatterjee, M.

Subjects

Parkinson's disease, synaptic degeneration, biomarker, Neurodegeneration, Alzheimer's disease, multiple sclerosis, protein, serum, cerebrospinal fluid, contactin

Published

2020

38. A cis-complex of NB-2/contactin-5 with amyloid precursor-like protein 1 is localized on the presynaptic membrane

Author

Shimoda, Yasushi, Koseki, Fumiya, Itoh, Masaki, Toyoshima, Manabu, and Watanabe, Kazutada

Subjects

*AMYLOID beta-protein precursor, *SYNAPSES, *CELL membranes, *AUDITORY pathways, *LABORATORY rodents, *GENE expression, *WESTERN immunoblotting, *MESSENGER RNA, *SYNAPSINS

Abstract

Abstract: NB-2/contactin-5 plays an important role in synapse formation in the developing auditory system of rodents. In this study, to further elucidate the molecular role of NB-2 in synapse formation, we examined the interaction between NB-2 and amyloid precursor-like protein 1 (APLP1), as well as their possible co-localization at the synapse. Pull-down assays and cell surface binding assays demonstrated that NB-2 interacts with APLP1. Furthermore, the protein expression profile of APLP1 in western blots was similar to that of NB-2, and localization of APLP1 mRNA partially overlapped that of NB-2 mRNA. In cultured hippocampal neurons, immunofluorescence signals for both NB-2 and APLP1 overlapped with synapsin, a presynaptic marker. Biochemical analysis showed that both NB-2 and APLP1 were enriched in the presynaptic fraction. These results indicate that NB-2 forms a cis-complex with APLP1 on the presynaptic membrane. [Copyright &y& Elsevier]

Published

2012

39. Notch signaling and Notch signaling modifiers

Author

Wang, Michael M.

Subjects

*CELLULAR signal transduction, *NOTCH proteins, *EXTRACELLULAR matrix proteins, *EPIDERMAL growth factor, *CELL receptors, *THROMBOSPONDINS, *ETHYLENEDIAMINETETRAACETIC acid

Abstract

Abstract: Originally discovered nearly a century ago, the Notch signaling pathway is critical for virtually all developmental programs and modulates an astounding variety of pathogenic processes. The DSL (Delta, Serrate, LAG-2 family) proteins have long been considered canonical activators of the core Notch pathway. More recently, a wide and expanding network of non-canonical extracellular factors has also been shown to modulate Notch signaling, conferring newly appreciated complexity to this evolutionarily conserved signal transduction system. Here, I review current concepts in Notch signaling, with a focus on work from the last decade elucidating novel extracellular proteins that up- or down-regulate signal potency. [Copyright &y& Elsevier]

Published

2011

40. Nanomechanics of Ig-like domains of human contactin (BIG-2).

Author

Mikulska, Karolina, Pepłowski, Łukasz, and Nowak, Wiesław

Subjects

*EXTRACELLULAR matrix proteins, *BRAIN, *NEURONS, *FIBRONECTINS, *GLYCOPROTEINS

Abstract

Contactins are modular extracellular cell matrix proteins that are present in the brain, and they are responsible for the proper development and functioning of neurons. They contain six immunoglobulin-like IgC2 domains and four fibronectin type III repeats. The interactions of contactin with other proteins are poorly understood. The mechanical properties of all IgC2 domains of human contactin 4 were studied using a steered molecular dynamics approach and CHARMM force field with an explicit TIP3P water environment on a 10-ns timescale. Force spectra of all domains were determined computationally and the nanomechanical unfolding process is described. The domains show different mechanical stabilities. The calculated maxima of the unfolding force are in the range of 900-1700 pN at a loading rate of 7 N/s. Our data indicate that critical regions of IgC2 domains 2 and 3, which are responsible for interactions with tyrosine phosphatases and are important in nervous system development, are affected by even weak mechanical stretching. Thus, tensions present in the cell may modulate cellular activities related to contactin function. The present data should facilitate the interpretation of atomic force microscope single-molecule spectra of numerous proteins with similar IgC2 motives. [Figure not available: see fulltext.] [ABSTRACT FROM AUTHOR]

Published

2011

41. From axon-glial signalling to myelination: the integrating role of oligodendroglial Fyn kinase.

Author

Krämer-Albers, Eva-Maria and White, Robin

Subjects

*MYELINATION, *AXONS, *NEUROGLIA, *CELLULAR signal transduction, *OLIGODENDROGLIA, *MYELIN proteins, *INTEGRINS, *PROTEIN-tyrosine kinases

