Your search keyword '"Nectin1"' showing total 13 results

1. Nectin1 is a pivotal host factor involved in attachment and entry of red-spotted grouper nervous necrosis virus in the early stages of the viral life cycle.

Author

Zhiqi Zhang, Jing Xing, Xiaoqian Tang, Xiuzhen Sheng, Heng Chi, and Wenbin Zhan

Subjects

*LIFE cycles (Biology), *VIRAL proteins, *NERVE tissue, *NERVOUS system, *GROUPERS

Abstract

Nervous necrosis virus (NNV) is a highly neurotropic virus that poses a persistent threat to the survival of multiple fish species. However, its inimitable neuropathogenesis remains largely elusive. To rummage potential partners germane to the nervous system, we investigated the interaction between red-spotted grouper NNV (RGNNV) and grouper brain by immunoprecipitation coupled with mass spectrometry and discerned Nectin1 as a novel host factor subtly involved in viral early invasion events. Nectin1 was abundant in neural tissues and implicated in the inception of tunnel nanotubes triggered by RGNNV. Its overexpression not only dramatically potentiated the replication dynamics of RGNNV in susceptible cells, but also empowered non-sensitive cells to expeditiously capture free virions within 2 min. This potency was impervious to low temperatures but was dose-dependently suppressed by soluble protein or specific antibody of Nectin1 ectodomain, indicating Nectin1 as an attachment receptor for RGNNV. Mechanistically, efficient hijacking of virions by Nectin1 strictly depended on intricate linkages to different modules of viral capsid protein, especially the direct binding between the IgC1 loop and P-domain. More strikingly, despite abortive proliferation in Nectin1-reconstructed CHSE-214 cells, a non-sensitive cell, RGNNV could gain access to the intracellular compartment by capitalizing on Nectin1, thereby inducing canonical cytoplasmic vacuolation. Altogether, our findings delineate a candidate entrance for RGNNV infiltration into the nervous system, which may shed unprecedented insights into the exploration and elucidation of RGNNV pathogenesis. IMPORTANCE Nervous necrosis virus (NNV) is one of the most virulent pathogens in the aquaculture industry, which inflicts catastrophic damage to ecology, environment, and economy annually around the world. Nevertheless, its idiosyncratic invasion and latency mechanisms pose enormous hardships to epidemic prevention and control. In this study, deploying grouper brain as a natural screening library, a single-transmembrane glycoprotein, Nectin1, was first identified as an emergent functional receptor for red-spotted grouper NNV (RGNNV) that widely allocated in nervous tissues and directly interacted with viral capsid protein through distinct Ig-like loops to bridge virus-host crosstalk, apprehend free virions, and concomitantly propel viral entry. Our findings illuminate the critical role of Nectin1 in RGNNV attachment and entry and provide a potential target for future clinical intervention strategies in the therapeutic race against RGNNV. [ABSTRACT FROM AUTHOR]

Published

2024

2. Effects of chronic stress on nectin1 levels in the mouse primary somatosensory cortex

Author

Xue Xu and Xiao-Dong Wang

Subjects

stress, nectin1, primary somatosensory cortex, corticotropin-releasing hormone, Psychology, BF1-990, Genetics, QH426-470

Abstract

Chronic exposure to stressful experiences impairs synaptic plasticity. Previous studies have shown that the spine densities of pyramidal neurons, the turnover of mushroom-type spines, and the excitatory–inhibitory balance in the primary somatosensory cortex (S1) are modulated by stress. Trans-synaptic cell adhesion molecules (CAMs) are implicated in stress-induced synaptic deficits. However, it remains unknown whether stress dysregulates CAMs in S1 and thereby impairs synaptic plasticity. In this study, we applied the early-life stress (ELS), chronic social defeat stress (CSDS), and chronic restraint stress paradigms and measured the mRNA levels of nectin1 in S1 of wild-type and conditional forebrain corticotropin-releasing hormone receptor 1 type (CRHR1) conditional knockout mice. We found that ELS increased nectin1 mRNA levels in S1 in adult but not adolescent mice. Moreover, CSDS increased the nectin1 mRNA levels in S1 in adult mice via the CRH-CRHR1 system. Our findings suggest that S1 is vulnerable to repeated stress exposures at some life stages, and dysregulated nectin1 expression may underlie stress-induced structural and functional abnormalities in S1.

