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New therapy shows promise for fighting treatment-resistant cancer cells
June 17, 2008There is a real possibility for treating the most challenging cancer cases, say researchers at SNM's 55th Annual Meeting, June 14-18
NEW ORLEANS, La.-A gene radiotherapy system that detects and treats cancer cells that are resistant to traditional forms of chemotherapy and radiation showed success in the laboratory and could eventually prove beneficial for cancer patients, according to researchers at SNM's 55th Annual Meeting. The new system targets oxygen-deficient hypoxic cancer cells that have activated a gene known as HIF-1, which ensures the cells' survival and makes them unresponsive to most current treatments.
"These types of cancer cells pose a significant challenge in treating many patients," said June-key Chung, a professor of nuclear medicine at Seoul National University College of Medicine, Seoul, South Korea, and lead researcher of the study, Human NIS Gene Radiotherapy Targeting HIF-1 Activated Cancer Cells. "Our research shows that this system successfully targets these hard-to-treat cells in vitro. Eventually, it could offer a novel way to develop new therapies for drug- and radiation-resistant cancers."
Hypoxic cancer cells are found in solid tumors that develop in many different cancers, including cancers of the liver, breast, prostate and uterus. Solid tumors undergo a multitude of cytogenetic or genetic changes over many years, some of which may resist almost any standard therapy.
"It is well known that hypoxic cancer cells are resistant to chemotherapy and radiotherapy, therefore creating a real dilemma for cancer therapies," said Chung. "Now, we are hopeful that new therapeutic models targeting resistant cancers, which are currently under development in the laboratory, can be successfully used for treatment. The results of our research imply that this is a real possibility."
Hypoxic cancer cells do not develop adequate blood vessels to receive oxygen. Because cells need oxygen to survive, hypoxic cells instead activate the HIF-1 protein, which changes cells' metabolism and enables them to burn sugar for energy without oxygen. Traditional cancer therapies are ineffective against hypoxic cells that have activated HIF-1 because HIF-1 regulates several genes related to the resistance of conventional cancer therapy.
In their research, Chung and his team developed a therapeutic system that targets HIF-1 human liver cancer cells in the laboratory. A reporter gene was developed that would express human sodium iodide symporter (hNIS) in the cancer cells. This gene would simultaneously track the cancer cells and treat them by allowing them to absorb iodine and radioisotope more easily. To improve imaging of the cancer cells even further, researchers also engineered the reporter gene to turn fluorescent when it encountered HIF-1 liver cancer cells so they could be tracked with optical imaging techniques. The reporter gene was then injected into human liver cancer cells. The results indicated that the system not only killed hypoxic liver cancer cells, but also could eventually be useful for visualizing how HIF-1 activation occurs in these cells.
Society of Nuclear Medicine
Hypoxic cancer cells are found in solid tumors that develop in many different cancers, including cancers of the liver, breast, prostate and uterus. Solid tumors undergo a multitude of cytogenetic or genetic changes over many years, some of which may resist almost any standard therapy.
"It is well known that hypoxic cancer cells are resistant to chemotherapy and radiotherapy, therefore creating a real dilemma for cancer therapies," said Chung. "Now, we are hopeful that new therapeutic models targeting resistant cancers, which are currently under development in the laboratory, can be successfully used for treatment. The results of our research imply that this is a real possibility."
Hypoxic cancer cells do not develop adequate blood vessels to receive oxygen. Because cells need oxygen to survive, hypoxic cells instead activate the HIF-1 protein, which changes cells' metabolism and enables them to burn sugar for energy without oxygen. Traditional cancer therapies are ineffective against hypoxic cells that have activated HIF-1 because HIF-1 regulates several genes related to the resistance of conventional cancer therapy.
In their research, Chung and his team developed a therapeutic system that targets HIF-1 human liver cancer cells in the laboratory. A reporter gene was developed that would express human sodium iodide symporter (hNIS) in the cancer cells. This gene would simultaneously track the cancer cells and treat them by allowing them to absorb iodine and radioisotope more easily. To improve imaging of the cancer cells even further, researchers also engineered the reporter gene to turn fluorescent when it encountered HIF-1 liver cancer cells so they could be tracked with optical imaging techniques. The reporter gene was then injected into human liver cancer cells. The results indicated that the system not only killed hypoxic liver cancer cells, but also could eventually be useful for visualizing how HIF-1 activation occurs in these cells.
Society of Nuclear Medicine
Cancer Cells Current Events and Cancer Cells 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.
New cancer target for non-Hodgkin's lymphoma
Physician-scientists from Weill Cornell Medical College have discovered a molecular mechanism that may prove to be a powerful target for the treatment of non-Hodgkin's lymphoma, a type of cancer that affects lymphocytes, or white blood cells.
Common pain relief medication may encourage cancer growth
Although morphine has been the gold-standard treatment for postoperative and chronic cancer pain for two centuries, a growing body of evidence is showing that opiate-based painkillers can stimulate the growth and spread of cancer cells.
Cancers' Sweet Tooth May Be Weakness
The pedal-to-the-metal signals driving the growth of several types of cancer cells lead to a common switch governing the use of glucose, researchers at Winship Cancer Institute of Emory University have discovered.
UCLA researchers create 'fly paper' to capture circulating cancer cells
Just as fly paper captures insects, an innovative new device with nano-sized features developed by researchers at UCLA is able to grab cancer cells in the blood that have broken off from a tumor.
Paradoxical protein might prevent cancer
One difficulty with fighting cancer cells is that they are similar in many respects to the body's stem cells. By focusing on the differences, researchers at Karolinska Institutet have found a new way of tackling colon cancer. The study is presented in the prestigious journal Cell.
Cornell researchers identify a weak link in cancer cell armor
The seeming invincibility of cancerous tumors may be crumbling, thanks to a promising new gene therapy that eliminates the ability of certain cells to repair themselves.
Aileron collaborates study in Nature: Stapled peptides inhibit Notch1 transcription factor
This research validates the potential for Stapled Peptides to modulate key intracellular biological targets, such as transcription factors, that have not been addressable with current small molecule or biologic drug modalities.
Researchers 'notch' a victory toward new kind of cancer drug
Scientists have devised an innovative way to disarm a key protein considered to be "undruggable," meaning that all previous efforts to develop a drug against it have failed.
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