Hepatitis G
By Howard J. Worman, M. D.
In 1995 and 1996, several novel human RNA viruses were identified
and partially characterized that apparently can cause acute and chronic
hepatitis. These new viruses are related to, but distinct from,
the flavivirus hepatitis C. Three viruses, identified by investigators
at Abbott Labs, have been termed GB-A, GB-B and GB-C. GB-A and GB-B are
likely tamarin viruses; GB-C can infect humans. The genomic
sequences of these viruses have been determined. Another group at
Genelabs Technologies has identified, and determined the complete genomic
sequence of, a virus they termed hepatitis G virus (HGV). Based on
genomic sequence comparisons, HGV is probably the same as GB-C. Below is
an annotated list of some references published in 1995-1997 concerning the
initial identification and characterization of these novel viruses. The
precise role of HGV/GB-C in human disease is currently under
investigation; however, most experts now feel that this virus is not
responsible for clinically significant cases acute or chronic hepatitis.
Simons, J. N., Pilot-Matias, T. J., Leary, T. P., Dawson, G. J.,
Desai, S. M., Schlauder, G. G., Muerhoff, A. S., Erker, J. C., Buijk, S.
L., Chalmers, M. L., Van Sant, C. L., and Mushahwar, I. K. 1995.
Identification of two flavivirus-like genomes in the GB hepatitis agent.
Proceedings of the National Academy of Sciences U. S. A. 92:3401-3405.
GB was a 34 year-old surgeon who contracted hepatitis. His serum
was able to infect monkeys and the "GB agent" has been passaged in
monkeys over the years. It is known to be distinct from other human
hepatitis viruses (A, B, C, D, E). Using a technique called
representational difference analysis, the authors of this paper isolated
genetic sequences in the infectious serum of a tamarin infected with the
"GB agent." Analysis shows that the "GB agent" contains
two flavivirus sequences related to, but distinct from, the hepatitis C
virus. These findings suggest that novel flaviviruses may cause
hepatitis in man and other primates.
Simons, J. N., Leary, T. P., Dawson, G. J., Pilot-Matias, T. J.,
Muerhoff, A. S., Schlauder, G. G., Desai, S. M., and Mushahwar, I. K.
1995. Isolation of novel virus-like sequences associated with human
hepatitis. Nature Medicine. 1:564-569.
This group of investigators at Abbott Laboratories previously
identified two viruses, GB-A and GB-B, in the blood of a surgeon GB who
developed acute hepatitis (see above). Other human serum samples that
contained antibodies against GB-A and GB-B viral polypeptides were
subjected to reverse transcription-polymerase chain reaction studies with
degenerate oligonucleotide primers capable of amplifying a segment of the
GB-A, GB-B and hepatitis C (HCV) genomes. Novel sequences, related to
but different from GB-A, GB-B and HCV, were amplified from the sera of 12
individuals, including 4 with hepatitis. These findings suggest that a
novel flavivirus, tentatively termed GB-C, may be responsible for some
cases of non-A, non-B, non-C, non-D, non-E hepatitis.
Yoshiba, M., Okamoto, H., and Mishiro, S. 1995. Detection of the GBV-C
hepatitis virus genome in serum from patients with fulminant hepatitis of
unknown aetiology. Lancet. 346:1131-1132.
The recently isolated GB-C virus (GBV-C), which is likely the same
as the hepatitis G virus (HGV), is similar to the hepatitis C virus but
clearly a distinct species. This virus, along with two other recently
identified viruses called GBV-A and GBV-B, have been implicated in acute
and chronic hepatitis. In this study, six Japanese patients with
fulminant non-A, non-B, non-C, non-D, non-E hepatitis were investigated
for the presence of GBV-C genomic RNA sequences in their serum. GBV-C
sequences were amplified from three of these six patients, implicating
this virus as the cause of fulminant hepatitis. GBV-C/HGV may therefore
be a cause of fulminant hepatitis in Japan and possibly in other parts of
the world.
Aikawa, T., Sugai, Y., and Okamoto, H. 1996. Hepatitis G infection in
drug abusers with chronic hepatitis C (letter). New England Journal of
Medicine. 334:195-196.
The authors use reverse transcription-polymerase chain reaction
to amplify the genome of the GB-C (HGV) virus from serum of intravenous
drug abusers. Forty-nine male intravenous drug users with hepatitis
C-associated liver disease were examined for the presence of GBV-C RNA
sequences. GBV-C infection was detected in 12 (24%). Only 7% of male
patients with hepatitis C-associated liver disease that did not use
intravenous drugs had detectable GBV-C infection. Patients with
hepatitis C are likely at increased risk for GBV-C infection and
intravenous drug use may be a common vehicle for parenteral spread.
