Yohko K. Shimizu

Vitamin A deprivation results in reversible loss of hippocampal long-term synaptic plasticity

Despite its long history, the central effects of progressive depletion of vitamin A in adult mice has not been previously described. An examination of vitamin-deprived animals revealed a progressive and ultimately profound impairment of hippocampal CA1 long-term potentiation and a virtual abolishment of long-term depression. Importantly, these losses are fully reversible by dietary vitamin A replenishment in vivo or direct application of all trans-retinoic acid to acute hippocampal slices. We find retinoid responsive transgenes to be highly active in the hippocampus, and by using dissected explants, we show the hippocampus to be a site of robust synthesis of bioactive retinoids. In aggregate, these results demonstrate that vitamin A and its active derivatives function as essential competence factors for long-term synaptic plasticity within the adult brain, and suggest that key genes required for long-term potentiation and long-term depression are retinoid dependent. These data suggest a major mental consequence for the hundreds of millions of adults and children who are vitamin A deficient.

Persistent infection of hepatitis E virus transmitted by blood transfusion in a patient with T-cell lymphoma.

Aim:  With advent of reverse‐transcription (RT)/polymerase chain reaction (PCR) for detection of the hepatitis E viral genome, we carried out retrospective examinations.

Human monoclonal antibodies that react with the E2 glycoprotein of hepatitis C virus and possess neutralizing activity

Active and/or passive immunoprophylaxis against hepatitis C virus (HCV) remain unachieved goals. Monoclonal antibodies might provide one approach to protection. We derived human monoclonal antibodies from the bone marrow of a patient with a well‐controlled HCV infection of 22 years duration. Five distinct antibodies reactive with the E2 glycoprotein of the homologous 1a strain of HCV were recovered as antigen‐binding fragments (FAbs). They demonstrated affinity constants as high as 2 nanomolar. “Neutralization of binding” titers paralleled the affinity constants. All five FAbs reacted with soluble E2 protein only in nonreducing gels, indicating that the relevant epitopes were conformational. The FAbs could be divided into two groups, based on competition analysis. Three of the FAbs neutralized the infectivity of pseudotyped virus particles (pp) bearing the envelope glycoproteins of the homologous HCV strain (genotype 1a). The three FAbs also neutralized genotype 1b pp and one also neutralized genotype 2a pp. In conclusion, one or more of these monoclonal antibodies may be useful in preventing infections by HCV belonging to genotype 1 or 2, the most medically important genotypes worldwide. (HEPATOLOGY 2005;42:1055–1062.)

INFECTION OF A CHIMPANZEE WITH HEPATITIS C VIRUS GROWN IN CELL CULTURE

Culture supernatant harvested from Daudi cells, a lymphoplastoid cell line, after 58 days of infection with the H77 strain of hepatitis C virus (HCV), was inoculated into a chimpanzee. HCV RNA, as detected by RT-PCR, first appeared in the serum and liver 5 and 6 weeks, respectively, after inoculation. Peripheral blood mononuclear cells (PBMC) collected on week 7 were also positive for HCV RNA. The major sequences of hypervariable region 1 (HVR1) of the viral genome recovered from the inoculated chimpanzee were the ones which were the majority in the original H77 inoculum and not those which were in the majority in the culture supernatant. Only the sequence recovered from PBMC was the same as the major one found in the cell culture.

Selective transmission of hepatitis C virus in vivo and in vitro

SummaryA human plasma containing quasi-species of hepatitis C virus (HCV) was inoculated to a chimpanzee and to human lymphocytic cell lines, HPB-Ma clone 10-2, AD HPB, and Daudi, which support replication of HCV. Among six different hypervariable region (HVR) sequences detected in the inoculum, the same two were recovered both in vivo and in vitro.

Genotyping of Hepatitis E Virus from Vietnam

To identify the genotype of Vietnamese isolates of human hepatitis E virus (HEV), phylogenetic analysis was performed for the open reading frame (ORF) 1 and ORF2 nucleotide sequences of the viral genome. HEV was detected by RT-PCR in 9 out of 141 sera collected from patients with a diagnosis of acute sporadic hepatitis in Hanoi, Vietnam. All of them had sequences related most closely to genotype 4. In addition, the Vietnamese isolate had a single nucleotide insertion in the ORF 3 region, a characteristic reported for genotype 4 with the possible change of initiation of ORF 3 and ORF 2.

