World Hepatitis Day
The ASBMB participated in World Hepatitis Day on July 28 by sharing research about the mechanisms and effects of viral hepatitis. World Hepatitis Day is one of the World Health Organization’s eight official global public health campaigns. While advocate groups marked their observances on various dates throughout the years, the WHO picked July 28 in 2010 because the date coincides with the birthday of the late Nobel laureate Baruch Samuel Blumberg, a researcher at the National Institutes of Health who made significant contributions to the study and prevention of hepatitis B.
A good place for us to start
In 2010, the Journal of Biological Chemistry unveiled a thematic series of reviews that showcases advances in understanding the hepatitis C virus. Associate Editor Charles Samuel, who organized the series, notes that two of the authors later shared the for their hepatitis C work.
Using the prism of proteomics
“(P)roteomics is well positioned to continue to make significant contributions to the field of infectious disease research,” according to Ileana Cristea of Princeton University, who organized a special issue of the journal ͵͵ & Cellular Proteomics on infectious disease.The effects of alcohol plus hepatitis B
Studies have shown that damage to the liver affects how the organ creates and clears cholesterol. Studies also have shown that hepatitis B alone and alcohol alone affect cholesterol homeostasis. With those results in mind, a research team in China recently set out to learn more about the combined effects of hepatitis B and alcohol consumption on cholesterol deposition in the liver. They reported their findings in the Journal of Lipid Research.
Hepatitis C and insulin resistance
A French research team exploring the molecular basis by which hepatitis C virus induces diabetes reported recently in the Journal of Biological Chemistry that a canonical signaling pathway is disrupted in the liver of infected mice, impairing glucose uptake and leading to insulin resistance.
Examining the cancer connection
Infection with hepatitis C is a major risk factor for liver cancer. Learn about how viral proteomics informs what we know about oncogenesis .
“A gatekeeper in the pathogenesis of viral hepatitis”
Researchers at the Cleveland Clinic discovered that the core protein of hepatitis C virus depends on the lipid droplet scaffold protein perilipin 3 to form a viral lipid envelope and trigger fatty liver disease.
The role of exosomes in hepatitis B replication
Hepatocytes infected with hepatitis B virus shed exosomes containing viral proteins and RNA. Researchers investigating the content of these exosomes found that they also have higher than usual proteasome content, which may muffle the immune response during infection.
Why grazoprevir is more potent than simeprevir
A paper published in the Journal of Biological Chemistry last year (authored by researchers at the pharmaceutical giant Merck) explored the structural basis for the different potency of two hepatitis C virus protease inhibitors against resistant mutants.
Stopping stealthy hepatitis B
The hepatitis B virus can evade normal immune systems. However, a research team in Japan recently reported in the Journal of Biological Chemistry that there is another way HBV can be cleared -- by using a known cellular pathway for RNA degradation.
Protein interactions of the Flaviviridae family
A review in the journal ͵͵ & Cellular Proteomics on hepatitis C viruses and others in its family surveys the viral life cycle and how proteomics studies have contributed to our knowledge of protein dynamics in hepatitis infection.
Hepatitis C’s protein interaction network
German researchers used fluorescent labeling, flow cytometry and FRET to establish the first protein-protein interaction network in hepatitis C virus proteins. They reported their results in the journal ͵͵ & Cellular Proteomics.
Hepatitis C and cancer pathway mediators
A study published last year in the Journal of Biological Chemistry explored the basis for HCV-induced chronic liver disease, cancer and death. The researchers found that the virus downregulates a regulatory factor (IRF5) involved in signaling pathways. This downregulation has a greater impact on proteins involved in cancer and autophagy than more typical immune system molecules, such as cytokines, which explains the link to cancer.
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