Tropism of Coxsackie virus A9 depends on the +1 position of the RGD (arginine- glycine- aspartic acid) motif found at the C' terminus of its VP1 capsid protein.

An understanding of how viruses interact with their receptors is vital as this step is a major determinant of host susceptibility and disease. The enterovirus coxsackievirus A9 (CVA9) is an important pathogen responsible for respiratory infections, myocarditis, infections of the central nervous system, chronic dilated cardiomyopathy and possibly type I diabetes. CVA9 harbours an integrin- recognition motif, RGD (Arg-Gly-Asp), in the capsid protein VP1 and this motif is believed to be primarily responsible for binding to integrins αvβ6 and/or αvβ3 during cell entry.

ICTV Virus Taxonomy Profile: Picornaviridae.

The family Picornaviridae comprises small non-enveloped viruses with RNA genomes of 6.7 to 10.1 kb, and contains >30 genera and >75 species.

Enzymatic pre-treatment of microalgae cells for enhanced extraction of proteins.

Crude proteins and pigments were extracted from different microalgae strains, both marine and freshwater. The effectiveness of enzymatic pre-treatment prior to protein extraction was evaluated and compared to conventional techniques, including ultrasonication and high-pressure water extraction. Enzymatic pre-treatment was chosen as it could be carried out at mild shear conditions and does not subject the proteins to high temperatures, as with the ultrasonication approach.

Virus antibody survey in different European populations indicates risk association between coxsackievirus B1 and type 1 diabetes.

Enteroviruses (EVs) have been connected to type 1 diabetes in various studies. The current study evaluates the association between specific EV subtypes and type 1 diabetes by measuring type-specific antibodies against the group B coxsackieviruses (CVBs), which have been linked to diabetes in previous surveys. Altogether, 249 children with newly diagnosed type 1 diabetes and 249 control children matched according to sampling time, sex, age, and country were recruited in Finland, Sweden, England, France, and Greece between 2001 and 2005 (mean age 9 years; 55% male).

Symmetry-related clustering of positive charges is a common mechanism for heparan sulfate binding in enteroviruses.

Coxsackievirus A9 (CAV9), a member of the Picornaviridae family, uses an RGD motif in the VP1 capsid protein to bind to integrin αvβ6 during cell entry. Here we report that two CAV9 isolates can bind to the heparan sulfate/heparin class of proteoglycans (HSPG). Sequence analysis identified an arginine (R) at position 132 in VP1 in these two isolates, rather than a threonine (T) as seen in the nonbinding strains tested.

Comprehensive full-length sequence analyses of human parechoviruses: diversity and recombination.

Human parechoviruses (HPeVs) are highly prevalent pathogens among very young children. Although originally classified into two serologically distinct types, HPeV1 and -2, recent analyses of variants collected worldwide have revealed the existence of 12 further types classified genetically by sequence comparisons of complete genome sequences or the capsid (VP1) gene. To investigate the nature of HPeV evolution, its population dynamics and recombination breakpoints, this study generated 18 full-length genomic sequences of the most commonly circulating genotypes, HPeV1 and -3, collected over a time span of 14 years from The Netherlands.

Evolution and conservation in human parechovirus genomes.

Human parechoviruses (HPeVs) are frequent pathogens with a seroprevalence of over 90% in adults. Recent studies on these viruses have increased the number of HPeV types to eight. Here we analyse the complete genome of one clinical isolate, PicoBank/HPeV1/a, and VP1 and 3D protein sequences of PicoBank/HPeV6/a, isolated from the same individual 13 months later.

Integrin alphaVbeta6 is a high-affinity receptor for coxsackievirus A9.

Coxsackievirus A9 (CAV9), a member of the genus Enterovirus in the family Picornaviridae, possesses an integrin-binding arginine-glycine-aspartic acid (RGD) motif in the C terminus of VP1 capsid protein. CAV9 has been shown to utilize integrins alphaVbeta3 and alphaVbeta6 as primary receptors for cell attachment. While CAV9 RGD-mutants (RGE and RGDdel) are capable of infecting rhabdomyosarcoma (RD) cell line, they grow very poorly in an epithelial lung carcinoma cell line (A549).

Widespread recombination within human parechoviruses: analysis of temporal dynamics and constraints.

Human parechoviruses (HPeVs), members of the family Picornaviridae, are classified into six types. To investigate the dynamics and likelihood of recombination among HPeVs, we compared phylogenies of two distant regions (VP1 and 3Dpol) of 37 HPeV isolates (types 1 and 3-5) and prototype sequences (types 1-6). Evidence for frequent recombination between HPeV1, 4, 5 and 6 was found.

Picornavirales, a proposed order of positive-sense single-stranded RNA viruses with a pseudo-T = 3 virion architecture.