Published

2022

3. Nectin1 is a pivotal host factor involved in attachment and entry of red-spotted grouper nervous necrosis virus in the early stages of the viral life cycle.

Author

Zhang Z, Xing J, Tang X, Sheng X, Chi H, and Zhan W

Subjects

Animals, Virus Replication, Virus Attachment, Capsid Proteins metabolism, Capsid Proteins genetics, Brain virology, Brain metabolism, Virion metabolism, Cell Line, Nectins metabolism, Nodaviridae physiology, Virus Internalization, Fish Diseases virology, Fish Diseases metabolism, RNA Virus Infections virology, RNA Virus Infections metabolism, RNA Virus Infections veterinary

Abstract

Nervous necrosis virus (NNV) is a highly neurotropic virus that poses a persistent threat to the survival of multiple fish species. However, its inimitable neuropathogenesis remains largely elusive. To rummage potential partners germane to the nervous system, we investigated the interaction between red-spotted grouper NNV (RGNNV) and grouper brain by immunoprecipitation coupled with mass spectrometry and discerned Nectin1 as a novel host factor subtly involved in viral early invasion events. Nectin1 was abundant in neural tissues and implicated in the inception of tunnel nanotubes triggered by RGNNV. Its overexpression not only dramatically potentiated the replication dynamics of RGNNV in susceptible cells, but also empowered non-sensitive cells to expeditiously capture free virions within 2 min. This potency was impervious to low temperatures but was dose-dependently suppressed by soluble protein or specific antibody of Nectin1 ectodomain, indicating Nectin1 as an attachment receptor for RGNNV. Mechanistically, efficient hijacking of virions by Nectin1 strictly depended on intricate linkages to different modules of viral capsid protein, especially the direct binding between the IgC1 loop and P-domain. More strikingly, despite abortive proliferation in Nectin1-reconstructed CHSE-214 cells, a non-sensitive cell, RGNNV could gain access to the intracellular compartment by capitalizing on Nectin1, thereby inducing canonical cytoplasmic vacuolation. Altogether, our findings delineate a candidate entrance for RGNNV infiltration into the nervous system, which may shed unprecedented insights into the exploration and elucidation of RGNNV pathogenesis.IMPORTANCENervous necrosis virus (NNV) is one of the most virulent pathogens in the aquaculture industry, which inflicts catastrophic damage to ecology, environment, and economy annually around the world. Nevertheless, its idiosyncratic invasion and latency mechanisms pose enormous hardships to epidemic prevention and control. In this study, deploying grouper brain as a natural screening library, a single-transmembrane glycoprotein, Nectin1, was first identified as an emergent functional receptor for red-spotted grouper NNV (RGNNV) that widely allocated in nervous tissues and directly interacted with viral capsid protein through distinct Ig-like loops to bridge virus-host crosstalk, apprehend free virions, and concomitantly propel viral entry. Our findings illuminate the critical role of Nectin1 in RGNNV attachment and entry and provide a potential target for future clinical intervention strategies in the therapeutic race against RGNNV., Competing Interests: The authors declare no conflict of interest.

Published

2024

4. A Nectin1 Mutant Mouse Model Is Resistant to Pseudorabies Virus Infection.

Author

Yang, Xiaohui, Yu, Chuanzhao, Zhang, Qiuyan, Hong, Linjun, Gu, Ting, Zheng, Enqin, Xu, Zheng, Li, Zicong, Song, Changxu, Cai, Gengyuan, Wu, Zhenfang, and Yang, Huaqiang

Subjects

*AUJESZKY'S disease virus, *VIRUS diseases, *LABORATORY mice, *ANIMAL disease models, *SUBCUTANEOUS injections