Linnen, J., Wages, J., Jr., Zhang-Keck, Z.-Y., Fry, K. E., Krawczynski,
K. Z., Alter, H., Koonin, E., Gallagher, M., Alter, M., Hadziyannis, S.,
Karayiannis, P., Fung, K., Nakatsuji, Y., Shih, W.-K., Young, L., Piatak,
M., Jr., Hoover, C., Fernandez, J., Chen, S., Zou, J.-C., Morris, T.,
Hyams, K. C., Ismay, S., Lifson, J. D., Hess, G., Foung, S. K. H.,
Thomas, H., Bradley, D., Margolis, H., and Kim, J. P. 1996. Molecular
cloning and disease association of hepatitis G virus: a
transfusion-transmissible agent. Science. 271:505-508.
These authors, primarily at Genelabs Technologies, present the
complete genomic sequences of two isolates of a RNA virus that they call
hepatitis G virus (HGV). HGV is associated with acute and chronic
hepatitis. It is similar to the previously identified GB-C virus and
distantly related to the hepatitis C, GB-B and GB-A viruses. A cDNA
expression library was constructed from the plasma of a patient with
chronic hepatitis C. Immunoscreening of the expression library with the
patient's serum identified several hepatitis C virus sequences and
several other sequences that were unique. From these unique sequences, an
anchored polymerase chain reaction method was used to amplify overlapping
clones for the entire viral genome. The virus was termed the hepatitis G
virus (HGV). Using these sequences, overlapping cDNAs for HGV were also
isolated from the plasma of another patient. The polyprotein sequence
identities between HGV and GB-A, GB-B and a hepatitis C virus (HCV)
isolate were 43.8%, 28.4% and 26.8%, respectively. HGV was 85.5%
identical in nucleotide sequence and 100% identical in amino acid
sequence to the corresponding portion of GB-C that has been
characterized. Using reverse transcription-polymerase chain reaction, HGV
sequences were identified in 13% of 38 patients with non-A-E hepatitis in
the U. S. It was also identified in about 18% of patients with hepatitis
C. HGV was detected in serum samples from patients in the U. S.,
Australia, South America and Europe. HGV was also implicated in two
prospectively studied patients with post-transfusion hepatitis who were
negative for HGV prior to transfusion. These findings demonstrate that
HGV, a virus the same as or very similar to GB-C, is associated with
acute and chronic hepatitis worldwide.
Masuko, K., Mitsui, T., Iwano, K., Yamazaki, C., Okuda, K.,
Meguro, T., Murayama, N., Inoue, T., Tsuda, F., Okamoto, H., Mitakawa,
Y., and Mayumi, M. 1996. Infection with hepatitis GB virus C in
patients on maintenance hemodialysis. New England Journal of Medicine.
334:1485-1490.
The hepatitis G virus (HGV)/hepatitis GB virus-C (HGBV-C) is a
recently characterized Flavivirus that may cause acute and chronic
hepatitis. In this study, 519 patients in Japan on maintenance
hemodialysis were examined for the presence of serum HGV/HGBV-C RNA by
reverse transcription-polymerase chain reaction. Viral RNA was detected
in 16 patients (3.1%) as compared with 4 of 448 (0.9%) healthy blood
donors (P<0.03). None of the 16 patients with detectable serum
HGV/HGBV-C RNA had elevated serum aminotransferase activities or other
evidence of clinical liver disease. Seven of the 16 patients with
HGV/HGBV-C infection had concurrent hepatitis C infection and one was
infected with hepatitis B. Of the 519 hemodialysis patients studied, 107
(20.6%) had detectable serum hepatitis C virus RNA but only 6 of these
had abnormally elevated serum aminotransferase activities. Fifteen of
the study patients (2.9%) were hepatitis B surface antigen positive.
Eight patients with HGV/HGBV-C infection were studied for 7 to 16 years
and in all except for one the infection was persistent. In five of these
patients, HGV/HGBV-C RNA was detected after blood transfusion.
Sequencing of a small portion of the viral genome showed that the
nucleotide sequences of various isolates can vary up to approximately 20
percent. These results show that patients on maintenance hemodialysis
are at increased risk for HGV/HGBV-C infection. HGV/HGBV-C produces
persistent infections and, in maintenance hemodialysis patients, infection
appears to result in minimal or no clinical liver disease.
de Lamballerie, X., Charrel, R. N., and Bussol, B. 1996. Hepatitis
GB virus C in patients on hemodialysis. New England Journal of
Medicine. 334:1549.
These investigators tested the serum of 61 patients on
hemodialysis in France for the presence of HGV/HGBV-C RNA using reverse
transcription-polymerase chain reaction. Of the 61 patients tested, 57.5
percent had detectable serum viral RNA. Only 4 of the 61 patients had
elveated serum alanine aminotransferase activity and all were HGV/HGBV-C
positive. None of these four had detectable serum hepatitis C virus
RNA. These results show that HGV/HGBV-C infection is highly prevalent
in patient on hemodialysis.