Abstract

Central nervous system myelination requires recognition and signalling processes between neuronal axons and oligodendrocytes. Complex cellular rearrangements occur in myelination-competent oligodendrocytes requiring spatio-temporal control mechanisms. Although the molecular repertoire is becoming increasingly transparent, the signalling mechanisms governing myelination initiation are only poorly understood. The non-receptor tyrosine kinase Fyn has been implicated in axon-glial signal transduction and in several cellular processes required for oligodendrocyte maturation and myelination. Here, we review oligodendroglial Fyn signalling and discuss the role of Fyn in axon-glia interaction mediating myelination. [ABSTRACT FROM AUTHOR]

Published

2011

42. GPI-anchored proteins at the node of Ranvier

Author

Labasque, Marilyne and Faivre-Sarrailh, Catherine

Subjects

*GLYCOLIPIDS, *CELL adhesion molecules, *MYELINATION, *ENDOPLASMIC reticulum, *MEMBRANE proteins, *NEUROLOGICAL disorders, *MULTIPLE sclerosis

Abstract

Abstract: Contactin and TAG-1 are glycan phosphatidyl inositol (GPI)-anchored cell adhesion molecules that play a crucial role in the organization of axonal subdomains at the node of Ranvier of myelinating fibers. Contactin and TAG-1 mediate axo-glial selective interactions in association with Caspr-family molecules at paranodes and juxtaparanodes, respectively. How membrane proteins can be confined in these neighbouring domains along the axon has been the subject of intense investigations. This review will specifically examine the properties conferred by the lipid microenvironment to regulate trafficking and selective association of these axo-glial complexes. Increasing evidences from genetic and neuropathological models point to a role of lipid rafts in the formation or stabilization of the paranodal junctions. [Copyright &y& Elsevier]

Published

2010

43. Synaptic formation in subsets of glutamatergic terminals in the mouse hippocampal formation is affected by a deficiency in the neural cell recognition molecule NB-3

Author

Sakurai, Kunie, Toyoshima, Manabu, Takeda, Yasuo, Shimoda, Yasushi, and Watanabe, Kazutada

Subjects

*HIPPOCAMPUS (Brain), *GLUTAMIC acid, *POSTNATAL development in animals, *NERVOUS system development, *CELLULAR recognition, *DENTATE gyrus, *LABORATORY mice

Abstract

Abstract: The neural cell recognition molecule NB-3, which is also referred to as contactin-6, is a member of the contactin subgroup molecules that are expressed prominently in the developing nervous system after birth. In mice, an NB-3 deficiency impairs motor coordination and reduces the synaptic density between parallel fibers and Purkinje cells in the cerebellum. Here, we studied the role of NB-3 in the formation of glutamatergic synapses in the hippocampal formation. At postnatal day 5, NB-3 immunoreactivity was detected in the subiculum, the stratum lacunosum–moleculare of the CA1 region and the hilus of the dentate gyrus. NB-3 expression in the strata radiatum and oriens was weak, and it was very weak in the granule cell layer of the dentate gyrus, the pyramidal cell layer of regions CA3 to CA1 and the stratum lucidum. NB-3-positive puncta partially overlapped with vesicular glutamate transporter 1 (VGLUT1) and 2 (VGLUT2), excitatory presynaptic markers, but not with vesicular GABA transporter (VGAT), an inhibitory presynaptic marker. The density of VGLUT1 and VGLUT2 puncta in the regions where NB-3 was strongly expressed in wild-type mice was reduced by ∼20–30% in NB-3 knockout mice relative to wild-type mice, whereas that of VGAT puncta was not affected by NB-3 deficiency. Thus, NB-3 has key roles in the formation of glutamatergic, but not GABAergic, synapses during postnatal development of the hippocampal formation as well as the cerebellum. [Copyright &y& Elsevier]

Published

2010

44. Deficiency of neural recognition molecule NB-2 affects the development of glutamatergic auditory pathways from the ventral cochlear nucleus to the superior olivary complex in mouse

Author

Toyoshima, Manabu, Sakurai, Kunie, Shimazaki, Kuniko, Takeda, Yasuo, Shimoda, Yasushi, and Watanabe, Kazutada

Subjects

*AUDITORY pathways, *COCHLEAR nucleus, *MOLECULAR recognition, *LABORATORY mice, *GENE expression, *BRAIN stem, *APOPTOSIS, *CELL adhesion molecules

