The Coxsackie-Adenovirus Receptor (CAR) Is Used by Reference Strains and Clinical Isolates Representing All Six Serotypes of Coxsackievirus Group B and by Swine Vesicular Disease Virus

Martino, Tami A.; Petric, Martin; Weingartl, Hana M.; Bergelson, Jeffrey M.; Opavsky, Mary Anne; Richardson, Christopher D.; Modlin, John F.; Finberg, Robert W.; Kain, Kevin C.; Willis, N. G.; Gauntt, Charles J.; Liu, Peter P.

doi:10.1006/viro.2000.0324

Cited by 125 publications

(113 citation statements)

References 29 publications

(51 reference statements)

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“…Therefore, as proposed for other viruses, the binding of SVDV to cellular GAGs probably mediates an early step of the virus-cell interaction, facilitating the subsequent recognition of other receptors such as CAR (Martino et al, 2000). However, it cannot be ruled out that HS is being used as an alternative receptor.…”

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

“…It has been recently shown that, as in the case of coxsackievirus B1-6, the coxsackievirusadenovirus receptor (CAR) is a functional receptor for SVDV (Martino et al, 2000). Also, the decay-accelerating factor (DAF), used as co-receptor for coxsackievirus A21, B1, B3, B5, echovirus 6, 7, 11, and enterovirus 70 appears to have a role in SVDV entry into cells (Martino et al, 2000). However, it has been shown that HS can be used as an alternative receptor for some picornaviruses, such as FMDV (Baranowski et al, 2000) and CVB3 (PD strain) (Zautner et al, 2003), in some conditions or when the 'classic' receptor is absent, a fact that supports the flexibility in picornavirus receptor usage.…”

Section: Introductionmentioning

confidence: 99%

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Heparan sulphate mediates swine vesicular disease virus attachment to the host cell

Escribano-Romero

Jiménez‐Clavero

Gomes

et al. 2004

Journal of General Virology

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Heparan sulphate mediates swine vesicular disease virus attachment to the host cell

Escribano-Romero

Jiménez‐Clavero

Gomes

et al. 2004

Journal of General Virology

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“…It is possible that even in the presence of the antibody, other non-insulin-producing islet cells are infected with CBV-5 in a less cytolytic way. For coxsackie B viruses, two different receptors, HCAR and DAF, have been identified in established cell lines, and especially serotypes 1, 3, 5 are known to use either or both as receptors [24,25,27,52,65]. An important role of HCAR in the development of coxsackievirus diseases has been suggested in recent studies on clinical virus strains characterised after only one passage through primary green monkey kidney cells [27,65].…”

Section: Discussionmentioning

confidence: 99%

Enterovirus infection in human pancreatic islet cells, islet tropism in vivo and receptor involvement in cultured islet beta cells

Ylipaasto

Klingel

Lindberg³

et al. 2004

Diabetologia

265

248

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Aims/hypothesis. It is thought that enterovirus infections cause beta-cell damage and contribute to the development of Type 1 diabetes by replicating in the pancreatic islets. We sought evidence for this through autopsy studies and by investigating known enterovirus receptors in cultured human islets. Methods. Autopsy pancreases from 12 newborn infants who died of fulminant coxsackievirus infections and from 65 Type 1 diabetic patients were studied for presence of enteroviral ribonucleic acid by in situ hybridisation. Forty non-diabetic control pancreases were included in the study. The expression and role of receptor candidates in cultured human islets were investigated with receptor-specific antibodies using immunocytochemistry and functional assays. Results. Enterovirus-positive islet cells were found in some of both autopsy specimen collections, but not in control pancreases. No infected cells were seen in exocrine tissue. The cell surface molecules, poliovirus receptor and integrin αvβ 3 , which act as enterovirus receptors in established cell lines, were expressed in beta cells. Antibodies to poliovirus receptor, human coxsackievirus and adenovirus receptor and integrin αvβ 3 protected islets and beta cells from adverse effects of poliovirus, coxsackie B viruses, and several of the arginine-glycine-aspartic acid motifs containing enteroviruses and human parechovirus 1 respectively. No evidence was found for expression of the decay-accelerating factor which acts as a receptor for several isletcell-replicating echoviruses in established cell lines. Conclusions/interpretation. The results show a definite islet-cell tropism of enteroviruses in the human pancreas. Some enteroviruses seem to use previously identified cell surface molecules as receptors in beta cells, whereas the identity of receptors used by other enteroviruses remains unknown. [Diabetologia (2004) 47:225-239]

