Model of viral lifecycle could help in finding a cure for hepatitis B

August 04, 2014

CAMBRIDGE, MA -- A new technique for studying the lifecycle of the hepatitis B virus could help researchers develop a cure for the disease.

In a paper published today in the journal Proceedings of the National Academy of Sciences, Sangeeta Bhatia of MIT and Charles Rice of Rockefeller University describe using microfabricated cell cultures to sustain hepatitis B virus in human liver cells, allowing them to study immune responses and drug treatments.

Around 400 million people worldwide are infected with the hepatitis B virus (HBV); of those, one-third will go on to develop life-threatening complications, such as cirrhosis and liver cancer.

Although there is an effective HBV vaccine, only around 50 percent of people in some countries where the disease is endemic are vaccinated. A complete cure for the disease is very rare, once someone has been chronically infected.

"Once a liver cell is infected, the viral genome persists inside the nucleus, and that can reactivate later," says Bhatia, the John and Dorothy Wilson Professor of Health Sciences and Technology and Electrical Engineering and Computer Science. "So although we have a vaccine, it's important to find a way to study this persistent form of the virus to try to identify treatments that could efficiently clear it."

'Finicky' Hepatocytes

To develop a treatment for HBV, researchers need to be able to study infected liver cells, known as hepatocytes, so they can understand how the virus interacts with them.

But while researchers have previously been able to infect cultures of human hepatocytes with HBV, the cells' limited lifespan has made it difficult to study the virus, says Bhatia, who is also a Howard Hughes Medical Institute investigator and a member of MIT's Koch Institute for Integrative Cancer Research and Institute for Medical Engineering and Science.

"That's because the hepatocyte -- the main cell in the liver -- is unstable," she says. "It's a very finicky cell, and when you isolate it from the liver and try to culture it under conventional conditions, it rapidly loses its repertoire of liver functions."

So the team set out to develop a technique to keep the liver cells stable and functioning long enough to monitor their response to the virus and antiviral drugs.

They based their approach on a system they had previously developed for studying the hepatitis C virus, in which they were able to successfully infect human hepatocytes with the virus and use it to compare antiviral regimens.

The hepatocytes are first patterned onto surfaces dotted with tiny spots of collagen, and then surrounded by supportive tissue made up of stromal cells, which act as connective tissue and support the hepatocytes in carrying out their liver functions.

Two Complementary Systems

To apply the technique to infection with HBV, the researchers developed two complementary systems. One uses primary hepatocytes obtained from livers donated for transplant; the second uses stem cells derived from human skin samples and guided into hepatocyte-like cells, Bhatia says.

When they compared the relative merits of the two systems, they found that the primary liver cells had a stronger immune response when infected with the virus than the stem cell progeny. However, unlike the primary hepatocytes, the hepatocyte-like cells offer an unlimited supply of test cells, since the researchers can simply grow more as required, Bhatia says.

"But that being said, both systems were able to grow this persistent nuclear form [of HBV], so we think they offer complementary tools," she says.

To investigate whether the cell cultures could be used to test new treatments for the disease, the researchers monitored their response to two existing drugs. They found that the infected cultures responded to the drugs in the same way that liver cells inside the body are known to do. This means the systems could be used to help predict how effective new treatments will be in eradicating the virus from liver cells, Bhatia says.

Having developed the technique, the researchers now plan to begin using it to investigate new treatments for HBV. They also plan to use the model to study liver cells' natural antiviral response in more detail, and in particular to try to understand why cells from different donors have different immune responses to the disease.
-end-
The paper's lead authors are Amir Shlomai of Rockefeller University, and graduate student Vyas Ramanan and former postdoc Robert E. Schwartz, both of MIT.

Release written by Helen Knight, MIT News Office

Massachusetts Institute of Technology

Related Hepatitis Articles from Brightsurf:

Busting Up the Infection Cycle of Hepatitis B
Researchers at the University of Delaware have gained new understanding of the virus that causes hepatitis B and the ''spiky ball'' that encloses its genetic blueprint.

Liver cancer: Awareness of hepatitis D must be raised
Scientists from the University of Geneva (UNIGE) and the Geneva University Hospitals (HUG) have studied the most serious consequence of chronic hepatitis: hepatocellular carcinoma.

Hepatitis B: New therapeutic approach may help to cure chronic hepatitis B infection
Researchers at Helmholtz Zentrum München, Technical University of Munich (TUM) and the German Center for Infection Research (DZIF) have developed a novel therapeutic approach to cure chronic hepatitis B.

Anti-hepatitis medicine surprises
A new effective treatment of hepatitis C not only combats the virus, but is also effective against potentially fatal complications such as reduced liver functioning and cirrhosis.

Nanotechnology delivers hepatitis B vaccine
X-ray imaging shows that nanostructured silica acts as a protective vehicle to deliver intact antigen to the intestine so that it can trigger an immune response.

Checkmate for hepatitis B viruses in the liver
Researchers at Helmholtz Zentrum München and the Technical University of Munich, working in collaboration with researchers at the University Medical Center Hamburg-Eppendorf and the University Hospital Heidelberg, have for the first time succeeded in conquering a chronic infection with the hepatitis B virus in a mouse model.

How common is Hepatitis C infection in each US state?
Hepatitis C virus infection is a major cause of illness and death in the United States and injection drug use is likely fueling many new cases.

New strains of hepatitis C found in Africa
The largest population study of hepatitis C in Africa has found three new strains of the virus circulating in the general population in sub-Saharan Africa.

High stability of the hepatitis B virus
At room temperature, hepatitis B viruses (HBV) remain contagious for several weeks and they are even able to withstand temperatures of four degrees centigrade over the span of nine months.

Findings could lead to treatment of hepatitis B
Researchers have gained new insights into the virus that causes hepatitis B -- a life-threatening and incurable infection that afflicts more than 250 million people worldwide.

Read More: Hepatitis News and Hepatitis Current Events
Brightsurf.com is a participant in the Amazon Services LLC Associates Program, an affiliate advertising program designed to provide a means for sites to earn advertising fees by advertising and linking to Amazon.com.