Replication of hepatitis C virus

SUMMARY. The mode of replication of the hepatitis C virus (HCV) remains poorly understood. Attempts to produce a tissue culture model containing replicating HCV have been largely unsuccessful. Recent studies on sera from patients chronically infected with HCV have shown that viral particles may be found in high‐or low‐density fractions. High‐density fractions contain non‐infectious virions whilst infectious particles can be derived from low‐density material. Using appropriate infectious fractions we have successfully infected a number of human cell lines allowing studies of HCV replication to be initiated.

Isolation and purification of a non-A, non-B hepatitis-associated microtubular aggregates protein

Blood-borne type non-A, non-B (NANB) hepatitis-associated microtubular aggregates protein was isolated and partially sequenced. The microtubular aggregates were isolated from the hepatocytes of NANB-infected chimpanzees and were found to have a buoyant density in sucrose solution of 1.21 to 1.23 g/ml. A single protein, recognized by our anti-microtubular aggregates monoclonal antibodies, was found to have an Mr of 44,000 (p44). This p44 protein was not found in uninfected chimpanzees. We determined a partial amino acid sequence for p44, and showed that it has no homology to any known proteins.

cloning, sequencing and expression in Escherichia coli of cDNA for a non-A, non-B hepatitis-associated microtubular aggregates protein

A 1.7 kb cDNA encoding a novel antigen (p44; apparent Mr 44K) associated with non-A, non-B (NANB) hepatitis, was isolated from the hepatic cDNA library of a chimpanzee infected with NANB hepatitis. The library was screened with a monoclonal antibody against this antigen. The cDNA cloned contained an open reading frame encoding a 444 amino acid protein with an Mr calculated to be 50,468. The cDNA hybridized to a 1.9 kb mRNA obtained from chimpanzee hepatocytes infected with either the NANB or hepatitis delta viruses. It hybridized weakly to mRNA from hepatitis B virus-infected hepatocytes, and not at all to mRNA from normal chimpanzee hepatocytes. Southern blot analysis revealed that p44 is a host protein in chimpanzees, and that an identical gene exists in the human genome.

Production of antibodies directed against microtubular aggregates in hepatocytes of chimpanzees with non-A, non-B hepatitis.

We have previously used Epstein-Barr virus transformation to established two clonal lymphoblastoid cell lines (48-1 and S-1) producing monoclonal antibodies against microtubular aggregates that appear in the hepatocytes of chimpanzees with non-A, non-B hepatitis (NANBH). To obtain additional antibodies directed against the same structure, the mouse hybridoma method was employed. Partially purified microtubular aggregates were prepared from liver homogenates of a chimpanzee with NANBH and used as the immunogen. Hybridoma cultures were first screened by radioimmunoassay against the partially purified antigen and secondly by immunofluorescence (IF) using liver sections from a chimpanzee with NANBH. Twenty-seven cultures exhibited positive IF reactions similar to those observed with the original antibodies, 48-1 and S-1, and were cloned by limiting dilution. The specificities of the monoclonal antibodies were tested by IF on liver biopsy specimens from chimpanzees with hepatitis A, B, D or NANBH and from normal chimpanzees. All the antibodies proved to be IgG. Immunoelectron microscopy revealed that all 27 antibodies bound to the same structure, the microtubular aggregates, in hepatocytes of chimpanzees with NANBH. To determine the size of the antigen polypeptide recognized by these antibodies, polyacrylamide gel electrophoresis and Western blot assays were performed. Nine of the 27 antibodies specifically reacted with a single polypeptide of Mr 44K (p44). The remaining 18 antibodies detected no antigen polypeptide on the filters. The anti-p44 antibodies were then tested using cross-competition assays with 125I-labelled antibodies, and were found to be classifiable into three groups. In addition, the results indicate that at least three distinct epitopes are located on p44: epitope A recognized by group 1, epitope B recognized by group 2 and epitope C recognized by group 3.