Alter, H. J. 1996. The cloning and clinical implications of HGV
and HGBV-C. New England Journal of Medicine. 334:1536-1537.
In this editorial, the author reviews the identification and
cloning of the hepatitis G/hepatitis GBV-C virus. He states that the
previously identified GBV-A and GBV-B may be tamarin viruses and that
GBV-C/HGV is a human virus. He further proposes, based on published
data and unpublished data of his own group, that HGBV-C/HGV may not be a
common cause of human hepatitis.
Tanaka, E., Alter, H. J., Nakatsuji, Y., Shih, W.-K., Kim, J. P.,
Matsumoto, A., Kobayashi, M., and Kiyosawa, K. 1996. Effect of
hepatitis G virus infection on chronic hepatitis C. Annals of Internal
Medicine. 125:740-743.
Hepatitis G virus (HGV) is a flavivirus related to the hepatitis C
virus (HCV). In this paper, the authors retrospectively studied 189
randomly selected patients from a university hospital in Japan with
chronic hepatitis C. Of these 189 patients, 21 (11%) were co-infected
with HGV as determined by serum reverse transcription-polymerase chain
reaction. On average, patients with serum HGV RNA were slightly younger
but similar in other demographic and clinical features to those without
HGV. Patients with and without HGV co-infection were infected with
similar distributions of HCV genotypes. Ten of 101 patients treated with
interferon-alpha for chronic hepatitis C had HGV co-infection, and the
rate of sustained response to therapy in this small sample was similar to
that for patients without HGV. Serum HGV RNA levels decreased during
therapy with interferon-alpha in 9 patients in whom in was measured,
however, in most of these patients, HGV RNA was again detectable after
therapy was stopped. In summary, this retrospective analysis suggests
that patients with chronic HCV and HGV co- infection do not differ from
patients with only HCV infection. It also appears that HGV is sensitive
to therapy with interferon-alpha.
DiBisceglie, A. M. 1996. Hepatitis G virus infection: a work in
progress. Annals of Internal Medicine. 125:772-773.
This editorial is a brief and clear review on the
identification of HGV/GB-C and related viruses, their epidemiology and their
possible role in human disease. The editorial also contains some
comments on the paper by Tanaka et al., 1996 (Annals of Internal
Medicine. 125:740-743).
Alter, M. J., Gallagher, M., Morris, T. T., Moyer, L. A., Meeks,
E. L., Krawczynski, K., Kim, J. P., and Margolis, H. S., for the Sentinel
Counties Viral Hepatitis Study Team. 1997. Acute Non-A-E hepatitis in
the United States and the role of hepatitis G virus infection. New
England Journal of Medicine. 336:741-746.
and
Alter, H. J. , Nakatsuji Y., Melpolder, J., Wages, J., Wesley, R.,
Shih, W.-K., and Kim, J. P. 1997. The incidence of
transfusion-associated hepatitis G virus infection and its relation to
liver disease. New England Journal of Medicine. 336:747-754.
These two studies show that persistent infection with HGV is common in
the United States. They also suggest that HGV may cause mild acute hepatitis
but that it does not cause clinically significant chronic disease. Both of
these studies used
reverse-transcription polymerase chain reaction to detect HGV RNA in
serum. In the study by M. J. Alter et al., a portion of patients
reported to the Sentinel Counties surveillance system from 1982 to 1995
with acute viral hepatitis were studied. HGV RNA was detected in 4 of 45
patients with acute non-A-E hepatitis (9%), 23 of 116 with hepatitis C
(20%), 25 of 100 with hepatitis A (25%) and 32 of 100 with hepatitis B
(32%). The prevalence of HGV in patients with hepatitis B was
significantly higher than those with hepatitis C or hepatitis non-A-E.
The clinical characteristics of the acute illness were similar in
patients with HGV alone and those infected with the other viruses with or
without HGV. Of the 4 patients with HGV alone, 3 remained persistently
positive for HGV RNA for 1 to 9 years, however, none had clinically
apparent chronic hepatitis (although liver biopsies were not performed).
