Noroviruses are global agents of acute gastroenteritis, but the development of control strategies has been hampered by the absence of a robust animal model. Studies in chimpanzees have played a key role in the characterization of several fastidious hepatitis viruses, and we investigated the feasibility of such studies for the noroviruses. Seronegative chimpanzees inoculated i.v. with the human norovirus strain Norwalk virus (NV) did not show clinical signs of gastroenteritis, but the onset and duration of virus shedding in stool and serum antibody responses were similar to that observed in humans. NV RNA was detected in intestinal and liver biopsies concurrent with the detection of viral shedding in stool, and NV antigen expression was observed in cells of the small intestinal lamina propria. Two infected chimpanzees rechallenged 4, 10, or 24 mo later with NV were resistant to reinfection, and the presence of NV-specific serum antibodies correlated with protection. We evaluated the immunogenicity and efficacy of virus-like particles (VLPs) derived from NV (genogroup I, GI) and MD145 (genogroup II, GII) noroviruses as vaccines. Chimpanzees vaccinated intramuscularly with GI VLPs were protected from NV infection when challenged 2 and 18 mo after vaccination, whereas chimpanzees that received GII VLPs vaccine or a placebo were not. This study establishes the chimpanzee as a viable animal model for the study of norovirus replication and immunity, and shows that NV VLP vaccines could induce protective homologous immunity even after extended periods of time.
The MD145-12 strain (GII/4) is a member of the genus Norovirus in the Caliciviridae and was detected in a patient with acute gastroenteritis in a Maryland nursing home. The open reading frame 1 (ORF1) (encoding the nonstructural polyprotein) was cloned as a consensus sequence into various expression vectors, and a proteolytic cleavage map was determined. ORF1 polyprotein in an in vitro coupled transcription and translation assay allowed the identification of stable precursors and final mapped cleavage products. Stable precursors included p20VPg (analogous to the 3AB of the picornaviruses) and ProPol (analogous to the 3CD of the picornaviruses). Less stable processing intermediates were identified as p20VPgProPol, p20VPgPro, and VPgPro. The MD145-12 Pro and ProPol proteins were expressed in bacteria as active forms of the proteinase and used to further characterize their substrate specificities in trans cleavage assays. The MD145-12 Pro was able to cleave its five mapped cleavage sites in trans and, in addition, could mediate trans cleavage of the Norwalk virus (GI/I) ORF1 polyprotein into a similar proteolytic processing profile. Taken together, our data establish a model for proteolytic processing in the noroviruses that is consistent with nonstructural precursors and products identified in studies of caliciviruses that replicate in cell culture systems.
Norwalk virus is the prototype strain for members of the genus Norovirus in the family
A membranous fraction that could synthesize viral RNA in vitro in the presence of magnesium salt, ribonucleotides, and an ATP-regenerating system was isolated from feline calicivirus (FCV)-infected cells. The enzymatically active component of this fraction was designated FCV replication complexes (RCs), by analogy to other positive-strand RNA viruses. The newly synthesized RNA was characterized by Northern blot analysis, which demonstrated the production of both full-length (8.0-kb) and subgenomic-length (2.5-kb) RNA molecules similar to those synthesized in FCV-infected cells. The identity of the viral proteins associated with the fraction was investigated. The 60-kDa VP1 major capsid protein was the most abundant viral protein detected. VP2, a minor structural protein encoded by open reading frame 3 (ORF3), was also present. Nonstructural proteins associated with the fraction included the precursor polypeptides Pro-Pol (76 kDa) and p30-VPg (43 kDa), as well as the mature nonstructural proteins p32 (derived from the N-terminal region of the ORF1 polyprotein), p30 (the putative "3A-like" protein), and p39 (the putative nucleoside triphosphatase). The isolation of enzymatically active RCs containing both viral and cellular proteins should facilitate efforts to dissect the contributions of the virus and the host to FCV RNA replication.Feline calicivirus (FCV), a member of the genus Vesivirus in the family Caliciviridae, is a major agent of respiratory disease in cats. The FCV genome is an approximately 7.7-kb singlestrand positive-sense RNA molecule that is covalently linked to a protein designated VPg (for virus protein, genome) at the 5Ј end and polyadenylated at the 3Ј end (8, 18). The genome is organized into three open reading frames (ORFs). ORF1 encodes an approximately 200-kDa polyprotein that is processed by the virus-encoded 3C-like cysteine proteinase into the mature nonstructural proteins p5.6, p32, p39 (nucleoside triphosphatase [NTPase]), p30, VPg, and Pro-Pol (36a, 38). ORF2 encodes a 73-kDa capsid precursor (preVP1) that is cleaved in trans by the same virus-encoded proteinase to yield the 14-kDa capsid leader (LC) and the approximately 60-kDa mature major capsid protein VP1 (9, 31, 37). ORF3 encodes a 12-kDa basic protein of unknown function, designated VP2, that is associated with mature virions (17, 36).RNA purified from virus particles and capped RNA transcripts derived from a full-length cDNA clone are infectious when transfected into feline kidney cells (21, 35). Two major polyadenylated positive-sense RNA molecules have been detected in FCV-infected cells (7,18,30). The 7.7-to 8-kb genomic RNA serves as a message for translation of the viral nonstructural proteins, and the ϳ2.6-kb subgenomic RNA serves as a bicistronic template for translation of structural proteins VP1 and VP2 (18,31). Several additional species of positive-and negative-sense RNA have been detected in FCVinfected cells, but their significance is not known (7,30).All of the positive-strand RNA viruses examined thus far form r...