Abstract

The present study generated nectin1-mutant mice with single amino acid substitution and tested the anti-pseudorabies virus (PRV) ability of the mutant mice, with the aim to establish a model for PRV-resistant livestock. A phenylalanine to alanine transition at position 129 (F129A) of nectin1 was introduced into the mouse genome to generate nectin1 (F129A) mutant mice. The mutant mice were infected with a field-isolated highly virulent PRV strain by subcutaneous injection of virus. We found that the homozygous mutant mice had significantly alleviated disease manifestations and decreased death rate and viral loading in serum and tissue compared with heterozygous mutant and wild-type mice. In addition to disease resistance, the homozygous mutant mice showed a defect in eye development, indicating the side effect on animals by only one amino acid substitution in nectin1. Results demonstrate that gene modification in nectin1 is an effective approach to confer PRV resistance on animals, but the mutagenesis pattern requires further investigation to increase viral resistance without negative effect on animal development. [ABSTRACT FROM AUTHOR]

Published

2022

5. NOTCH Signaling Controls Ciliary Body Morphogenesis and Secretion by Directly Regulating Nectin Protein Expression

Author

Ji Pang, Liang Le, Yi Zhou, Renjun Tu, Qiang Hou, Dai Tsuchiya, Nancy Thomas, Yongfu Wang, Zulin Yu, Richard Alexander, Marina Thexton, Brandy Lewis, Timothy Corbin, Michael Durnin, Hua Li, Ruth Ashery-Padan, Deyue Yan, and Ting Xie

Subjects

ciliary body, NOTCH signaling, Nectin1, Cx43, viteous, aqueous humor, Biology (General), QH301-705.5

Abstract

Summary: Anterior segment dysgenesis is often associated with cornea diseases, cataracts, and glaucoma. In the anterior segment, the ciliary body (CB) containing inner and outer ciliary epithelia (ICE and OCE) secretes aqueous humor that maintains intraocular pressure (IOP). However, CB development and function remain poorly understood. Here, this study shows that NOTCH signaling in the CB maintains the vitreous, IOP, and eye structures by regulating CB morphogenesis, aqueous humor secretion, and vitreous protein expression. Notch2 and Notch3 function via RBPJ in the CB to control ICE-OCE adhesion, CB morphogenesis, aqueous humor secretion, and protein expression, thus maintaining IOP and eye structures. Mechanistically, NOTCH signaling transcriptionally controls Nectin1 expression in the OCE to promote cell adhesion for driving CB morphogenesis and to directly stabilize Cx43 for controlling aqueous humor secretion. Finally, NOTCH signaling directly controls vitreous protein secretion in the ICE. Therefore, this study provides important insight into CB functions and involvement in eye diseases.

Published

2021

6. A Nectin1 Mutant Mouse Model Is Resistant to Pseudorabies Virus Infection

Author

Xiaohui Yang, Chuanzhao Yu, Qiuyan Zhang, Linjun Hong, Ting Gu, Enqin Zheng, Zheng Xu, Zicong Li, Changxu Song, Gengyuan Cai, Zhenfang Wu, and Huaqiang Yang

Subjects

antiviral breeding, genetic modification, nectin1, pig, PRV, disease resistance, Microbiology, QR1-502

Abstract

The present study generated nectin1-mutant mice with single amino acid substitution and tested the anti-pseudorabies virus (PRV) ability of the mutant mice, with the aim to establish a model for PRV-resistant livestock. A phenylalanine to alanine transition at position 129 (F129A) of nectin1 was introduced into the mouse genome to generate nectin1 (F129A) mutant mice. The mutant mice were infected with a field-isolated highly virulent PRV strain by subcutaneous injection of virus. We found that the homozygous mutant mice had significantly alleviated disease manifestations and decreased death rate and viral loading in serum and tissue compared with heterozygous mutant and wild-type mice. In addition to disease resistance, the homozygous mutant mice showed a defect in eye development, indicating the side effect on animals by only one amino acid substitution in nectin1. Results demonstrate that gene modification in nectin1 is an effective approach to confer PRV resistance on animals, but the mutagenesis pattern requires further investigation to increase viral resistance without negative effect on animal development.

Published

2022

7. Downregulation of endogenous nectin1 in human keratinocytes by herpes simplex virus 1 glycoprotein D excludes superinfection but does not affect NK cell function.

