HIV Infections Clinical Trial
Official title:
Associations, Outcomes and Genomics of GB Virus C, Hepatitis C Virus and Human Immunodeficiency Virus Infection
The purpose of this study is to examine the effect of GB virus C (GBV-C) on the natural history of chronic hepatitis C virus (HCV) infection in subjects co-infected with HIV and HCV. The other aspect of the study is to assess the effect of GBV-C on the severity of liver disease due to chronic hepatitis C in subjects co-infected with HIV and HCV. This will be done by determining the point prevalence of co-infection retrospectively then following that cohort prospectively. In addition, further individuals will be recruited in a prospective manner.
Background and Research Plan:
GBV-C and hepatitis G virus (HGV) are both RNA viruses from the Flaviviridae family.
Molecular characterization of these viruses has shown them to be virtually identical to each
other (1,2). GBV-C was first isolated in 1995 from an archival blood sample obtained in the
1960s from a surgeon with acute non A-E hepatitis (3). GBV-C has a 29% amino acid sequence
homology with Hepatitis C Virus (HCV), another flavivirus (4). However, GBV-C in contrast to
HCV, is not hepatotropic as the virus neither replicates primarily in hepatocytes nor causes
acute or chronic hepatitis. Indeed, GBV-C does not cause any specific disease nor does it
represent a substantial health risk in humans. Nevertheless, GBV-C infection is relatively
common with a 2% prevalence rate in healthy blood donors, the majority of whom clear the
virus and develop antibodies to the envelope glycoprotein E2.
HIV infection has a particularly high rate of co-infection with GBV-C. Studies suggest that
co-infection leads to a beneficial effect on the course of HIV (5,6,7) with co-infection
associated with a significantly lower mortality rate among HIV-infected subjects compared to
those not infected with GBV-C. The mechanism of the beneficial effect of GBV-C on the course
of HIV infection is obscure.
Among new cases of non-A, non-B hepatitis in the United States, 18 percent are positive for
GBV-C, and 80% of these patients are also infected with HCV. Amongst patients with HCV,
10-20% have GBV-C RNA in their serum (4). In another report 189 patients with chronic HCV
infection were evaluated; 21 (11%) were positive for GBV-C RNA (8). The course of the HCV
infection and the response to interferon-alfa were not affected by co-infection with GBV-C.
Interferon-alfa led to a decrease in GBV-C RNA titers that was not sustained after the
cessation of therapy. Similar findings were noted in another study in which liver biopsies
were performed (9). Detailed histopathologic examination revealed no difference between the
patients infected with HCV alone and the 15 percent who were co-infected with GBV-C. There
have been no studies to date looking at the effect GBV-C, HCV and HIV have on each other.
Our previous studies into HIV and GBV-C have suggested that co-infection is common. Active
GBV-C infection is frequently observed in persons involved in high-risk sexual activity and
with HIV infection. Homosexual intercourse appears to be a more effective means of
transmission of GBV-C. GBV-C has the same epidemiology and transmission as HIV and
underlines the intimate association between GBV-C and HIV (10).
Methods/Experimental Design:
Stored sera is available from people who have attended the Hepatitis and HIV clinics at the
Alfred Hospital. Sera is available back to approximately 1990 and has been stored at minus
20ºC and as such is suitable for GBV-C detection particularly RNA by PCR. Of the sera stored
by the HIV clinic 203 patients are known to be co-infected with HCV who are currently still
alive. Once ethics committee approval is obtained we propose to contact these groups of
people and see if they would participate in this study. Once consent is obtained we plan to
perform the following.
A. Stored sera will be retrospectively examined for the point prevalence of infection with
HCV, GBV-C and HIV. These individuals will then be followed up in a prospective manner
assessing the progression of liver disease and other factors as outlined in Tables 1 to 4.
B. New subjects attending the Alfred Hospital Hepatitis or HIV clinics will be recruited and
followed prospectively also as outlined in Tables 1 to 4.
C. An age and sex matched control group infected with HCV alone will be identified via the
Alfred Hospital Hepatitis clinic. This clinic has a large cohort of well-characterized HCV
infected subjects that extends back to 1989.
The inclusion and exclusion criteria for the study are as follows:
Inclusion criteria
1. Sera available and appropriate for testing. Including serial sera over a period of
time. (retrospective analysis)
2. HIV serology positive.
3. Unequivocal HCV antibody positive or HCV RNA positive.
Exclusion criteria
1. Those without sera available.
2. Those unwilling to give informed consent.
3. Persons with Hepatitis B Virus infection, as defined by the presence of Hepatitis B
surface antigen and/or Hepatitis B Virus DNA positive.