The genome of feline calicivirus (FCV) is an ϳ7.7-kb single-stranded positive-sense RNA molecule that is polyadenylated at its 3 end and covalently linked to a VPg protein (calculated mass, 12.6 kDa) at its 5 end. We performed a mutational analysis of the VPg protein in order to identify amino acids potentially involved in linkage to the genome and replication. The tyrosine residues at positions 12, 24, 76, and 104 were changed to alanines by mutagenesis of an infectious FCV cDNA clone. Viruses were recovered when Tyr-12, Tyr-76, or Tyr-104 of the VPg protein was changed to alanine, but virus was not recovered when Tyr-24 was changed to alanine. Growth properties of the recovered viruses were similar to those of the parental virus. We examined whether the amino acids serine, threonine, and phenylalanine could substitute for the tyrosine at position 24, but these mutations were lethal as well. A tyrosine at this relative position is conserved among all calicivirus VPg proteins examined thus far, suggesting that the VPg protein of caliciviruses, like those of picornaviruses and potyviruses, utilizes tyrosine in the formation of a covalent bond with RNA.
BACKGROUND The true incidence of transfusion-associated hepatitis (TAH) before blood screening is unknown. Our aims were to reevaluate blood recipients receiving unscreened blood and analyze hepatitis viruses circulating more than 45 years ago. STUDY DESIGN AND METHODS Cryopreserved serum samples from 66 patients undergoing open heart surgery in the 1960s were reevaluated with modern diagnostic tests to determine the incidence of TAH and its virologic causes. RESULTS In this heavily transfused population receiving a mean of 20 units per patient of predominantly paid-donor blood, 30 of 66 (45%) developed biochemical evidence of hepatitis; of these, 20 (67%) were infected with hepatitis C virus (HCV) alone, four (13%) with hepatitis B virus (HBV) alone, and six (20%) with both viruses. Among the 36 patients who did not develop hepatitis, four (11%) were newly infected with HCV alone, nine (25%) with HBV alone, and one (3%) with both viruses. Overall, 100% of patients with hepatitis and 39% of those without hepatitis were infected with HBV and/or HCV; one patient was also infected with hepatitis E virus. The donor carrier rate for HBV and/or HCV was estimated to be more than 6%; contemporaneously prepared pooled normal human plasma was also contaminated with multiple hepatitis viruses. CONCLUSION TAH virus infections were a larger problem than perceived 50 years ago and HCV was the predominant agent transmitted. All hepatitis cases could be attributed to HCV and/or HBV and hence there was no evidence to suggest that an additional hepatitis agent existed undetected in the blood supply.
In order to assess the relationships among strains of the genera Actinobacillus and Haemophilus, DNAs from 50 strains of these genera were isolated and purified. The guanine plus cytosine (G + C) content of DNAs from strains of Haemophilus segnis and Haemophilus parainfluenzae were determined by thermal denaturation. DNA-DNA homologies were measured using labelled probes from one strain representing Haemophilus segnis (strain ATCC 10977), and two strains representing Haemophilus parainfluenzae (strains ATCC 9796 and ATCC 7901). Strains isolated as H. segnis had a G + C content of 39.0 to 42.9% and were 49-92% homologous with the ATCC 10977 DNA probe. All of the strains freshly isolated as H. parainfluenzae were 70-81% homologous with the ATCC 9796 DNA probe and had a G + C content of 34.9 to 38.3%. Strain ATCC 7901 was 11% homologous with the ATCC 9796 DNA probe, had a G + C content of 42.4%, and was 65-78% homologous to DNA from strains identified as Haemophilus aphrophilus and Haemophilus paraphrophilus. From these results we conclude that strain ATCC 7901 is a mislabelled strain of H. paraphrophilus. The results of multiple DNA-DNA hybridizations indicated that separate species designations were appropriate for H. segnis, H. parainfluenzae, Actinobacillus actinomycetemcomitans ("Haemophilus actinomycetemcomitans"), and H. aphrophilus. H. aphrophilus and H. paraphrophilus were closely related organisms and did not fulfill the generally accepted criteria for designation as separate species.
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