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“…This disruption resulted in a decrease in the TER of the monolayers from 4,767 Ϯ 398 ⍀⅐cm 2 to 190 Ϯ 29 ⍀⅐cm 2 . EDTA was replaced with medium alone, medium containing 5 g of the hCAR extracellular domain produced as an Ig-Fc fusion protein (soluble CAR) (17), or medium containing 5 g of the avian sarcoma virus Cell Adhesion Assay. Cells were trypsinized into a single cell suspension at a concentration of 1 ϫ 10 6 cells per ml and mixed gently at room temperature for 5 h. The number of aggregated cells (Ͼ2 cells contacting each other) was determined by using a hemacytometer.…”

Section: Methodsmentioning

confidence: 99%

The coxsackievirus and adenovirus receptor is a transmembrane component of the tight junction

Cohen

Shieh

Pickles

et al. 2001

Proc. Natl. Acad. Sci. U.S.A.

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610

537

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The coxsackievirus and adenovirus receptor (CAR) mediates viral attachment and infection, but its physiologic functions have not been described. In nonpolarized cells, CAR localized to homotypic intercellular contacts, mediated homotypic cell aggregation, and recruited the tight junction protein ZO-1 to sites of cell-cell contact. In polarized epithelial cells, CAR and ZO-1 colocalized to tight junctions and could be coprecipitated from cell lysates. CAR expression led to reduced passage of macromolecules and ions across cell monolayers, and soluble CAR inhibited the formation of functional tight junctions. Virus entry into polarized epithelium required disruption of tight junctions. These results indicate that CAR is a component of the tight junction and of the functional barrier to paracellular solute movement. Sequestration of CAR in tight junctions may limit virus infection across epithelial surfaces.G roup B coxsackieviruses and a number of adenovirus serotypes initiate infection by binding to the coxsackievirus and adenovirus receptor (CAR) (1-3). CAR is a 46-kDa integral membrane protein with a typical transmembrane region, a long cytoplasmic domain, and an extracellular region composed of two Ig-like domains (1, 2). Both adenovirus (4) and coxsackievirus (5) interact with the N-terminal domain. Homologs of human CAR have been characterized in mice (2, 6), rats, pigs, dogs (7), and zebrafish (8). The murine and human proteins are very similar (91% amino acid identity within the extracellular domain, 77% within the transmembrane domain, and 95% identity within the cytoplasmic domain). Variant isoforms of CAR, which differ only at the C terminus and which most likely result from alternative splicing, have been identified in mice (6), humans, and rats (7). Despite evidence of its evolutionary conservation in mammals and nonmammalian vertebrates, the function of CAR is not known.Tight junctions are continuous circumferential intercellular contacts at the apical poles of lateral cell membranes, appearing in electron micrographs as a series of discrete contacts between the plasma membranes of adjacent cells (9). Tight junctions form a barrier that regulates the paracellular transit of water, solutes, and immune cells across an epithelium (10), and are essential for establishing cell polarity by separating the apical and basolateral domains of polarized epithelial cells (11). ZO-1, the first tight junction protein identified (12, 13), is an intracellular peripheral membrane scaffolding protein important for tight junction structure and assembly. In the present study, we found that in polarized epithelial cells CAR is expressed at the tight junction, where it associates with ZO-1 and functions in the barrier to the movement of macromolecules and ions. Materials and MethodsCell Culture. T-84, CALU-3, and 16HBE14o-cells were grown in 10% CO 2 in a 1:1 mixture of DMEM and Ham's F-12 medium with 10% FCS. To establish polarized monolayers, 5 ϫ 10 5 cells per well were plated on 12-mm diameter polyester filters with a ...

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The Coxsackie-Adenovirus Receptor (CAR) Is Used by Reference Strains and Clinical Isolates Representing All Six Serotypes of Coxsackievirus Group B and by Swine Vesicular Disease Virus

Cited by 125 publications

References 29 publications

Heparan sulphate mediates swine vesicular disease virus attachment to the host cell

Heparan sulphate mediates swine vesicular disease virus attachment to the host cell

Enterovirus infection in human pancreatic islet cells, islet tropism in vivo and receptor involvement in cultured islet beta cells

The coxsackievirus and adenovirus receptor is a transmembrane component of the tight junction

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