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Research suggests new treatment suitable for all patients
January 02, 2008WINSTON-SALEM, N.C. -- New research at Wake Forest University Baptist Medical Center suggests that a three-drug cocktail may one day improve outcomes in patients with glioblastoma multiforme (GBM), a type of brain tumor with a dismal prognosis. Two of the drug candidates have been developed, and the team is working on the third -- all targeted to kill or impair cancer cells and spare healthy brain.
Waldemar Debinski, M.D., Ph.D., senior researcher and director of the Wake Forest Brain Tumor Center of Excellence, predicts that the cocktail could be tested in patients within five years.
The treatment would be based on the first-ever documented "molecular signature" of GBM tumors. The researchers had previously reported that three different proteins are found in high levels individually in these cancers. In the current study, reported in Clinical Cancer Research, they examined 76 specimens of brain tumor, including 46 GBMs, and nine normal brain samples, to determine how frequently the markers appeared together.
Expression of all three markers was significantly higher in GBM tissue compared to normal brain and to brain tumors that aren't as aggressive as GBM. Particularly important was that all GBM tumors had at least one of the markers present and 95 percent of tumors had at least two.
"This finding offers a unique opportunity for treatment," said Debinski. "Without any pre-therapy testing, we would know for sure that at least one of these targets is highly present in each patient and that the patient is suitable for the combination of off-the-shelf drugs. It is like having a crystal ball."
In a recent issue of Molecular Cancer Therapeutics, the researchers reported developing a potent treatment targeted to one of the proteins (EphA2). In addition, a drug targeted to a second protein, interleukin 13 receptor alpha 2 (IL-13R��2), is already being tested alone in a phase 3 clinical trial. In this trial, the second protein is showing significant benefits to patients, and newer generations are in development. The team is working to develop a drug to target a third marker (Fra-1).
GBM tumors are often resistant to current treatments, including chemotherapy and radiation therapy. The mean survival rate of patients with GBM is about 14 months and has improved only slightly over the past decades.
"Developing molecularly targeted therapies using genetically engineered bacterial toxins represents an attractive option that may improve outcomes," said Debinski.
The fact that the three markers were not found in healthy brain tissue suggests that the proteins are highly suited as targets for therapies designed to kill cancer cells and spare healthy brain tissue. In Molecular Cancer Therapeutics, the team reported success creating a drug to kill cancer cells that have high levels of EphA2. The drug, which would be delivered by catheters directly to the tumor, was created by chemically linking a protein that binds to EphA2 with a modified bacterial toxin.
In the laboratory, the treatment potently killed all of the over-expressing EphA2 cells within 48 hours. It was also effective at reducing tumors in mice. The researchers compared the treatment's potency to the drug Debinski had previously developed to target cells that express IL-13R��2.
"Both were extremely effective and highly potent," said Debinski. "Some of the tumor cells responded to the IL-13 cytotoxin, some responded to EphA2-targeted cytotoxin and some responded to both. This illustrates why we need a cocktail to cover as many patients as possible."
He said this combination treatment might also apply to breast, pancreas and prostate cancers, which also have high levels of these proteins.
The third marker, Fra-1, is believed to control the malignant features of brain tumor cells, such as the development new blood vessels to "feed" the tumor.
An additional benefit of targeting the three proteins is that the drug cocktail affects targets residing in the GBM cellular signaling pathways, including a pathway (epidermal growth factor receptor vIII) that is known to control the expression of all three proteins. These pathways are known to be important in tumor progression.
"With the drug cocktail we may be taking care of cancer cells that are really important for tumor survival," said Debinski. "It may be the best of two worlds."
Wake Forest University Baptist Medical Center
Expression of all three markers was significantly higher in GBM tissue compared to normal brain and to brain tumors that aren't as aggressive as GBM. Particularly important was that all GBM tumors had at least one of the markers present and 95 percent of tumors had at least two.
"This finding offers a unique opportunity for treatment," said Debinski. "Without any pre-therapy testing, we would know for sure that at least one of these targets is highly present in each patient and that the patient is suitable for the combination of off-the-shelf drugs. It is like having a crystal ball."
