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A Potential Anti-cancer Agent
November 03, 2009Pateamine A (PatA), a natural product first isolated from marine sponges, has attracted considerable attention as a potential anti-cancer agent, and now a new activity has been found for it, which may reveal yet another anti-cancer mechanism. That's the assessment of Daniel Romo, a Texas A&M chemistry professor, and his colleagues at Johns Hopkins University who are pioneers in research involving this novel marine natural product.
Messenger RNA (mRNA), as its name indicates, copies messages from genes on DNA and uses these messages to produce proteins, and the human body functions well only with the right types and amount of proteins. So, what happens when mRNA gets damaged? Will the wrong proteins produced by the wrong messages carried by mRNA damage a person's body?
Don't worry - it's under surveillance, and PatA has been found to inhibit one such surveillance mechanism called NMD, Romo says.
NMD stands for nonsense-mediated mRNA decay, a key mechanism in the cell to degrade damaged and not fully functional mRNA. NMD watches inside the body 24 hours a day, and whenever damaged mRNA is found, NMD attaches a "bad-mRNA" tag on it and summons an army to destroy it.
However, with cancer cells, inhibition of NMD is desirable.
"We found that PatA and a simplified, easier to synthesize derivative of PatA called desmethyl,desamino-PatA (DMDAPatA) inhibit NMD," the Texas A&M professor says. "This may contribute to the apoptosis (suicide) of tumor cells."
Romo and colleagues from Johns Hopkins University School of Medicine, University of Heidelberg and European Molecular Biology Laboratory published their recent findings in the Journal of Biological Chemistry.
Romo is no stranger to PatA. He began to work on its synthesis more than a decade ago. In 1998, the Texas A&M professor's group achieved the first laboratory synthesis of PatA, and, in 2005, using a PatA conjugate, his collaborator, professor Jun O. Liu at Johns Hopkins, found that PatA inhibits the initiation phase of protein synthesis, which gives PatA the potential to fight cancer.
"Tumor cells are more actively producing new proteins than normal cells, so tumor cells are hundreds if not thousands of times more vulnerable to DMDAPatA's inhibition of protein synthesis, which makes DMDAPatA a good candidate as an anti-cancer agent," he explains.
"DMDAPatA is structurally simpler than PatA but exhibits similar activity in inhibiting NMD and protein synthesis," Romo notes. "It has been patented by Texas A&M, evaluated by two pharmaceutical companies, and continues to be evaluated as a potential anti-cancer agent for both human and animal (pet) applications."
Texas A&M University
NMD stands for nonsense-mediated mRNA decay, a key mechanism in the cell to degrade damaged and not fully functional mRNA. NMD watches inside the body 24 hours a day, and whenever damaged mRNA is found, NMD attaches a "bad-mRNA" tag on it and summons an army to destroy it.
However, with cancer cells, inhibition of NMD is desirable.
"We found that PatA and a simplified, easier to synthesize derivative of PatA called desmethyl,desamino-PatA (DMDAPatA) inhibit NMD," the Texas A&M professor says. "This may contribute to the apoptosis (suicide) of tumor cells."
Romo and colleagues from Johns Hopkins University School of Medicine, University of Heidelberg and European Molecular Biology Laboratory published their recent findings in the Journal of Biological Chemistry.
Romo is no stranger to PatA. He began to work on its synthesis more than a decade ago. In 1998, the Texas A&M professor's group achieved the first laboratory synthesis of PatA, and, in 2005, using a PatA conjugate, his collaborator, professor Jun O. Liu at Johns Hopkins, found that PatA inhibits the initiation phase of protein synthesis, which gives PatA the potential to fight cancer.
"Tumor cells are more actively producing new proteins than normal cells, so tumor cells are hundreds if not thousands of times more vulnerable to DMDAPatA's inhibition of protein synthesis, which makes DMDAPatA a good candidate as an anti-cancer agent," he explains.
"DMDAPatA is structurally simpler than PatA but exhibits similar activity in inhibiting NMD and protein synthesis," Romo notes. "It has been patented by Texas A&M, evaluated by two pharmaceutical companies, and continues to be evaluated as a potential anti-cancer agent for both human and animal (pet) applications."
Texas A&M University
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Discovering drugs, biofuels in tropical seas
The National Institutes of Health has awarded $4 million to a group of Philippine and American scientists led by Oregon Health & Science University to aid in the discovery of new molecules and biofuels technology from marine mollusks for development in the Philippines.
New tool to speed cancer therapy approval available
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Blue dye could hold the key to super processing power
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Mayo Clinic reports possible new therapy for patients with platinum-resistant ovarian cancer
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Developing a modular, nanoparticle drug delivery system
There are two aspects to creating an effective drug: finding a chemical compound that has the desired biological effect and minimal side-effects and then delivering it to the right place in the body for it to do its job.
Novel drug preventing protein recycling shows potential for treating leukemia
Researchers from the Children's Cancer Hospital at The University of Texas M. D. Anderson Cancer Center have found that a novel targeted therapy effectively treats acute leukemia in animal models by preventing cancer cells from being purged of damaged proteins.
Tracing agent, ultrasound combo helps test cancer therapy's effectiveness
An inexpensive tracing agent used in combination with ultrasound can pinpoint how effectively drugs targeting pancreatic cancer work, researchers at UT Southwestern Medical Center have demonstrated for the first time.
Patients respond well to first study to test higher doses of an anti-cancer drug
Researchers in the UK and the United States have found that a drug composed of an antibody carrying a highly toxic anti-cancer agent is well tolerated by patients at much higher doses than have been used before.
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