Public release date: 2-Apr-2011
Contact: Travis Taylor
easlpressoffice@cohnwolfe.com
44-784-306-9451
European Association for the Study of the Liver
First new hepatitis B and D treatment for many years
Berlin, Germany, Saturday 02 April 2011: Promising new viral hepatitis data presented today at the International Liver CongressTM show that entry inhibitors --a new mechanism of action for drugs to treat viral hepatitis -- could provide the first new hepatitis B and hepatitis D treatments for many years.1,2
Most current approved therapies directly target viral replication (e.g. nucleotide/side analogues), and can lead to the development of viral resistance or viral rebound after the end of treatment. Entry inhibitors prevent the virus from entering the cell and forming a stable replication complex, limiting the issue of viral rebound and resistance development.
Professor Heiner Wedemeyer, EASL's Secretary General, commented: "The current treatments available for hepatitis B & D are limited. These novel drugs are the first promising treatments for many years. The shift in the mechanism of action of these drugs from inhibiting the virus's replication directly to inhibiting its entry into the cell, and thus its replication – means they are less likely to produce viral resistance; a huge problem faced by many of today's clinicians."
One study1 showed that treatment of ex-vivo liver cells with synthetic anti-lipopolysaccharide peptides (SALPs) during and prior to HBV infection was highly effective and dose dependent in inhibiting infection – reducing markers of HBV infection (e.g. HBV RNA, HBV antigens) in the concentration range of 4-5 µg/mL by 90% and 0.5-2 µg/mL by 50%.
The study also demonstrated that SALPs showed activity against other viral (e.g. HIV, herpes) and microbial (e.g. peritonitis, colitis and pneumonia) infections. Therefore, SALPs represent a very promising therapeutic strategy to treat viral hepatitis infection and concomitant bacterial infection – which often leads to life threatening systematic complications.
Other studies2,3 illustrated the enormous value of the chimaeric mouse model of chronic HBV and HDV infection for the preclinical evaluation of antiviral drugs. The study demonstrated that the HBV entry inhibitor Myrcludex-B was able to completely block the spread of HBV from cell to cell and to prevent de-novo HDV infection of human hepatocytes.
Professor Wedemeyer commented: "Although there are 35 million people around the world with HDV infection there is currently little to offer them therapeutically. I am therefore delighted to see these new drug developments."
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Notes to Editors
About EASL
EASL is the leading European scientific society involved in promoting research and education in hepatology. EASL attracts the foremost hepatology experts and has an impressive track record in promoting research in liver disease, supporting wider education and promoting changes in European liver policy.
EASL's main focus on education and research is delivered through numerous events and initiatives, including:
• The International Liver CongressTM which is the main scientific and professional event in hepatology worldwide
• Meetings including Monothematic and Special conferences, Post Graduate courses and other endorsed meetings that take place throughout the year
• Clinical and Basic Schools of Hepatology, a series of events covering different aspects in the field of hepatology
• Journal of Hepatology published monthly
• Participation in a number of policy initiatives at European level
About The International Liver CongressTM 2011
The International Liver Congress™ 2011, the 46th annual meeting of the European Association for the study of the Liver, is being held at the Internationales Congress Centrum, Berlin, Germany from March 30 – April 3, 2011. The congress annually attracts over 7,500 clinicians and scientists from around the world and provides an opportunity to hear the latest research, perspectives and treatments of liver disease from principal experts in the field.
References
1. Lucifora J et al. Novel peptide-based microbiocides inhibiting hepatitis b virus entry by preventing virus interaction with the cell surface. Abstract presented at The International Liver CongressTM 2011. http://www1.easl.eu/easl2011/program/Orals/338.htm
2. Lutgehetmann M et al. Block of hepatitis delta infection by the entry inhibitor myrcludex b in upa mice: establishment of an efficient mouse model for human HBV/HDV infection. Abstract presented at The International Liver CongressTM 2011. http://www1.easl.eu/easl2011/program/Orals/390.htm
3. Ben M et al. Administration of the entry inhibitor Myrcludex-B after establishment of Hepatitis B Virus infection prevents viral spreading among human hepatocytes in uPA mice. Abstract presented at The International Liver CongressTM 2011. http://www1.easl.eu/easl2011/program/Orals/337.htm
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