Tuesday, May 29, 2012

Asian Cancer Research Group and BGI Report Findings from Genomics Research on Recurrent Hepatitis B Virus Integration, A Major Cause of Liver Cancer


May 29, 2012, 9:00 a.m. EDTNew Data Published Online in Nature Genetics Informs Future Diagnosis and Drug Discovery for the Most Common Form of Liver Cancer-  SHENZHEN, China, May 29, 2012 /PRNewswire via COMTEX/ -- The Asian Cancer Research Group (ACRG)--an independent, not-for-profit company established by Eli Lilly and Company, Merck (known as MSD outside the United States and Canada) and Pfizer Inc.--in collaboration with BGI--the world's largest genomics organization--today announced the publication of results from a whole genome-wide study of recurrent hepatitis B virus (HBV) integration in hepatocellular carcinoma (HCC) in Nature Genetics. Results from this first-of-its-kind study provide important insights that may be used to improve diagnosis and treatment of HCC, the most common form of liver cancer worldwide."This study provided new insight into mechanisms of HBV integration, which promote liver cancer and affect clinical outcomes," said Dr. Ken Sung, lead author of the publication, National University of Singapore (NUS) and Honorary Associate Professor of Hong Kong University (HKU). "We expect further investigation may lead to improved diagnosis and treatment of HCC."HBV integration is thought to be one of the major causes of HCC and research has shown that the DNA of HBV could integrate into a host genome in such a manner as to induce chromosomal instability (a defining characteristic of most human cancers) or alter expression and function of endogenous genes. Previous studies of HBV integration into the HCC genome have been limited by technological hurdles and relatively small sample sizes.In this study, ACRG, BGI and other collaborators carried out whole-genome sequencing in a large sample cohort of Chinese patients with HCC to characterize genome integration patterns and determine the prevalence of integrated HBV. Through the sequencing and analysis, researchers found that HBV integration is a common event in liver tumors and was observed more frequently in tumors (86.4 percent) than in adjacent normal liver tissues (30.7 percent). In addition to the previously reported TERT and MLL4 genes, researchers discovered three novel genes (CCNE1, SENP5 and ROCK1) associated with recurrent HBV integrations, each of which are known to play an important role in cancer development and progression."This study is of great interest to the scientific community, which is working toward better understanding HBV integration in HCC," said Hancheng Zheng, Primary Investigator of this project at BGI. "Based on these results, we can better explore the detailed molecular mechanism and clinical impact of HBV integration, promoting the discovery and development of future liver cancer treatments."Researchers also observed that the number of HBV integration events (recurrences) is positively associated with the tumor size, serum HBsAg and a-fetoprotein level. Patients with no or low numbers (n<3) of detected HBV integrations in their tumor survived longer than those with a high number of HBV integrations (n>3), suggesting that HBV integration events are a negative prognostic indicator in HCC patients."A deep understanding of the recurring HBV insertions in HCC will help the research community identify novel molecular targets in liver cancer, for which effective treatments are still limited," said John Luk, Honorary Professor of HKU, Adjunct Professor of NUS and IMCB, Head of Oncology, Roche Shanghai.The researchers indicated that HBV integrations have some characteristics that may help the virus to control specific genes in the host tumor. They found HBV integration sites are typically found close to or inside of the targeted genes, which may be a mechanism for HBV to control the expression of some oncogenes or tumor suppressor genes. More than 40 percent of the integrations were observed to break the HBV genome at position 1,800 and integrate into the human genome. This may be due to the fact that the HBV enhancer and the HBV ORF replication sites are found at this locus. Moreover, they observed that HBV integrations correlated with increased DNA copy number around HBV integration breakpoints, which provides evidence that HBV integration initializes the chromosomal instability of the HCC genome."Molecular characterization of these tumors in a relatively large patient population ultimately provides the basis for more targeted and effective medicines, and will lead to improved outcomes for liver cancer patients," said Christoph Reinhard, Ph.D., Director of the Board of ACRG, and Senior Director, Oncology Translational Science, Eli Lilly and Company. "The ACRG was established to fuel research directed towards improving our understanding of cancers affecting Asian populations. This study underscores that in a short period of time, by working together, we are able to generate important evidence that can be further investigated in the fight against liver cancer."In addition to the ACRG and BGI, scientists from University of Hong Kong (China), NUS (Singapore), National University of Health System (Singapore) and Genome Institute of Singapore, among others, contributed to this study.

About Hepatocellular Carcinoma (HCC)HCC has become one of the most common solid tumors worldwide due to the high exposure of people to hepatitis viruses. With 695,000 deaths attributed to HCC in 2008, the disease is considered to be a serious global health problem by the World Health Organization (WHO). HBV, transmitted by blood or body fluids, is up to 100 times more infectious than human immunodeficiency virus (HIV) and individuals who carry HBV have a greater than 100-fold increased relative risk of developing HCC.

About the Asian Cancer Research Group, Inc. (ACRG)Formed in 2010, ACRG is an independent, not-for-profit company established jointly by Eli Lilly and Company, MSD (known as Merck in the United States and Canada), and Pfizer Inc. to accelerate research and ultimately improve treatment for patients affected with the most commonly-diagnosed cancers in Asia. The goal of ACRG is to improve the knowledge of cancers prevalent in Asia by freely sharing data generated by the ACRG with the scientific community in order to accelerate drug discovery efforts. This collaboration exemplifies a model in which large pharmaceutical companies combine their resources and expertise to more rapidly increase knowledge in the scientific community of underserved diseases with the hope of enabling the discovery of more effective therapies for patients. ACRG is focusing its initial efforts on Asian liver, gastric and lung cancers.

About BGIBGI was founded in Beijing, China, in 1999 with the mission to become a premier scientific partner for the global research community. The goal of BGI is to make leading-edge genomic science highly accessible, which it achieves through its investment in infrastructure, leveraging the best available technology, economies of scale and expert bioinformatics resources. BGI, and its affiliates--BGI Americas, headquartered in Cambridge, MA, and BGI Europe, headquartered in Copenhagen, Denmark--have established partnerships and collaborations with leading academic and government research institutions as well as global biotechnology and pharmaceutical companies, supporting a variety of disease, agricultural, environmental and related applications.BGI has a proven track record of excellence, delivering results with high efficiency and accuracy for innovative, high-profile research; research that has generated over 170 publications in top-tier journals such as Nature and Science. BGI's many accomplishments include: sequencing one percent of the human genome for the International Human Genome Project, contributing 10 percent to the International Human HapMap Project, carrying out research to combat SARS and German deadly E. coli, playing a key role in the Sino-British Chicken Genome Project, and completing the sequence of the rice genome, the silkworm genome, the first Asian diploid genome, the potato genome, and, more recently, have sequenced the human Gut Metagenome and a significant proportion of the genomes for the 1000 Genomes Project. 

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