Of the patients with both HCV and HGV infection, 87% were persistently
positive for HGV RNA. The rates of chronic hepatitis C were essentially
the same in patients with hepatitis C alone (60%) and those with HGV
co-infection (61%). In the study by H. J. Alter et al., serum samples
were collected between 1972 and 1995 from 357 transfusion recipients, 157
controls who did not receive transfusions, 500 random volunteer blood
donors and 230 donors of blood received by HGV-infected individuals. Of
79 patients with transfusion-associated hepatitis, 63 (80%) were related
to HCV and 3 had preexisting HCV infection and the cause of acute
hepatitis could not be determined. Six of the 63 with HCV-related
hepatitis had co-infection with HGV (10%). Of the remaining 13
patients, 3 had HGV alone and 10 possible infections with unidentified
agents. The 3 patients with HGV alone had mild acute hepatitis and did
not develop clinically apparent chronic hepatitis (although liver
biopsies were not done). There were 35 HGV infections among all of the
357 transfusion recipients and only 3 had HGV as the only virus. One of
the 157 controls and 7 of the 500 random blood donors also had detectable
HGV (1.4%). In all instances in which a recipient had acute HGV after
transfusion and samples from donors could be tested, at least one
HGV-positive donor was identified. These two studies show that HGV is
fairly common in the United States and that it can be transmitted by
blood and blood products. HGV may cause mild acute hepatitis, but
despite persistent infection, it does not appear to cause clinically
significant chronic hepatitis.
Lopez-Alcorocho, J. M., Millan, A., Garcia-Trevijano, E. R.,
Bartolome, J., Ruiz-Moreno, M., Otero, M., and Carreno, V. 1997.
Detection of hepatitis GB virus type C RNA in serum and liver from
children with chronic viral hepatitis B and C. Hepatology.
25:1258-1260.
and
Kanda, T., Yokosuka, O., Ehata, T., Maru, Y., Imazeki, F., Saisho,
H., Shiratori, Y., and Omata, M. 1997. Detection of GBV-C RNA in
patients with non-A-E fulminant hepatitis by reverse-transcription
polymerase chain reaction. Hepatology. 25:1261-1265.
and
Pessoa, M. G., Terrault, N. A., Ferrell, L. D., Kim, J. P., Kolberg,
J., Detmer, J., Collins, M. L., Yun, A. J., Viele, M., Lake, J. R.,
Roberts, J. P., Ascher, N. L., and Wright, T. L. 1997. Hepatitis G
virus in patients with cryptogenic liver disease undergoing liver
transplantation. Hepatology. 25:1266-1270.
and
Fried, M. W., Khudyakov, Y. E., Smallwood, G. A., Cong, M.-E.,
Nichols, B., Diaz, E., Siefert, P., Gutekunst, K., Gordon, R. D., Boyer,
T. D., and Fields, H. A. 1997. Hepatitis G virus co-infection in liver
transplantation recipients with chronic hepatitis C and nonviral chronic
liver disease. Hepatology. 25:1271-1275.
The role of the hepatitis G virus (HGV) (also known as GB-C) in
human hepatitis remains unclear. These four papers published in the May
1997 issue of Hepatolgoy
provide further evidence that HGV may not be a significant cause of acute
or chronic liver disease. Lopez-Alcoroch et al. show that 15% of
children with chronic hepatitis C or hepatitis B are infected with HGV,
however, HGV co-infection does not appear to cause more severe liver
disease. Kanda et al. and Pessoa et al. both show that HGV is frequently
transmitted by blood transfusions to patients who either have fulminant
hepatic failure or undergo orthotopic liver transplantation. However,
Kanda et al. show that HGV is usually absent on initial presentation in
persons with fulminant hepatic failure and Pessoa et al. showed no
differences in the frequencies of post-transplantation hepatitis or graft
survival in individuals with or without HGV infection. Fried et al. also
show no differences in graft or patient survival in individuals who
undergo liver transplantation for hepatitis C. These four papers, along
with other publications (see above), suggest that HGV, although common in
the blood supply, may not be major cause of hepatitis in humans.
Martinot, M., Marcellin, P., Boyer, N., Detmer, J., Pouteau, M.,
Castelnau, C., Degott, C., Auperin, A., Collins, M., Kolberg, J., Wilber,
J., Benhamou, J.-P., and Erlinger, S. 1997. Influence of hepatitis G
virus infection on the severity of liver disease and response to
interferon-alpha in patients with chronic hepatitis C. Annals of
Internal Medicine. 126:874-881.
In this study, Martinot et al. report on 228 patients in France with
chronic hepatitis C who were retrospectively examined for HGV
co-infectio. HGV co-infection was detected in 21% of all patients and
32% of those who were intravenous drug users. Serum HCV RNA levels,
liver histology and response to treatment with interferon-alpha did not
differ between patients with and without HGV co-infection. Loss of serum
HGV RNA did not correlate with a biochemical response whereas loss of
serum HCV RNA did. These results show that HGV co-infection frequently
occurs in individuals infected with HCV and that HGV does not influence
the severity of liver disease or response to treatment with
interferon-alpha in patients with chronic hepatitis C.
Copyright, 1995, 1998, Howard J. Worman, M. D. All rights
reserved. Printing or other reproduction is prohibited without the
written authorization of Howard J. Worman.
![[help]](/images/buttons/help.gif)
