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Mayo Clinic identifies treatment target for liver cancer recurrence and survival
April 11, 2008ROCHESTER, Minn. -- Deadly and difficult to treat, liver cancer has long resisted attempts by researchers to develop ways to prolong life and prevent recurrence. But Mayo Clinic Cancer Center, in collaboration with the National Cancer Institute, reports in the April issue of Hepatology that the protein sulfatase 2 (SULF2) may provide one of the keys needed to begin the design of new therapies.
Mayo Clinic Cancer Center leads the field in researching the impact and effect of SULF1, a protein whose normal role is to degrade heparin sulfate proteoglycans -- molecules that are part sugar and part protein. Mayo scientists have found that the protein also helps inhibit tumor growth. Now, Mayo researchers are studying a related gene, SULF2. The role of the SULF2 gene and protein has not been fully defined, but in this study, researchers investigated the effect of SULF2 on liver tumor growth in the laboratory. They found that increased expression of SULF2 enhances cancer cell growth and migration, whereas decreased expression reduces both.
"The liver is designed to excrete toxins, and its tumors are no exception," says Mayo Clinic gastroenterologist Lewis Roberts, M.B.Ch.B., Ph.D., the study's primary investigator. "Our problem is that the tumors tend to excrete chemotherapeutic agents rather than be affected by them. So we are looking for ways to get around that."
The researchers sought answers by examining a protein related to one they already knew had a role in suppressing liver tumors. SULF1 and SULF2 are similar proteins, but cause opposing results. SULF1 removes sulfate groups that allow growth factors to bind to cells, thus inhibiting growth. The investigators found that SULF2 did the opposite -- it increased binding of a specific growth factor, fibroblast growth factor 2 (FGF2), to tumor cells, and also increased expression of the heparan sulfate proteoglycan glypican 3 (GPC3), which plays an important role in cell division and growth. These findings were confirmed in mouse models.
This discovery indicates if scientists can decrease the levels or activity of SULF2 in a tumor, they might be able to stop its development. Mayo researchers are exploring use of an agent that mimics heparin and inhibits SULF2. They are also examining whether preventing heparin sulfate synthesis would inhibit tumor growth.
"If something has a very broad effect on signaling by growth factors, it may lead to an effective treatment," says Jinping Lai, M.D., Ph.D., a Mayo oncology researcher and the lead author of the study. "SULF2 has a number of characteristics that make it an attractive target, such as the fact that it is widely present in tumors. We are exploring a number of options with SULF2 as a focal point for treatment not only in liver cancer, but also in head and neck, pancreas, breast and other types of cancer."
The researchers hope to identify drugs that block SULF2, and seek to thoroughly understand the mechanisms involved, including the determination of what other growth signaling pathways are affected by SULF2. They are also looking further at GPC3 as a potential biomarker for liver cancer or as a possible therapeutic target.
In 2007, Dr. Lai presented information at the annual meeting of the American Association for Cancer Research on the role of SULF2 in survival of patients with head and neck cancer -- the first concrete link to survival of patients with a specific tumor type.
Mayo Clinic
The researchers sought answers by examining a protein related to one they already knew had a role in suppressing liver tumors. SULF1 and SULF2 are similar proteins, but cause opposing results. SULF1 removes sulfate groups that allow growth factors to bind to cells, thus inhibiting growth. The investigators found that SULF2 did the opposite -- it increased binding of a specific growth factor, fibroblast growth factor 2 (FGF2), to tumor cells, and also increased expression of the heparan sulfate proteoglycan glypican 3 (GPC3), which plays an important role in cell division and growth. These findings were confirmed in mouse models.
This discovery indicates if scientists can decrease the levels or activity of SULF2 in a tumor, they might be able to stop its development. Mayo researchers are exploring use of an agent that mimics heparin and inhibits SULF2. They are also examining whether preventing heparin sulfate synthesis would inhibit tumor growth.
"If something has a very broad effect on signaling by growth factors, it may lead to an effective treatment," says Jinping Lai, M.D., Ph.D., a Mayo oncology researcher and the lead author of the study. "SULF2 has a number of characteristics that make it an attractive target, such as the fact that it is widely present in tumors. We are exploring a number of options with SULF2 as a focal point for treatment not only in liver cancer, but also in head and neck, pancreas, breast and other types of cancer."
The researchers hope to identify drugs that block SULF2, and seek to thoroughly understand the mechanisms involved, including the determination of what other growth signaling pathways are affected by SULF2. They are also looking further at GPC3 as a potential biomarker for liver cancer or as a possible therapeutic target.
In 2007, Dr. Lai presented information at the annual meeting of the American Association for Cancer Research on the role of SULF2 in survival of patients with head and neck cancer -- the first concrete link to survival of patients with a specific tumor type.
Mayo Clinic
Liver Cancer Current Events and Liver Cancer News RSSResearchers Identify Role of Gene in Tumor Development, Growth and Progression
Virginia Commonwealth University Massey Cancer Center and VCU Institute of Molecular Medicine researchers have identified a gene that may play a pivotal role in two processes that are essential for tumor development, growth and progression to metastasis.
Toward explaining why hepatitis B hits men harder than women
Scientists in China are reporting discovery of unusual liver proteins, found only in males, that may help explain the long-standing mystery of why the hepatitis B virus (HBV) sexually discriminates -- hitting men harder than women.
Largest-ever database for liver proteins may lead to treatments for hepatitis
Scientists at a group of 11 research centers in China are reporting for the first time assembly of the largest-ever collection of data about the proteins produced by genes in a single human organ.
1 disease, not 1 demographic
The Asian continent has nearly four billion people living in 47 different countries, and each of these groups has their own unique set of health issues. But when they come to the United States, they're often lumped into one large demographic: "Asian/Pacific Islander."
Parasite growth hormone pushes human cells to liver cancer
Scientists have found that the human liver fluke (Opisthorchis viverrini) contributes to the development of bile duct (liver) cancer by secreting granulin, a growth hormone that is known to cause uncontrolled growth of cells.
Certain cancers more common among HIV patients than non-HIV patients
Researchers at UT Southwestern Medical Center have found that non-AIDS-defining malignancies such as anal and lung cancer have become more prevalent among HIV-infected patients than non-HIV patients since the introduction of anti-retroviral therapies in the mid-1990s.
Discovery could improve hepatitis C treatment
Walter and Eliza Hall Institute researchers are part of an international team that has discovered a genetic variation that could identify those people infected with hepatitis C who are most likely to benefit from current treatments.
Sorafenib significantly improves the length of time before breast cancer worsens
ne of the first of a series of trials to investigate the use of sorafenib - a targeted anti-cancer drug - for the treatment of advanced breast cancer has found that if it is combined with the chemotherapy drug, capecitabine, it makes a significant difference to the time women live without their disease worsening.
Penn State College of Medicine research isolates liver cancer stem cells prior to tumor formation
Penn State College of Medicine researchers, in collaboration with colleagues at the University of Southern California, have taken an important step in understanding the role of stem cells in development of liver cancer.
New biomarker predicts response to hepatitis C treatment
Researchers have identified the first genetic marker that predicts response to hepatitis C treatments, and a single letter of DNA code appears to make a huge difference.
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