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Entry Point for Hepatitis C Infection Identified

Entry Point for Hepatitis C Infection Identified

Photo: Liver

The cholesterol receptor offers a promising new target for anti-viral therapy, for which an approved drug may already exist, say the researchers.

An estimated 4.1 million Americans are infected with hepatitis C virus, or HCV, which attacks the liver and leads to inflammation, according to the National Institutes of Health. Most people have no symptoms initially and may not know they have the infection until liver damage shows up decades later during routine medical tests.

Previous studies showed that cholesterol was somehow involved in HCV infection. The UIC researchers suspected that a receptor called NPC1L1, known to help maintain cholesterol balance might also be transporting the virus into the cell.

The receptor is common in the gut of many species - but is found on liver cells only in humans and chimpanzees, says Susan Uprichard of UIC. These primates, she said, are the only animals that can be infected by HCV. Uprichard and her colleagues showed that knocking down or blocking access to the NPC1L1 receptor prevented the virus from entering and infecting cells.

Bruno Sainz of UIC said because the receptor is involved in cholesterol metabolism it was already well-studied. A drug that "specifically and uniquely targets NPC1L1" already exists and is approved for use to lower cholesterol levels, he said.

The FDA-approved drug ezetimibe (sold under the trade-name Zetia) is readily available and perfectly targeted to the receptor, Sainz said, so the researchers had an ideal method for testing NPC1L1's involvement in HCV infection.

They used the drug to block the receptor before, during and after inoculation with the virus, in cell culture and in a small-animal model, to evaluate the receptor's role in infection and the drug's potential as an anti-hepatitis agent.

The researchers showed that ezetimibe inhibited HCV infection in cell culture and in mice transplanted with human liver cells. And, unlike any currently available drugs, ezetimibe was able to inhibit infection by all six types of HCV.

Hepatitis C is the leading cause for liver transplantation in the United States, but infected patients have problems after transplant because the virus attacks the new liver, Uprichard said.

While current drugs are highly toxic and often cannot be tolerated by transplant patients taking immunosuppressant drugs, ezetimibe is quite safe and has been used long-term without harm by people to control their cholesterol, Uprichard said. Because it prevents entry of the virus into cells, ezetimibe may help protect the new liver from infection.

MEDICA.de; Source: University of Illinois at Chicago College of Medicine

 
 

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