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Clue found to Epstein-Barr virus' ability to form and sustain tumors
September 06, 2006MADISON-Researchers at the University of Wisconsin School of Medicine and Public Health (SMPH) have found a viral target that opens the door for the development of drugs to destroy tumors caused by Epstein-Barr virus (EBV).
The finding, published in the Sept. 4 Proceedings of the National Academy of Sciences Online, identifies the activity of a critical segment of a viral protein required to sustain EBV-related tumors. The researchers found that when they blocked this activity, the virus life cycle was broken.
Often linked to infectious mononucleosis, EBV also causes cancers that kill 100,000 people around the world each year. The virus, which infects the immune system's B cells and causes them to grow, is directly responsible for Burkitt's lymphoma, an often-fatal malignancy affecting thousands of African children annually. It is also causally associated with at least four other kinds of human cancers, including Hodgkin's lymphomas, lymphomas in AIDS patients and organ transplant recipients as well as nasopharyngeal carcinomas.
The SMPH researchers, based at the McArdle Laboratory for Cancer Research, focused on a viral protein they had previously found to be necessary to keeping Burkitt's lymphoma cells alive and growing in culture. The protein, called Epstein-Barr nuclear antigen 1 (EBNA-1), is the only protein the virus makes in all EBV-positive tumors.
"We've been trying to identify specific functions of EBNA-1 that we could target therapeutically," says Bill Sugden, professor of oncology who has studied EBV for more than 30 years. "Our goal is to develop a successful anti-viral, anti-tumor therapy for all EBV-positive tumors."
In the current study, Sugden and his colleague of 20 years, Wolfgang Hammerschmidt, now based at the German National Research Center for Environment and Health, designed genetic experiments to mutate various segments of the 640 amino acids that make up the EBNA-1 protein, which is one of about 100 proteins EBV encodes. They then infected human B cells with EBVs carrying various mutant EBNA-1s.
The analysis showed that one 25-amino acid segment within EBNA-1 was responsible for the regulation of viral gene transcription, the first step in the process by which a gene's coded information is converted first into RNA and then into protein.
Mutating the unique segment of amino acids prevented EBNA-1 from transforming resting B cells into proliferating cells.
Under normal conditions, a cellular protein binds this 25-amino acid segment of EBNA-1, allowing transcription of viral and cellular genes regulated by EBNA-1 to occur. Hammerschmidt and Sugden are now trying to identify the cellular protein.
"If we can identify this protein, it will be easier for us to develop assays to screen for small molecules that will compete with the protein in binding to EBNA-1," Sugden says. "By preventing the cellular protein from binding with the segment, EBNA-1 will not be able to carry out its function and the tumor cells it sustains will die."
The goal, which Sugden expects is achievable, is to end up with a drug that kills only EBV-positive tumor cells and doesn't harm other tissues in the body.
University of Wisconsin-Madison
The SMPH researchers, based at the McArdle Laboratory for Cancer Research, focused on a viral protein they had previously found to be necessary to keeping Burkitt's lymphoma cells alive and growing in culture. The protein, called Epstein-Barr nuclear antigen 1 (EBNA-1), is the only protein the virus makes in all EBV-positive tumors.
"We've been trying to identify specific functions of EBNA-1 that we could target therapeutically," says Bill Sugden, professor of oncology who has studied EBV for more than 30 years. "Our goal is to develop a successful anti-viral, anti-tumor therapy for all EBV-positive tumors."
In the current study, Sugden and his colleague of 20 years, Wolfgang Hammerschmidt, now based at the German National Research Center for Environment and Health, designed genetic experiments to mutate various segments of the 640 amino acids that make up the EBNA-1 protein, which is one of about 100 proteins EBV encodes. They then infected human B cells with EBVs carrying various mutant EBNA-1s.
The analysis showed that one 25-amino acid segment within EBNA-1 was responsible for the regulation of viral gene transcription, the first step in the process by which a gene's coded information is converted first into RNA and then into protein.
Mutating the unique segment of amino acids prevented EBNA-1 from transforming resting B cells into proliferating cells.
Under normal conditions, a cellular protein binds this 25-amino acid segment of EBNA-1, allowing transcription of viral and cellular genes regulated by EBNA-1 to occur. Hammerschmidt and Sugden are now trying to identify the cellular protein.
"If we can identify this protein, it will be easier for us to develop assays to screen for small molecules that will compete with the protein in binding to EBNA-1," Sugden says. "By preventing the cellular protein from binding with the segment, EBNA-1 will not be able to carry out its function and the tumor cells it sustains will die."
The goal, which Sugden expects is achievable, is to end up with a drug that kills only EBV-positive tumor cells and doesn't harm other tissues in the body.
University of Wisconsin-Madison
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Immunotherapy demonstrates long-term success in treating lymphoma
Targeted immunotherapy has been an attractive new therapeutic area for a number of cancers because it has the potential to destroy tumor cells without damaging surrounding normal tissue. New study results demonstrate high success rates using specialized white blood cells to prevent or treat lymphoma associated with the Epstein-Barr virus (EBV-lymphoma) in patients who have received a hematopoietic stem cell transplant (HSCT).
Rare head and neck cancer linked to HPV, study finds
An increase in cases of a rare type of head and neck cancer appears to be linked to HPV, or human papillomavirus, according to a new study from researchers at the University of Michigan Comprehensive Cancer Center.
UCSF researchers identify new drug target for Kaposi's Sarcoma
UCSF researchers have identified a new potential drug target for the herpes virus that causes Kaposi's sarcoma, re-opening the possibility of using the class of drugs called protease inhibitors against the full herpes family of viruses, which for 20 years has been deemed too difficult to attain.
Epstein-Barr Virus May Be Associated with Progression of MS
Epstein-Barr virus (EBV), the pathogen that causes mononucleosis, appears to play a role in the neurodegeneration that occurs in persons with multiple sclerosis, researchers at the University at Buffalo and the University of Trieste, Italy, have shown.
Varicella zoster infection causes severe autoimmune hepatitis
Autoimmune hepatitis (AIH) is a chronic liver inflammation of unknown etiology that is characterized by the presence of circulatory autoantibodies and ongoing liver tissue damage.
OHSU finds association between Epstein-Barr virus, inflammatory diseases of the mouth
Researchers at Oregon Health & Science University's School of Dentistry (www.ohsu.edu/sod) have found that a significant percentage of dental patients with the inflammatory diseases irreversible pulpitis and apical periodontitis also have the Epstein-Barr virus.
A double-barreled immune cell approach for neuroblastoma
Adding an artificial tumor-specific receptor to immune system cells called T-lymphocytes that target a particular virus extended and improved the cells' ability to fight a form of childhood cancer called neuroblastoma, said researchers form Baylor College of Medicine and Texas Children's Hospital in a report that appears online today in the journal Nature Medicine.
NIH scientists discover crucial control in long-lasting immunity
National Institutes of Health (NIH) scientists have identified a protein that plays matchmaker between two key types of white blood cells, T and B cells, enabling them to interact in a way that is crucial to establishing long-lasting immunity after an infection.
U of T researchers reveal Epstein-Barr virus protein contributes to cancer
Researchers at the University of Toronto have discovered that the EBNA1 protein of Epstein-Barr virus (EBV) disrupts structures in the nucleus of nasopharyngeal carcinoma (NPC) cells, thereby interfering with cellular processes that normally prevent cancer development.
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