Despite the apparent natural grouping of "picorna-like" viruses, the taxonomical significance of this putative "supergroup" was never addressed adequately. We recently proposed to the ICTV that an order should be created and named Picornavirales, to include viruses infecting eukaryotes that share similar properties: (i) a positive-sense RNA genome, usually with a 5'-bound VPg and 3'-polyadenylated, (ii) genome translation into autoproteolytically processed polyprotein(s), (iii) capsid proteins organized in a module containing three related jelly-roll domains which form small icosahedral, non-enveloped particles with a pseudo-T = 3 symmetry, and (iv) a three-domain module containing a superfamily III helicase, a (cysteine) proteinase with a chymotrypsin-like fold and an RNA-dependent RNA polymerase. According to the above criteria, the order Picornavirales includes the families Picornaviridae, Comoviridae, Dicistroviridae, Marnaviridae, Sequiviridae and the unassigned genera Cheravirus, Iflavirus and Sadwavirus.

Analysis of a new human parechovirus allows the definition of parechovirus types and the identification of RNA structural domains.

Human parechoviruses (HPeV), members of the Parechovirus genus of Picornaviridae, are frequent pathogens but have been comparatively poorly studied, and little is known of their diversity, evolution, and molecular biology. To increase the amount of information available, we have analyzed 7 HPeV strains isolated in California between 1973 and 1992. We found that, on the basis of VP1 sequences, these fall into two genetic groups, one of which has not been previously observed, bringing the number of known groups to five.

Molecular analysis of an echovirus 3 strain isolated from an individual concurrently with appearance of islet cell and IA-2 autoantibodies.

Growing evidence has implicated members of the genus Enterovirus of the family Picornaviridae in the etiology of some cases of type 1 diabetes (T1D). To contribute to an understanding of the molecular determinants underlying this association, we determined the complete nucleotide sequence of a strain of echovirus 3 (E3), Human enterovirus B (HEV-B) species, isolated from an individual who soon after virus isolation developed autoantibodies characteristic of T1D. The individual has remained positive for over 6 years for tyrosine phosphatase-related IA-2 protein autoantibodies and islet cell autoantibodies, indicating an ongoing autoimmune process, although he has not yet developed clinical T1D.

Tissue tropism of recombinant coxsackieviruses in an adult mouse model.

Recombinant viruses, constructed by exchanging the 5' non-coding region (5'NCR), structural and non-structural protein coding sequences were used to investigate determinants responsible for differences between coxsackievirus A9 (CAV9) and coxsackievirus B3 (CBV3) infections in adult mice and two cell lines. Plaque assay titration of recombinant and parental viruses from different tissues from adult BALB/c mice demonstrated that the structural region of CBV3 determined tropism to the liver tissue due to receptor recognition, and the 5'NCR of CBV3 enhanced viral multiplication in the mouse pancreas. Infection with a chimeric virus, containing the structural region from CBV3 and the rest of the genome from CAV9, and the parental CBV3 strain, caused high levels of viraemia in adult mice.

Integrin alpha v beta 6 is an RGD-dependent receptor for coxsackievirus A9.

Coxsackievirus A9 (CAV9), a member of the Enterovirus genus of Picornaviridae, is a common human pathogen and is one of a significant number of viruses containing a functional arginine-glycine-aspartic acid (RGD) motif in one of their capsid proteins. Previous studies identified the RGD-recognizing integrin alpha(v)beta(3) as its cellular receptor. However, integrin alpha(v)beta(6) has been shown to be an efficient receptor for another RGD-containing picornavirus, foot-and-mouth disease virus (FMDV).

Pathogenesis of coxsackievirus A9 in mice: role of the viral arginine-glycine-aspartic acid motif.

Coxsackievirus A9 (CAV9) contains an arginine-glycine-aspartic acid (RGD) motif which participates in cell entry. Mutants with alterations in the RGD-containing region were utilized to explore the importance of the tripeptide in the pathogenesis of CAV9 in mice. Using in situ hybridization, the parental CAV9 strain was observed to infect skeletal muscle (intercostal, platysma, lingual and thigh muscles) of newborn mice, whereas the RGD-less mutants were detectable only in platysma and lingual muscles.

Molecular sub-grouping of enterovirus reference and wild type strains into distinct genetic clusters using a simple RFLP assay.

RFLP analysis and sequencing of RT-PCR amplicons in previous studies revealed the existence of intra-serotypic variability in the 5'-UTR of human enteroviruses, complicating the use of this method to serotype isolates. During the present study, the available sequences of many enterovirus reference and wild type strains were analysed in an attempt to discover restriction sites that would rapidly and reliably aid the classification of human enteroviruses into specific sub-groups on the basis of their 5'-UTR for diagnostic and/or epidemiological purposes. Despite intratypic genetic variability in the 5'-UTR, the results of the sequence analysis, as well as data from the RFLP analysis of 61 enterovirus reference strains from 60 different serotypes and 123 clinical isolates showed that one restriction endonuclease, HpaII, may contribute to a reliable sub-classification of CAVs and the rest of enteroviruses, on the basis of 5'-UTR, into five genetic groups, which could be particularly useful in clinical and epidemiological studies.