In a recent issue of Molecular Cancer Therapeutics, the researchers reported developing a potent treatment targeted to one of the proteins (EphA2). In addition, a drug targeted to a second protein, interleukin 13 receptor alpha 2 (IL-13R��2), is already being tested alone in a phase 3 clinical trial. In this trial, the second protein is showing significant benefits to patients, and newer generations are in development. The team is working to develop a drug to target a third marker (Fra-1).
GBM tumors are often resistant to current treatments, including chemotherapy and radiation therapy. The mean survival rate of patients with GBM is about 14 months and has improved only slightly over the past decades.
"Developing molecularly targeted therapies using genetically engineered bacterial toxins represents an attractive option that may improve outcomes," said Debinski.
The fact that the three markers were not found in healthy brain tissue suggests that the proteins are highly suited as targets for therapies designed to kill cancer cells and spare healthy brain tissue. In Molecular Cancer Therapeutics, the team reported success creating a drug to kill cancer cells that have high levels of EphA2. The drug, which would be delivered by catheters directly to the tumor, was created by chemically linking a protein that binds to EphA2 with a modified bacterial toxin.
In the laboratory, the treatment potently killed all of the over-expressing EphA2 cells within 48 hours. It was also effective at reducing tumors in mice. The researchers compared the treatment's potency to the drug Debinski had previously developed to target cells that express IL-13R��2.
"Both were extremely effective and highly potent," said Debinski. "Some of the tumor cells responded to the IL-13 cytotoxin, some responded to EphA2-targeted cytotoxin and some responded to both. This illustrates why we need a cocktail to cover as many patients as possible."
He said this combination treatment might also apply to breast, pancreas and prostate cancers, which also have high levels of these proteins.
The third marker, Fra-1, is believed to control the malignant features of brain tumor cells, such as the development new blood vessels to "feed" the tumor.
An additional benefit of targeting the three proteins is that the drug cocktail affects targets residing in the GBM cellular signaling pathways, including a pathway (epidermal growth factor receptor vIII) that is known to control the expression of all three proteins. These pathways are known to be important in tumor progression.
"With the drug cocktail we may be taking care of cancer cells that are really important for tumor survival," said Debinski. "It may be the best of two worlds."
Wake Forest University Baptist Medical Center
Glioblastoma Multiforme Current Events and Glioblastoma Multiforme 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.
Cancer metabolism discovery uncovers new role of IDH1 gene mutation in brain cancer
Agios Pharmaceuticals today announced that its scientists have established, for the first time, that the mutated IDH1 gene has a novel enzyme activity consistent with a cancer-causing gene, or oncogene.
Toward a nanomedicine for brain cancer
In an advance toward better treatments for the most serious form of brain cancer, scientists in Illinois are reporting development of the first nanoparticles that seek out and destroy brain cancer cells without damaging nearby healthy cells.
NIH researchers identify key factor that stimulates brain cancer cells to spread
Researchers funded by the National Institutes of Health have found that the activity of a protein in brain cells helps stimulate the spread of an aggressive brain cancer called glioblastoma multiforme (GBM).
STAT3 Gene Regulates Cancer Stem Cells in Brain Cancer
In a study published online in advance of print in Stem Cells, Tufts researchers report that the STAT3 gene regulates cancer stem cells in brain cancer. Cancer stem cells have many characteristics of stem cells and are thought to be the cells that drive tumor formation.
Sensitizing tumor response to cancer therapy
Two forms of skin and brain cancer respond very poorly to chemotherapy and radiation: melanoma and glioblastoma multiforme brain cancer.
Variations in 5 genes raise risk for most common brain tumors
Common genetic variations spread across five genes raise a person's risk of developing the most frequent type of brain tumor, an international research team reports online in Nature Genetics.
Study identifies biomarker that safely monitors tumor response to new brain cancer treatment
A specific biomarker, a protein released by dying tumor cells, has been identified as an effective tool in an animal model to gauge the response to a novel gene therapy treatment for glioblastoma mulitforme.
Most common brain cancer may originate in neural stem cells
University of Michigan scientists have found that a deficiency in a key tumor suppressor gene in the brain leads to the most common type of adult brain cancer.
Cottonseed-Based Drug Shows Promise Treating Severe Brain Cancer, Say UAB Researchers
An experimental drug derived from cottonseeds shows promise in treating the recurrence of glioblastoma multiforme, widely considered the most lethal brain cancer.
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