Abstract

Abstract: Neural recognition molecule NB-2/contactin 5 is expressed transiently during the first postnatal week in glutamatergic neurons of the central auditory system. Here, we investigated the effect of NB-2 deficiency on the auditory brainstem in mouse. While almost all principal neurons are wrapped with the calyces of Held in the medial nucleus of the trapezoid body (MNTB) in wild type, 8% of principal neurons in NB-2 knockout (KO) mice lack the calyces of Held at postnatal day (P) 6. At P10 and P15, apoptotic principal neurons were detected in NB-2 KO mice, but not in wild type. Apoptotic cells were also increased in the ventral cochlear nucleus (VCN) of NB-2 KO mice, which contains bushy neurons projecting to the MNTB and the lateral superior olive (LSO). At the age of 1 month, the number of principal neurons in the MNTB and of glutamatergic synapses in the LSO was reduced in NB-2 KO mice. Finally, interpeak latencies for auditory brainstem response waves II–III and III–IV were significantly increased in NB-2 KO mice. Together, these findings suggest that NB-2 deficiency causes a deficit in synapse formation and then induces apoptosis in MNTB and VCN neurons, affecting auditory brainstem function. [Copyright &y& Elsevier]

Published

2009

45. Voltage-Gated Na+ Channel β1 Subunit-Mediated Neurite Outgrowth Requires Fyn Kinase and Contributes to Postnatal CNS Development In Vivo.

Author

Brackenbury, William J., Davis, Tigwa H., Chunling Chen, Slat, Emily A., Detrow, Matthew J., Dickendesher, Travis L., Ranscht, Barbara, and Isom, Lori L.

Subjects

*SODIUM channels, *ION channels, *CELL adhesion molecules, *CELL adhesion, *NEURONS

Abstract

Voltage-gated Na+ channel β1 subunits are multifunctional, participating in channel modulation and cell adhesion in vitro. We previously demonstrated that β1 promotes neurite outgrowth of cultured cerebellar granule neurons (CGNs) via homophilic adhesion. Both lipid raft-associated kinases and nonraft fibroblast growth factor (FGF) receptors are implicated in cell adhesion molecule-mediated neurite extension. In the present study, we reveal that β1-mediated neurite outgrowth is abrogated in Fyn and contactin (Cntn) null CGNs. β1 protein levels are unchanged in Fyn null brains, whereas levels are significantly reduced in Cntn null brain lysates. FGF or EGF (epidermal growth factor) receptor kinase inhibitors have no effect on β1-mediated neurite extension. These results suggest that β1-mediated neurite outgrowth occurs through a lipid raft signaling mechanism that requires the presence of both fyn kinase and contactin. In vivo, Scn1b null mice show defective CGN axon extension and fasciculation indicating that β1 plays a role in cerebellar microorganization. In addition, we find that axonal pathfinding and fasciculation are abnormal in corticospinal tracts of Scn1b null mice consistent with the suggestion that β1 may have widespread effects on postnatal neuronal development. These data are the first to demonstrate a cell-adhesive role for β1 in vivo. We conclude that voltage-gated Na+ channel β1 subunits signal via multiple pathways on multiple timescales and play important roles in the postnatal development of the CNS. [ABSTRACT FROM AUTHOR]

Published

2008

46. Evidence for hypothalamic dysregulation in mouse models of anorexia as well as in humans

Author

Johansen, Jeanette E., Fetissov, Sergueï O., Bergström, Ulrika, Nilsson, Ida, Faÿ, Charles, Ranscht, Barbara, Hökfelt, Tomas, and Schalling, Martin

Subjects

*HYPOTHALAMUS, *APPETITE loss, *CENTRAL nervous system, *INGESTION

Abstract

Abstract: Johansen JE, Fetissov SO, Bergström U, Nilsson I, Faÿ C, Ranscht B, Hökfelt T, Schalling M. Evidence for hypothalamic dysregulation in mouse models of anorexia as well as in humans. PHYSIOL. BEHAV. 0(00) 000-000, 2006. Eating disorders constitute major medical health problems in the western world. Even though little is known about the molecular mechanisms behind abnormal eating behavior, it has become clear that the central nervous system (CNS), particularly the hypothalamus, plays a significant role. The anorexic anx/anx mouse is a unique model for studying food intake and energy expenditure. The anx mutation is linked to marked alterations in hypothalamic distributions of signal substances known to have potent regulatory roles in the control of food intake. Another mouse model that displays an anorectic phenotype similar to the anx/anx mouse is the Contactin KO mouse. This model displays very similar hypothalamic alterations as seen in the anx/anx mouse, arguing for a role of these specific hypothalamic changes in an anorectic phenotype. In human eating disorders, hypothalamic systems corresponding to those defective in mouse models could be compromised since autoantibodies against melanocortin peptides have been detected in anorectic and bulimic patients. These findings represent research avenues that may lead to a better understanding of eating disorders and development of targeted therapeutic approaches. [Copyright &y& Elsevier]

Published

2007

47. Contactins & Alzheimer's Disease: Synaptic Proteins, Contactins may Contribute to the Pathology of Alzheimer's Disease.