Molecular classification of coxsackie A viruses on the basis of the 5'-UTR: structural and evolutionary aspects.

The sequences from a large part of the 5'-UTR of 21 coxsackie A virus (CAV) reference strains for which such data did not exist in the past were obtained. Those sequences, along with the respective available sequences from the rest of the CAV reference strains and many other enteroviruses, were compared. According to the results of this comparison, enteroviruses are classified into two genetic clusters on the basis of 5'-UTR, and CAVs are divided into these two clusters.

Terminal RNA replication elements in human parechovirus 1.

To define structural elements critical for RNA replication in human parechovirus 1 (HPeV1), a replicon with chloramphenicol acetyltransferase as a reporter gene and an infectious virus cDNA clone have been used. It was observed that there are cis-acting signals required for HPeV1 replication located within the 5'-terminal 112 nucleotides of the genome and that these include two terminal stem-loops, SL-A and SL-B, together with a pseudoknot element. Significant disruption of any of these structures impaired both RNA replication and virus growth.

A reliable RT-PCR/RFLP assay for the molecular classification of enterovirus reference and wild type strains to either of the two genetic clusters on the basis of 5'-UTR.

The available sequence data from a large segment of the 5'-UTR of all enterovirus reference and wild type strains were analysed in an attempt to discover possible restriction sites for reliable, serotypic identification of wild type isolates. No combination of restriction endonucleases, though, was found to produce serotype-, or group-specific haplotypes. Thirteen restriction enzymes were predicted to differentiate between representatives of the two enterovirus genetic clusters on the basis of 5'-UTR.

Production and characterisation of Met80X mutants of yeast iso-1-cytochrome c: spectral, photochemical and binding studies on the ferrous derivatives.

The iron ligand, Met80, of yeast iso-1-cytochrome c has been mutated to residues that are unable to bind to the iron. The resultant proteins, Met80Ala, Ser, Asp, Glu, have been expressed and purified. All mutant proteins exhibit well defined pH dependent spectral transitions that report the binding, at high pH, of an intrinsic ligand (probably the nitrogen of an epsilon-NH(2) of a lysine) that drives the heme low-spin.

Mapping of tissue tropism determinants in coxsackievirus genomes.

Genomic regions responsible for the different tissue tropisms of coxsackievirus A9 (CAV9) and coxsackievirus B3 (CBV3) in newborn mice were investigated using recombinant viruses. Infectious cDNA clones of CAV9, a virus known to infect striated muscle, and CBV3, affecting the central nervous system, pancreas, liver, brown fat and striated muscle, were used to generate chimeric viruses. In situ hybridization analysis of different tissues from mice infected with the recombinant viruses, constructed by exchanging the 5' non-coding region (5'NCR), structural and non-structural genes, demonstrated that the pancreo- and liver tropism map predominantly to CBV3 sequences within the capsid genes, evidently due to receptor recognition.

Variability in molecular typing of Coxsackie A viruses by RFLP analysis and sequencing.

The aim of the present study was to develop an assay capable of classifying the Coxsackie A virus (CAV) prototype strains on the basis of restriction fragment length polymorphism (RFLP) analysis of 5'-UTR-derived reverse transcription polymerase chain reaction (RT-PCR) amplicons, and to determine how these data could be used for typing wild-type CAV isolates. Moreover, sequencing of the amplified genomic fragments of the clinical isolates, and comparison with all the published sequences of the respective genomic region of enterovirus reference and wild-type strains were attempted for typing of the isolates. Twenty-four prototype CAV strains from the 23 currently recognized serotypes were studied; most of them were successfully differentiated with the aid of four restriction endonucleases: HaeIII, HpaII, DdeI, and StyI.

A preliminary investigation comparing pre-operative morphine and buprenorphine for postoperative analgesia and sedation in cats.

Objective: To compare the postoperative analgesic and sedative properties of buprenorphine and morphine in cats.

Study Design: Prospective, randomized, blinded study.

Animals: Thirty-two domestic cats undergoing surgery.

Arginine-glycine-aspartic acid motif is critical for human parechovirus 1 entry.

The human parechovirus 1 RGD motif in VP1 was studied by mutagenesis. An RGD-to-RGE change gave only revertant viruses with a restored RGD, while deletion of GD was lethal and nonrevertable. Mutations at the +1 and +2 positions had some effect on growth properties and a +1 M-to-P change was lethal.