Author

Kite J, Hill M, Preston N, Rubina A, Kollnberger S, Wang ECY, and Elliott G

Subjects

Humans, Cell Adhesion Molecules metabolism, Cell Line, Down-Regulation, Keratinocytes, Receptors, Virus metabolism, Viral Envelope Proteins genetics, Herpes Simplex, Herpesvirus 1, Human physiology, Superinfection

Abstract

Many viruses downregulate their cognate receptors, facilitating virus replication and pathogenesis via processes that are not yet fully understood. In the case of herpes simplex virus 1 (HSV1), the receptor binding protein glycoprotein D (gD) has been implicated in downregulation of its receptor nectin1, but current understanding of the process is limited. Some studies suggest that gD on the incoming virion is sufficient to achieve nectin1 downregulation, but the virus-encoded E3 ubiquitin ligase ICP0 has also been implicated. Here we have used the physiologically relevant nTERT human keratinocyte cell type - which we have previously shown to express readily detectable levels of endogenous nectin1 - to conduct a detailed investigation of nectin1 expression during HSV1 infection. In these cells, nectin1, but not nectin2 or the transferrin receptor, disappeared from the cell surface in a process that required virus protein synthesis rather than incoming virus, but did not involve virus-induced host shutoff. Furthermore, gD was not only required but was sufficient for nectin1 depletion, indicating that no other virus proteins are essential. NK cells were shown to be activated in the presence of keratinocytes, a process that was greatly inhibited in cells infected with wild-type virus. However, degranulation of NK cells was also inhibited in ΔgD-infected cells, indicating that blocking of NK cell activation was independent of gD downregulation of nectin1. By contrast, a superinfection time-course revealed that the ability of HSV1 infection to block subsequent infection of a GFP-expressing HSV1 was dependent on gD and occurred in line with the timing of nectin1 downregulation. Thus, the role of gD-dependent nectin1 impairment during HSV infection is important for virus infection, but not immune evasion, which is achieved by other mechanisms.

Published

2024

8. Nectin1 expression is frequently decreased in gastric cancers.

Author

Takahashi, Yu, Yamamichi, Nobutake, Inada, Ken‐ichi, Shiogama, Kazuya, Sakurai, Kouhei, Takeuchi, Chihiro, Mizutani, Yasuyoshi, Tsutsumi, Yutaka, and Koike, Kazuhiko

Subjects

*NECTINS, *CELL adhesion molecules

Abstract

Gastric cancer (GC) is rich in many different histological types, but how the histological pattern is defined remains to be proved. The relation between GC histological types and the expression of nectin1, which is one of the cell adhesion molecules that composes adherens junction, has not been reported. According to a publicly available database of 406 GC patients, the median overall survival of Nectin1 high expression patients was 55.4 months and that of low expression patients was 25.6 months (P = 0.0246). Using surgically or endoscopically resected GC samples, nectin1 expression was analyzed by immunohistochemistry. Nectin1 expressed at adherens junction in all the normal epithelial cells. However, nectin1 expressed not at adherens junction but at apical membrane in epithelial cells in intestinal metaplasia. The expression pattern of nectin1 in intestinal type GC resembled to intestinal metaplasia. In order to analyze the difference in nectin1 expression between GC histological types, a total of 116 intestinal type GC and 33 diffuse type GC. The expression of necitin1 in diffuse type GC (3.0%) was remarkably decreased compared to that in intestinal type GC (65.5%) (P < 0.0001). In conclusion, this is the first report showing an association between nectin1 expression and histological subtypes of GC. [ABSTRACT FROM AUTHOR]

Published

2018

9. Identification of OAF and PVRL1 as candidate genes for an ocular anomaly characterized by Peters anomaly type 2 and ectopia lentis.

