Chronic Hepatitis c Clinical Trial
Official title:
The Effect Of Direct Acting Antiviral Drugs on miRNA-122 And Insulin Resistance In Chronic HCV Patients
The hepatitis C virus is a major cause of chronic liver diseases, including cirrhosis and
hepatocellular carcinoma, and infects approximately 3 % of the world population (150-170
million). It is estimated that approximately 80 % of patients with acute hepatitis C fail to
eliminate the virus and become chronically infected Hepatitis C virus infection is strongly
associated with the dysregulation of glucose homoeostasis such as insulin resistance and type
2 diabetes. Despite these findings of insulin resistance development via direct effects on
insulin signalling pathway, the complex relationship between intrahepatic Hepatitis C virus
infection and extrahepatic insulin resistance remains elusive.
One of the countries most affected by Hepatitis C virus is Egypt. The Egyptian Demographic
and Health Surveys measured antibody prevalence among the adult population aged 15-59 years
at 10.0% in 2015—substantially higher than global levels.
Several micro ribonucleic acids have been determined to play a key role in regulating viral
replication and pathogenesis during infection. micro ribonucleic acid-122 expression is
enriched in the liver, accounting for approximately 70 % of the total micro ribonucleic acid
population in normal adult hepatocytes. Moreover, a particularly intriguing function of micro
ribonucleic acid-122 involves its role in the Hepatitis C virus replication cycle.
Antagonism of micro ribonucleic acid-122 not only reduces viral replication but also reduces
Hepatitis C virus propagation by decreasing the expression of enzymes involved in lipid
metabolism, which can enhance Hepatitis C virus replication in cell culture models.
The hepatitis C virus (HCV) is an enveloped, single-stranded positive-sense Ribo-Nucleic Acid
virus which is a major cause of chronic liver diseases, including cirrhosis and
hepatocellular carcinoma (HCC), and infects approximately 3 % of the world population(150-170
million).
One of the countries most affected by HCV is Egypt. The Egyptian Demographic and Health
Surveys measured antibody prevalence among the adult population aged 15-59 years at 14.7% in
2009 and at 10.0% in 2015 To attend to this challenge, Egypt developed a national strategy
for Hepatitis C Virus control and established HCV prevention and treatment programs using
Direct Acting-Antivirals (DAAs).
Egypt launched an ambitious national HCV treatment program aiming to treat over 250,000
chronically infected individuals per year, with the goal of achieving a national chronic
infection prevalence of <2% by 2025.
Although the consequences of chronic HCV infection are generally associated with liver
manifestations such as hepatic fibrosis, cirrhosis, steatosis (known as non-alcoholic fatty
liver disease, NAFLD) and HCC, the liver-related mortality of 350,000 individuals annually is
still underestimated due to the lack of consideration of extrahepatic effect including a
growing evidence showing that HCV infection is strongly associated with the dysregulation of
glucose homoeostasis such as insulin resistance (IR) and type 2 diabetes (T2D).
HCV-related type 2 diabetes mellitus may arise from a complex interaction between IR,
steatosis and inflammatory processes People infected with HCV are 4 times more likely to
develop Type 2 Diabetes; and HCV-infected patients with uncontrolled glucose are at higher
risk to develop advanced liver fibrosis, HCC, and exhibit decreased sustained virologic
response (SVR) to traditional interferon treatment.
HCV protein NS5A and the core protein directly inhibit microsomal triglyceride transfer
protein (MTP) activity, thereby reducing very low-density lipoprotein (VLDL) assembly and
inducing hepatic steatosis.
Over time, accumulation of hepatic triglycerides leads to hepatic IR via decreased
insulin-stimulated glycogen synthesis and enhanced hepatic gluconeogenesis; such conditions
further cause peripheral IR in multiple organs through increased circulating insulin and free
fatty acid levels.
Regarding the molecular mechanisms of regulation of insulin signaling by HCV infection. HCV
core protein has been found to increase serine rather than tyrosine phosphorylation of IRS-1
( insulin Receptor Substrate-1) in hepatocytes, resulting in its degradation and impaired
downstream signaling Protien Kinase B signalling pathway.
HCV core protein also stimulates Insulin Receptor Substrate-1 serine phosphorylation via
increasing mTOR (mammalian Target Of Rapamycin)levels, resulting in decreased Protien Kinase
B signaling.
Reduced surface expression of glucose transporters GLUT1 and GLUT2 with consequential
reduction in glucose uptake in HCV-infected hepatocytes has also been reported.
Despite these findings of IR development via direct effects on insulin signaling pathways,
the complex relationship between intrahepatic HCV infection and extrahepatic IR remains
elusive.
Several miRNAs have been determined to play a key role in regulating viral replication and
pathogenesis during HCV infection.
Host miRNAs can be activated by viral integration in the host genome; viral miRNAs can target
host mRNAs, , or host miRNAs can target viral mRNAs.
miR-122 expression is enriched in the liver, accounting for approximately 70 % of the total
miRNA population in normal adult hepatocytes with approximately 66,000 copies per cell.
miR-122 has a role in the HCV replication cycle, where it binds to two target sites (S1 and
S2) in the highly conserved 5' untranslated region of the HCV genome, thus forming a complex
of HCV oligomeric miR-122 that protects the HCV genome from nucleolytic degradation as well
as from the host innate immune response.
Many metabolic processes are potentially targeted by miR-122, including protein metabolism,
carbohydrate metabolism, lipid metabolism and phospholipid metabolism. Signaling pathway
ontology revealed several IR-related pathways [eg insulin/Insulin Growth Factor/Protien
Kinase B signaling, Phosphoinositide 3-Kinase signaling, apoptosis, Epidermal Growth Factor
receptor signaling,G protien-coupled receptors signaling pathway.
Antagonism of miRNA-122 not only reduces viral replication but also reduces HCV propagation
by decreasing the expression of enzymes involved in lipid metabolism, which can enhance HCV
replication in cell culture models.
miR-122 represents an interesting therapeutic target for the treatment of liver disease
including viral hepatitis, fibrosis, steatosis and HCC. Experimental studies have elegantly
demonstrated that a miR-122 inhibitor efficiently reduces viral load in chronically infected
HCV patients without detectable resistance.
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