Where possible information will also be obtained about these people by interview, examining
the medical records or discussion with their General Practitioners. Subjects will also be
encouraged to attend the hospital in person where a clinical exam can be performed. If
insufficient sera is stored further blood will be drawn at this time and examined for HCV,
HIV and GBV-C related parameters as outlined in the tables below. A study specific
questionnaire will be generated in which subjects will be asked to complete a confidential
questionnaire that contains information related to demographic and behavioral factors that
may contribute to the acquisition of GBV-C, HCV or HIV infection or various combinations of
the above. Demographic variables will include age, sex, country of birth, and occupation.
Information relevant to HIV infection including the use of HAART and the presence or absence
of AIDS defining syndromes will be obtained. The questionnaire will attempt to identify the
approximate time of acquisition of both HCV and HIV. In addition, the extent of liver
disease will be assessed, alcohol consumption will be quantified and information will be
gathered on previous treatment with Interferon and Ribavirin.
The main outcomes of this study will be liver related morbidity, such as chronic hepatitis,
cirrhosis or hepatocellular cancer and overall patient survival. The detailed information
contained in the following tables will be obtained from interview, medical records and
clinical examination:
Table 1: GBV-C
1. Testing sera for GBV-C RNA and E2 antibodies to GBV-C.
2. Performing testing at one-year intervals if sera is available.
Table 2: HIV
1. CD4 count (buffy coat) in HIV positive.
2. HIV viral load.
3. Use of highly active antiretroviral therapy (HAART) and other retroviral treatment
and/or change in treatment.
4. Complications of HIV/AIDS and AIDS defining illnesses.
Table 3: Liver disease (HCV)
1. HCV viral load and genotype.
2. Child-Pugh classification based on levels of bilirubin, albumin and clotting profiles,
and the presence of ascites and encephalopathy.
3. Complications of liver disease: ascites, encephalopathy, variceal bleeding and
hepatocellular carcinoma.
4. ALT and AST levels as well as AST/ALT ratio.
5. Alpha Feto Protein (AFP) level.
6. Liver histology at biopsy with assessment of inflammation grade, stage of fibrosis and
severity of hepatic steatosis.
7. Liver ultrasound results.
8. Results of endoscopy, i.e. features of portal hypertension
Table 4: Survival Data
1. Has patient died?
2. Date of death.
3. Cause of death.
Results will be statistically examined by univariate and multivariate analysis in terms of
clinical outcomes with respect to chronic hepatitis C liver disease between GBV-C positive
and negative groups in the HIV co-infected cohort compared with the HCV infected cohort
alone. See following Table 5.
Table 5: Study Design
Study Group No.1 HCV +ve, HIV +ve, GBV-C RNA+ve. Study Group No.2 HCV +ve, HIV +ve, GBV-C
RNA-ve. Control Group HCV +ve alone.
References relevant to this project (from literature search)
1. Linnen J, Wages J, Zhang-Keck Z, et al. Molecular cloning and disease association of
hepatitis G virus: A new transfusion transmissible agent. Science 1996; 271:505-8.
2. Alter HJ. The cloning and clinical implications of HGV and HGBV-C. N Engl J Med 1996;
334:1536-7.
3. Simons JN, Leary TP, Dawson GJ, et al. Isolation of novel virus-like sequences
associated with Human hepatitis. Nat Med 1995;1:564-9.
4. Di Bisceglie AM. Hepatitis G virus infection: A work in progress. Ann Intern Med 1996;
125:772.
5. Tillman HL, Heiken H, Knapik-Botor A, et al. Infection with GB virus C and reduced
mortality among HIV-infected patients. N Engl J Med 2001; 345:715-24.
6. Xiang J, Wunschmann S, Diekema DJ, et al. Effect of coinfection with GB virus C on
survival among patients with HIV infection. N Engl J Med 2001;345:707-14.
7. Lefrere JJ, Roudot-Thoraval F, Morand-Joubert L, et al. Carriage of GB virus
C/hepatitis G virus RNA is associated with a slower immunologic, virologic and clinical
progression of human Immunodeficiency virus disease in coinfected persons. J Infect Dis
1999; 179:783-9.
8. Tanaka E, Alter HJ, Nakatsuji Y, et al. Effect of hepatitis G virus infection on
chronic hepatitis C. Ann Intern Med 1996;125:740-3.
9. Bralet MP, Roudot-Thoraval F, Pawlotsky JM, et al. Histopathologic impact of GB virus C
infection on chronic hepatitis C. Gastroenterology 1997;112:188-92.
10. Berzsenyi MD, Bowden SD, Bailey MJ, et al. Sexual and blood-borne transmission of GB
virus C and its association with Human Immunodeficiency Virus. In press.
;
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