Author

David, Dezső, Anand, Deepti, Araújo, Carlos, Gloss, Brian, Fino, Joana, Dinger, Marcel, Lindahl, Päivi, Pöyhönen, Minna, Hannele, Laivuori, and Lavinha, João

Subjects

*DYSGENESIS, *EYE diseases, *MOLECULAR genetics, *POLIOVIRUS, *CORNEAL topography

Abstract

Keratolenticular dysgenesis (KLD) and ectopia lentis are congenital eye defects. The aim of this study is the identification of molecular genetic alterations responsible for those ocular anomalies with neurologic impairment in an individual with a de novo balanced chromosome translocation t(11;18)(q23.3;q11.2)dn. Disruption of OAF , the human orthologue of the Drosophila oaf , by the 11q23.3 breakpoint results in reduced expression of this transcriptional regulator. Furthermore, four most likely nonfunctional chimeric transcripts comprising up to OAF exon 3, derived from the der(11) allele, have also been identified. This locus has been implicated by publicly available genome-wide association data in corneal disease and corneal topography. The expression of the poliovirus receptor-related 1( PVRL1 ) or nectin cell adhesion molecule 1 ( NECTIN1 ), a paralogue of nectin cell adhesion molecule 3 ( PVRL3 ) associated with congenital ocular defects, situated 500 kb upstream from 11q23.3 breakpoint, is increased. The 18q11.2 breakpoint is localized between cutaneous T-cell lymphoma-associated antigen 1( CTAGE1 ) and retinoblastoma binding protein 8 ( RBBP8) genes. Genomic imbalance that could contribute to the observed phenotype was excluded. Analysis of gene expression datasets throughout normal murine ocular lens embryogenesis suggests that OAF expression is significantly enriched in the lens from early stages of development through adulthood, whereas PVRL1 is lens-enriched until E12.5 and then down-regulated. This contrasts with the observation that the proposita's lymphoblastoid cell lines exhibit low OAF and high PVRL1 expression as compared to control, which offers further support that the alterations described above are most likely responsible for the clinical phenotype. Finally, gene interaction topology data for PVRL1 also agree with our proposal that disruption of OAF by the translocation breakpoint and misregulation of PVRL1 due to a position effect contribute to the observed ocular and neurological phenotype. [ABSTRACT FROM AUTHOR]

Published

2018

10. NOTCH Signaling Controls Ciliary Body Morphogenesis and Secretion by Directly Regulating Nectin Protein Expression

Author

Pang, Ji, Le, Liang, Zhou, Yi, Tu, Renjun, Hou, Qiang, Tsuchiya, Dai, Thomas, Nancy, Wang, Yongfu, Yu, Zulin, Alexander, Richard, Thexton, Marina, Lewis, Brandy, Corbin, Timothy, Durnin, Michael, Li, Hua, Ashery-Padan, Ruth, Yan, Deyue, Xie, Ting, Pang, Ji, Le, Liang, Zhou, Yi, Tu, Renjun, Hou, Qiang, Tsuchiya, Dai, Thomas, Nancy, Wang, Yongfu, Yu, Zulin, Alexander, Richard, Thexton, Marina, Lewis, Brandy, Corbin, Timothy, Durnin, Michael, Li, Hua, Ashery-Padan, Ruth, Yan, Deyue, and Xie, Ting

Abstract

Anterior segment dysgenesis is often associated with cornea diseases, cataracts, and glaucoma. In the anterior segment, the ciliary body (CB) containing inner and outer ciliary epithelia (ICE and OCE) secretes aqueous humor that maintains intraocular pressure (IOP). However, CB development and function remain poorly understood. Here, this study shows that NOTCH signaling in the CB maintains the vitreous, IOP, and eye structures by regulating CB morphogenesis, aqueous humor secretion, and vitreous protein expression. Notch2 and Notch3 function via RBPJ in the CB to control ICE-OCE adhesion, CB morphogenesis, aqueous humor secretion, and protein expression, thus maintaining IOP and eye structures. Mechanistically, NOTCH signaling transcriptionally controls Nectin1 expression in the OCE to promote cell adhesion for driving CB morphogenesis and to directly stabilize Cx43 for controlling aqueous humor secretion. Finally, NOTCH signaling directly controls vitreous protein secretion in the ICE. Therefore, this study provides important insight into CB functions and involvement in eye diseases.

