Tohru Gotanda

Non-A, non-B hepatitis specific antibodies directed at host-derived epitope: implication for an autoimmune process

A cDNA clone (GOR47-1) bearing an epitope with an aminoacid sequence GRRGQKAKSNPNRPL (GOR epitope) was isolated from the plasma of a laboratory chimpanzee infected with human non-A, non-B hepatitis (NANBH) agent. The epitope was not encoded by reported sequences of hepatitis C virus (HCV) but instead was coded for by a host cellular sequence. An enzyme-linked immunosorbent assay (ELISA) was developed for antibodies to the GOR epitope (anti-GOR). A patient with acute NANBH produced both IgM and IgG classes of anti-GOR in the acute phase of the illness, with concentrations of IgG class anti-GOR rising when anti-HCV became detectable. Anti-GOR was detected in serum from 59 (81%) of 73 patients with chronic NANBH, 40 (65%) of 62 with NANB liver cirrhosis, and 25 (63%) of 40 NANB patients with primary hepatocellular carcinoma, but in only less than 10% of patients with chronic liver diseases due to hepatitis B virus, alcohol, or an autoimmune disorder, and in only 2% of voluntary blood donors. Circulating HCV-RNA was detected by polymerase chain reaction (PCR) in most patients seropositive for anti-GOR but negative for anti-HCV. Detection of anti-GOR would therefore help in the diagnosis of NANBH and in reducing the occurrence of post-transfusion hepatitis.

Nucleotide sequence of a cloned hepatitis B virus genome, subtype ayr: comparison with genomes of the other three subtypes.

The entire nucleotide sequence of genomic DNA was determined for hepatitis B virus (HBV) of subtype ayr, which had been derived from the blood of a Japanese asymptomatic carrier. The genome was 3215 nucleotides long, and differed in DNA sequence by 10% from that of subtypes adw or ayw, but by only 2% from that of subtype adr. Amino acid sequences coded for by the S, C, P and X genes, as well as by the pre-S region, closely resembled those of subtype adr, indicating that the evolution of HBV/ayr from HBV/adr was more recent than the differentiation of the other three subtypes. In the product of the S gene, the mutually exclusive subtypic determinants of the surface antigen, d and y, were associated with variation of amino acid residues at only the 68th and 122nd positions from the N terminus, in contrast to the variation at as many as seven positions for the other set of subtypic determinants, w and r. Sequences representing high local hydrophilicity in the product of the S gene were involved in subtypic variation, although such sequences in the pre-S region were shared by HBV genomes of the various subtypes. In particular, a hydrophilic sequence of 19 amino acid residues, coded for by the pre-S(2) region and implicated in the presumed hepatotropism of HBV, was possessed in common by HBV/adr, HBV/ayr and HBV/ayw, and differed in HBV/adw by only one residue at the 9th position. This amino acid sequence appears to be a promising candidate for a synthetic peptide vaccine.

An autoantibody cross-reactive to hepatitis C virus core and a host nuclear antigen

GOR, an epitope borne by the amino acid sequence, GRRGQKAKSNPNRPL, is recognized by anti-GOR antibodies specifically found in patients with non-A, non-B hepatitis (NANBH). The epitope is not coded for by the hepatitis C virus (HCV), the presumed causative agent for NANBH, but by a single copy gene of the host. Anti-GOR antibodies, distinct from anti-HCV (c100-3) antibodies, were revealed to have dual specificities; they target both the presumed core gene product of HCV and a host component. This cross recognition is probably derived from homologous regions between the GOR epitope and a viral epitope on the core protein in HCV. It is therefore suggested that anti-GOR is an autoantibody induced by HCV infection. This may explain the autoimmune disease like aspect of NANBH pathogenesis.

A solid-phase enzyme immunoassay for the common and subtypic determinants of hepatitis B surface antigen with monoclonal antibodies

Monoclonal antibodies were raised against the common (a) as well as subtypic determinants (d, y, w and r) of hepatitis B surface antigen (HBsAg). They were applied to subtyping HBsAg by sandwiching it between antibody against a fixed on a solid-phase support and antibody against one or other of d, y, w and r, linked to horseradish peroxidase. The assay was applied to evaluate antigenic specificities of the NIH and Japanese panels composed of 44 sera containing HBsAg particles of various subtypes. HBsAg particles of a hybrid subtype, adyr, were sandwiched between monoclonal antibody against d and that against y, thereby indicating that they possessed both d and y determinants on the selfsame particle. The expression of d and y determinants on hybrid HBsAg particles was much less than that on ordinary particles of adw, adr, ayw or ayr subtype.

Integration of region X of hepatitis B virus genome in human primary hepatocellular carcinomas propagated in nude mice.

Tissues of human primary hepatocellular carcinoma (PHC) from six patients infected with hepatitis B virus (HBV) were propagated in nude mice, as well as a strain of hepatitis B surface antigen-positive PHC (PLC/PRF/5). Integration of viral DNA into chromosomal DNA of tumour cells was evaluated by the capacity to hybridize with radiolabelled DNA probes, each representing fundamental parts of the HBV genome, that is S and C genes and regions pre-S and X. All PHC cells possessed region X integrated in their chromosomes. However, integration of the S gene, C gene and region pre-S was found in only six of the seven PHCs. Based on these findings, the integration of region X seems to be most closely associated with carcinogenesis in HBV infection.

Reduced bactericidal activity against Staphylococcus aureus and Pseudomonas aeruginosa of blood neutrophils from patients with early adult respiratory distress syndrome

Hepatitis B e antigen (HBeAg) occurs in the serum of individuals infected with hepatitis B virus both free and in association with IgG. Utilizing a succession of steps involving salt precipitation, affinity chromatography, ion-exchange chromatography and isoelectrofocusing, we isolated free and IgG-bound forms of HBeAg from the sera of infected individuals with an overall gain in specific activity of 3000-fold and 540-fold, respectively. Polypeptide profiles of purified HBeAg preparations were studied by SDS-polyacrylamide gel electrophoresis in the presence of 2-mercaptoethanol. Both free and IgG-bound preparations revealed polypeptides with mol. wt. of 15500 (P15.5) and 16 500 (P16.5), and HBeAg activity was detected corresponding to their positions. The HBeAg polypeptides (P15.5/16.5) derived from sera were physicochemically different from the two polypeptides with HBeAg activity (P19 and P45) liberated from Dane particle cores by the conventional method involving incubation with Nonidet P40 and 2-mercaptoethanol. However, when core particles were prepared in the presence of a proteolytic enzyme, in addition to Nonidet P40 and 2-mercaptoethanol, they gave rise to HBeAg polypeptides with mol. wt. of 31000 (P31) and 15 500. Furthermore, P31 split into P15.5 when heated at 100 degrees C for 2 min. On the basis of these results, P15.5 may be assumed to be the essential polypeptide bearing HBeAg activity in the serum and also in Dane particles.

Lack of detectable reverse transcriptase activity in human and chimpanzee sera with a high infectivity for non-A, non-B hepatitis.

A serum sample from a patient with hepatitis and samples from two experimentally infected chimpanzees, all with a high infectivity for non-A, non-B hepatitis, were tested for reverse transcriptase. Biopsy confirmed that the hepatocytes of the chimpanzees that received these sera contained the characteristic tubular structures associated with non-A, non-B hepatitis. None of these three sera revealed detectable enzyme activity. We have not been able to confirm the association of reverse transcriptase activity with non-A, non-B hepatitis reported recently.