Author

Chatterjee, Madhurima and Teunissen, Charlotte

Subjects

*ALZHEIMER'S disease, *AMYLOID beta-protein precursor, *PROTEINS, *PATHOLOGY

Published

2020

48. Repulsive guidance of axons of spinal sensory neurons in Xenopus laevis embryos: Roles of Contactin and notochord-derived chondroitin sulfate proteoglycans.

Author

Fujita, Naoko and Nagata, Saburo

Subjects

*AXONS, *SENSORY neurons, *XENOPUS laevis, *EMBRYOS, *SPINE, *PROTEOGLYCANS, *CELL adhesion molecules

Abstract

An immunoglobulin superfamily neuronal adhesion molecule, Contactin, has been implicated in axon guidance of spinal sensory neurons in Xenopus embryos. To identify the guidance signaling molecules that Contactin recognizes in tailbud embryos, an in situ binding assay was performed using recombinant Contactin-alkaline phosphatase fusion protein (Contactin-AP) as a probe. In the assay of whole-mount or sectioned embryos, Contactin-AP specifically bound to the notochord and its proximal regions. This binding was completely blocked by either digestion of embryo sections with chondroitinase ABC or pretreatment of Contactin-AP with chondroitin sulfate A. When the spinal cord and the notochord explants were co-cultured in collagen gel, growing Contactin-positive spinal axons were repelled by notochord-derived repulsive activity. This repulsive activity was abolished by the addition of either a monoclonal anti-Contactin antibody, chondroitin sulfate A or chondroitinase ABC to the culture medium. An antibody that recognizes chondroitin sulfate A and C labeled immunohistochemically the notochord in embryo sections and the collagen gel matrix around the cultured notochord explant. Addition of chondroitinase ABC into the culture eliminated the immunoreactivity in the gel matrix. These results suggest that the notochord-derived chondroitin sulfate proteoglycan acts as a repulsive signaling molecule that is recognized by Contactin on spinal sensory axons. [ABSTRACT FROM AUTHOR]

Published

2005

49. Molecular constituents of the node of ranvier.

Author

Kazarinova-Noyes, Katie and Shrager, Peter

Abstract

The interaction between neurons and glial cells that results in myelin formation represents one of the most remarkable intercellular events in development. This is especially evident at the primary functional site within this structure, the node of Ranvier. Recent experiments have revealed a surprising level of complexity within this zone, with several components, including ion channels, sequestered with a very high degree of precision and sharply demarcated borders. We discuss the current state of knowledge of the cellular and molecular mechanisms responsible for the formation and maintenance of the node. In normal axons, Na+ channels are present at high density within the nodal gap, and voltage-dependent K+ channels are sequestered on the internodal side of the paranode—a region known as the juxtaparanode. Modifying the expression of certain surface adhesion molecules that have been recently identified, markedly alters this pattern. There is a special emphasis on contactin, a protein with multiple roles in the nervous system. In central nervous system (CNS) myelinated fibers, contactin is localized within both the nodal gap and paranodes, and appears to have unique functions in each zone. New experiments on contactin-null mutant mice help to define these mechanisms. [ABSTRACT FROM AUTHOR]

Published

2002

50. Overexpression of Fyn tyrosine kinase causes abnormal development of primary sensory neurons in Xenopus laevis embryos.

Author

Saito, Rika, Fujita, Naoko, and Nagata, Saburo

Subjects

*XENOPUS laevis, *PROTEIN-tyrosine kinases, *NEURON development, *EMBRYOS

Abstract

The expression and function of the Src family protein tyrosine kinase Fyn in Xenopus laevis embryos have been examined. In situ hybridization analysis demonstrated nervous system-specific expression of Fyn mRNA in tail-bud embryos. However, a class of primary sensory neurons; that is, Rohon–Beard (RB) neurons, which is positive for immunoglobulin superfamily cell adhesion molecules (CAM), neural cell adhesion molecule (N-CAM) and contactin, is devoid of Fyn expression. Injection of Fyn mRNA into one of the blastomeres at the 2-cell stage led to overexpression of Fyn in the injected half of the tail-bud embryos. Immunolabeling of the embryos with anti-HNK-1 antibody revealed that the peripheral axons of RB neurons were partially misguided and bound to each other to form abnormal subcutaneous fascicles. Similar abnormality was induced by injection of the Fyn overexpression vector. The incidence of abnormality appeared dose-dependent, being 68–92% of the injected embryos at 50–400 pg of mRNA. Co-injection of the contactin antisense vector depleted contactin mRNA accumulation without affecting Fyn overexpression and reduced the incidence of the abnormal RB-cell phenotype. However, the N-CAM antisense was ineffective in reducing this abnormality. These results suggest that Fyn can modify signals regulating axonal guidance or fasciculation in the developing X. laevis nervous system and that contactin may affect this action of Fyn. [ABSTRACT FROM AUTHOR]

Published

2001