MedicineWorld.Org
Your gateway to the world of medicine
Home
News
Cancer News
About Us
Cancer
Health Professionals
Patients and public
Contact Us
Disclaimer

Medicineworld.org: New cancer drug reduces neuroblastoma growth by 75 percent

Back to cancer blog Blogs list Cancer blog  


Subscribe To Cancer Blog RSS Feed  RSS content feed What is RSS feed?

New cancer drug reduces neuroblastoma growth by 75 percent




Scientists from the Children's Cancer Hospital at The University of Texas M. D. Anderson Cancer Center have found a new drug that restricts the growth of neuroblastoma, a childhood brain cancer. The pre-clinical study was presented today in the plenary session at the 22nd annual meeting of the American Society of Pediatric Hematology/Oncology.

Alejandro Levy, M.D., fellow at the Children's Cancer Hospital at M. D. Anderson, presented research showing for the first time that the M. D. Anderson-developed drug, 3-BrOP, reduces tumor growth by more than 75 percent as a single agent. The study, conducted with human neuroblastoma cells transplanted into mice, showed how 3-BrOP, a glycolysis inhibitor, starved the cancer cells to death by shutting down their main energy source, glucose.



New cancer drug reduces neuroblastoma growth by 75 percent

"We observed that neuroblastoma cells, unlike healthy cells, are highly dependent on glycolysis for energy instead of more efficient means of energy production," said Levy. "Glycolysis is a process that breaks down sugar for energy, so by blocking that process with 3-BrOP, we are able to keep the tumors from producing energy, and this disrupts their ability to grow".

As per the American Cancer Society, approximately 650 children, mainly under the age of five, are diagnosed with neuroblastoma in the United States each year. Close to two-thirds of these children are diagnosed after the cancer has metastasized to other parts of the body. For these patients with high-risk neuroblastoma, long-term survival is less than 40 percent because the tumors are often resistant to traditional chemotherapy.

Pre-clinically, 3-BrOP has already been proven effective against other cancers including glioblastoma, colon cancer, lymphoma and acute leukemia. A Phase I clinical trial is planned to open this year for adult patients.

"As we explore alternative options to standard chemotherapy agents, we are finding drugs, like 3-BrOP, that have the potential to destroy cancer cells while leaving healthy cells unharmed," said Patrick Zweidler-McKay, M.D., Ph.D., assistant professor at the Children's Cancer Hospital and senior investigator of the study. "These drugs can often enhance the efficacy of other therapys, potentially leading to more successful combinations and better outcomes for our young patients".


Posted by: Janet    Source




Did you know?
Scientists from the Children's Cancer Hospital at The University of Texas M. D. Anderson Cancer Center have found a new drug that restricts the growth of neuroblastoma, a childhood brain cancer. The pre-clinical study was presented today in the plenary session at the 22nd annual meeting of the American Society of Pediatric Hematology/Oncology.

Medicineworld.org: New cancer drug reduces neuroblastoma growth by 75 percent

Main Page| Cancer blog| Cancer blogs list| Lung cancer blog| Colon cancer blog| Prostate cancer blog| Breast cancer blog| Diabetes watch blog| Heart watch blog| Allergy blog| Bladder cancer blog| Cervical cancer blog| Colon cancer news blog| Diabetes news blog| Esophageal cancer blog| Gastric cancer blog| Health news blog| Heart news blog| Infectious disease blog| Kidney watch blog| Lung disease blog| Lung cancer news blog| Mesothelioma blog| Neurology blog| Breast cancer news blog| OBGYN blog| Ophthalmology blog| Ovarian cancer blog| Cancer news blog| Pancreas cancer blog| Pediatrics blog| Prostate cancer news blog| Psychology blog| Research blog| Rheumatology blog| Society news blog| Uterine cancer blog| Weight watch blog|

Copyright statement
The contents of this web page are protected. Legal action may follow for reproduction of materials without permission.