Published

2021

11. NOTCH Signaling Controls Ciliary Body Morphogenesis and Secretion by Directly Regulating Nectin Protein Expression

Author

Hua Li, Nancy Thomas, Michael Durnin, Brandy Lewis, Liang Le, Ji Pang, Deyue Yan, Ruth Ashery-Padan, Yongfu Wang, Dai Tsuchiya, Marina Thexton, Zulin Yu, Richard Alexander, Yi Zhou, Timothy J. Corbin, Ting Xie, Renjun Tu, and Qiang Hou

Subjects

0301 basic medicine, Male, Nectin1, genetic structures, Nectins, Notch signaling pathway, Morphogenesis, Mice, Inbred Strains, General Biochemistry, Genetics and Molecular Biology, Article, 03 medical and health sciences, Mice, 0302 clinical medicine, Ciliary body, Nectin, medicine, Animals, Humans, Secretion, Receptor, Notch2, Cell adhesion, Receptor, Notch3, lcsh:QH301-705.5, Chemistry, Ciliary body morphogenesis, RBPJ, ciliary body, eye diseases, Cell biology, Cx43, viteous, 030104 developmental biology, medicine.anatomical_structure, HEK293 Cells, lcsh:Biology (General), Female, sense organs, NOTCH signaling, aqueous humor, 030217 neurology & neurosurgery, Signal Transduction

Abstract

Summary: Anterior segment dysgenesis is often associated with cornea diseases, cataracts, and glaucoma. In the anterior segment, the ciliary body (CB) containing inner and outer ciliary epithelia (ICE and OCE) secretes aqueous humor that maintains intraocular pressure (IOP). However, CB development and function remain poorly understood. Here, this study shows that NOTCH signaling in the CB maintains the vitreous, IOP, and eye structures by regulating CB morphogenesis, aqueous humor secretion, and vitreous protein expression. Notch2 and Notch3 function via RBPJ in the CB to control ICE-OCE adhesion, CB morphogenesis, aqueous humor secretion, and protein expression, thus maintaining IOP and eye structures. Mechanistically, NOTCH signaling transcriptionally controls Nectin1 expression in the OCE to promote cell adhesion for driving CB morphogenesis and to directly stabilize Cx43 for controlling aqueous humor secretion. Finally, NOTCH signaling directly controls vitreous protein secretion in the ICE. Therefore, this study provides important insight into CB functions and involvement in eye diseases.

Published

2021

12. Identification of OAF and PVRL1 as candidate genes for an ocular anomaly characterized by Peters anomaly type 2 and ectopia lentis

Author

Deepti Anand, Brian S. Gloss, Joana Fino, Päivi Lindahl, Dezső David, Minna Pöyhönen, Carlos Araújo, João Lavinha, Marcel E. Dinger, Laivuori Hannele, Silmäklinikka, Clinicum, University of Helsinki, Minna Pöyhönen / Principal Investigator, Department of Medical and Clinical Genetics, Medicum, Institute for Molecular Medicine Finland, Pregnancy and Genes, HUS Gynecology and Obstetrics, HUS Head and Neck Center, and Genomics of Neurological and Neuropsychiatric Disorders

Subjects

0301 basic medicine, DISRUPTION, Candidate gene, Keratolenticular Dysgenesis, PATHOGENESIS, FAMILIAL TRANSLOCATION, Type 2 Peters Anomaly, Type 2 peters anomaly, Translocation, Genetic, Ectopia Lentis, Cornea, Mice, 0302 clinical medicine, Corneal Opacity, NECTIN1, Eye Abnormalities, MOLECULAR CHARACTERIZATION, Ectopia lentis, Membrane Glycoproteins, REARRANGEMENTS, ANTERIOR SEGMENT DYSGENESIS, Phenotype, Sensory Systems, OAF, Axial Length, Eye, DROSOPHILA, Position effect, Cytochrome P-450 CYP1B1, Balanced chromosome translocation, EXPRESSION, Nectins, Translocation Breakpoint, Biology, Cell adhesion molecule 3, 03 medical and health sciences, Cellular and Molecular Neuroscience, Gene interaction, Anterior Eye Segment, Lens, Crystalline, medicine, Animals, Humans, 3125 Otorhinolaryngology, ophthalmology, Topologically associated domains (TADS), MUTATIONS, Gene Expression Profiling, Breakpoint, medicine.disease, Molecular biology, Doenças Genéticas, Keratolenticular dysgenesis, CONGENITAL CORNEAL OPACIFICATION, Ophthalmology, 030104 developmental biology, Balanced Chromosome Translocation, PVRL1, 030221 ophthalmology & optometry, Topologically Associated Domains (TADs)

