New Research Establishes Genetic Associations In
Hepatitis C
April 9, 2003 (San Diego, CA) -- Hepatitis C
Virus (HCV), as a major agent of non-A, non-B hepatitis (NANBH), has been
described as an insidious disease and a silent epidemic, mainly because the
infection is often sub-clinical. Acute infection is recognized in a minority
of patients and in most cases the virus results in chronic infections taking
10-20 years before the emergence of liver disease. In the US, almost four
million individuals are infected and up to 170 million worldwide.
Background
An imbalance in helper T-cell type-1 (Th1) and type-2
(Th2) cytokines has been suggested as playing an important role in the cause
of chronic viral infections, but this issue is not resolved in patients with
hepatitis C virus (HCV) infection. Inflammation of the portal and portal
areas is a common feature of chronic hepatitis C. Antigen presenting
dendritic, or “tree-like,” cells are located in the portal area, and
infiltrating T-cells are initially exposed to infected hepatocytes in the
peripheral area. Thus, these areas could be sites of the initial processes
of the immune response in chronic hepatitis C.
The pathogenesis of hepatitis C virus associated liver
injury involves many genes from multiple pathogenic pathways. Blockade of
CC-chemokine receptor 5 (CCR5) has been proposed as therapy for HIV-1.
Therefore, an examination was conducted to determine if the CCR5-delta32
homozygous genotype has phenotypic expression other than those related to
HIV-1. Other genes associated with viral infection (RANTES, CD4), and in
inflammation (Interleukin1B) were also reviewed for their possible
association.
Hepatitis C virus (HCV) is commonly seen in the
Coachella Valley of Southern California. Genetic Research institute of the
Desert (GRID), a nonprofit research center was established in the Coachella
valley with a goal to investigate genetic aspects of cancer, as well as
infectious and some neurological diseases. This research effort focused on
the genetic variants in the HCV group of patients compared to normal healthy
individuals. Genetic association could determine the drug responsiveness and
aid in treatment; accordingly, a research objective was to determine genetic
variants associated with the disease and to find the multiple allelic
associations of these genes. The associated genes can be used as prognostic
markers, as well as help design drug for hepatitis.
A New Study
The authors of “Multiple Gene Associations In Hepatitis
‘C’ Infection, ” are Radhika Gade-Andavolu, PhD from Genetic Research
Institute of the Desert, Rancho Mirage, Gary Annunziata, DO, and Lawrence A.
Cone, MD, DSc, are from the Eisenhower Medical Center, Rancho Mirage, CA.
Their findings are being presented at Experimental Biology 2003, a
meeting sponsored by the American Physiological Society, being held April
11-15, 2003, at the San Diego Convention Center, San Diego, CA.
Methodology
Patients seeking treatment at Infectious Diseases and
Gastroenterology clinics
at the Eisenhower Medical center participated in this
research. After informed consent was obtained blood was drawn from patients;
DNA was isolated from the blood and used for analysis. Genomic DNA from 26
hepatitis C patients and 318 healthy controls was subjected for PCR analysis
to determine the genotypes of four genes.
Results
In this study, the frequency of the SNP’s of IL1B and
RANTES, a 32bp deletion in CCR5 and CD4 pentanucleotide repeat polymorphisms
was evaluated. The findings were reviewed for association of various
genotypes with respect to disease onset and severity scores, and a
statistical analysis was done.
Out of the four genes studied in patients, only CD4
repeat (p= 0.006) was highly significant with respect to controls. With the
onset of disease relative to age, CD4 (p= 0.02) and IL-B (p= 0.012)
were significant, while CCR5 delta 32mutation showed significance with
severity score (p=0.08). IL-1B and RANTES genes showed positive correlation
(p= 0.04) with pair wise bivariate analysis.
Conclusions
These preliminary findings with CD4 indicate a
correlation between dominant Th1 response and disease activity and
progression suggesting a possible role of intrahepatic CD4 T cells in
hepatic injury of HCV infection. In addition the findings of CCR5, IL1B and
its significant correlation with RANTES suggests their possible roles in the
immune response to HCV infection in and around the portal area by attracting
naïve and active T-cells. This research will continue with the addition of
more genes and the target set numbers of genes are to be pooled to ascertain
the risk.
-end-
The American
Physiological Society (APS) is one of the world’s most prestigious
organizations for physiological scientists. These researchers specialize in
understanding the processes and functions underlying human health and
disease. Founded in 1887 the Bethesda, MD-based Society has more than
10,000 members and publishes 3,800 articles in its 14 peer-reviewed journals
each year.
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Editor’s
Note: For receive a copy of the abstract, or to schedule an interview with a
member of the research team, please contact Donna Krupa at 703.967.2751
(cell), 703.527.7357 (office) or at
djkrupa1@aol.com.