Abstract

Keratolenticular dysgenesis (KLD) and ectopia lentis are congenital eye defects. The aim of this study is the identification of molecular genetic alterations responsible for those ocular anomalies with neurologic impairment in an individual with a de novo balanced chromosome translocation t(11;18)(q23.3;q11.2)dn. Disruption of OAF, the human orthologue of the Drosophila oaf, by the 11q23.3 breakpoint results in reduced expression of this transcriptional regulator. Furthermore, four most likely nonfunctional chimeric transcripts comprising up to OAF exon 3, derived from the der(11) allele, have also been identified. This locus has been implicated by publicly available genome-wide association data in corneal disease and corneal topography. The expression of the poliovírus receptor-related 1(PVRL1) or nectin cell adhesion molecule 1 (NECTIN1), a paralogue of nectin cell adhesion molecule 3 (PVRL3) associated with congenital ocular defects, situated 500 kb upstream from 11q23.3 breakpoint, is increased. The 18q11.2 breakpoint is localized between cutaneous T-cell lymphoma-associated antigen 1(CTAGE1) and retinoblastoma binding protein 8 (RBBP8) genes. Genomic imbalance that could contribute to the observed phenotype was excluded. Analysis of gene expression datasets throughout normal murine ocular lens embryogenesis suggests that OAF expression is significantly enriched in the lens from early stages of development through adulthood, whereas PVRL1 is lens-enriched until E12.5 and then down-regulated. This contrasts with the observation that the proposita's lymphoblastoid cell lines exhibit low OAF and high PVRL1 expression as compared to control, which offers further support that the alterations described above are most likely responsible for the clinical phenotype. Finally, gene interaction topology data for PVRL1 also agree with our proposal that disruption of OAF by the translocation breakpoint and misregulation of PVRL1 due to a position effect contribute to the observed ocular and neurological phenotype. CA was supported by a Ricardo Jorge Research Fellowship from Instituto Nacional de Saúde Dr Ricardo Jorge I.P. (Ref. BRJ/01/DG/2009). This research is supported by Fundação para a Ciência e a Tecnologia Research Grants PTDC/SAU-GMG/118140/2010 and HMSP-ICT/0016/2013. info:eu-repo/semantics/publishedVersion

Published

2018

13. NOTCH Signaling Controls Ciliary Body Morphogenesis and Secretion by Directly Regulating Nectin Protein Expression.

Author

Pang J, Le L, Zhou Y, Tu R, Hou Q, Tsuchiya D, Thomas N, Wang Y, Yu Z, Alexander R, Thexton M, Lewis B, Corbin T, Durnin M, Li H, Ashery-Padan R, Yan D, and Xie T

Subjects

Animals, Female, HEK293 Cells, Humans, Male, Mice, Mice, Inbred Strains, Signal Transduction, Ciliary Body metabolism, Nectins metabolism, Receptor, Notch2 metabolism, Receptor, Notch3 metabolism

Abstract

Anterior segment dysgenesis is often associated with cornea diseases, cataracts, and glaucoma. In the anterior segment, the ciliary body (CB) containing inner and outer ciliary epithelia (ICE and OCE) secretes aqueous humor that maintains intraocular pressure (IOP). However, CB development and function remain poorly understood. Here, this study shows that NOTCH signaling in the CB maintains the vitreous, IOP, and eye structures by regulating CB morphogenesis, aqueous humor secretion, and vitreous protein expression. Notch2 and Notch3 function via RBPJ in the CB to control ICE-OCE adhesion, CB morphogenesis, aqueous humor secretion, and protein expression, thus maintaining IOP and eye structures. Mechanistically, NOTCH signaling transcriptionally controls Nectin1 expression in the OCE to promote cell adhesion for driving CB morphogenesis and to directly stabilize Cx43 for controlling aqueous humor secretion. Finally, NOTCH signaling directly controls vitreous protein secretion in the ICE. Therefore, this study provides important insight into CB functions and involvement in eye diseases., Competing Interests: Declaration of Interests The authors declare no competing interests., (Copyright © 2020 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2021