In laboratory and animal studies, scientists have found a 2-pronged gene therapeutic approach could facilitate tumour regression and long-term survival via selective recruitment of immune cells.
Scientists have developed a '2-pronged gene therapeutic approach' that will enable tumour regression while also ensuring long-term survival of the patient. The new procedure, developed following laboratory and animal studies, is done via selective recruitment of immune cells.
Researchers at Cedars-Sinai Medical Center have identified a sequence of molecular events that could help them recruit key immune cells called dendritic cells into areas of the brain where they are not naturally found and recognize tumor cells as targets for attack.
About Brain Tumor
Brain tumors are the abnormal growth of brain cells that may be benign or metastatic. Brain tumors account for about 2.4% of all the tumor diagnosesandare most challenging due to their critically delicate location.
Brain tumors are the abnormal growth of brain cells that may be benign or metastatic. Brain tumors account for about 2.4% of all the tumor diagnosesandare most challenging due to their critically delicate location.
HMGB1 does so by binding to an inflammatory receptor called toll-like receptor 2, or TLR2, found on the surface of dendritic cells.
"Toll receptors play a major role in the immune system's recognition of bacterial and viral components, but now we have shown that they also trigger an immune response against tumors," said Maria G. Castro, Ph.D., co-director of Cedars-Sinai's Board of Governors Gene Therapeutics Research Institute and one of the article's senior authors.
Brilliant Human Brain
The most amazing and complex organ in the entire universe, the human brain continues to remain an enigma.
The most amazing and complex organ in the entire universe, the human brain continues to remain an enigma.
For the study, the researchers used a combined gene therapeutic approach, using one protein (Flt3L) to draw dendritic cells from bone marrow into the brain tumors, and a second protein (Herpes Symplex type I Thymidine Kinase, or TK), combined with the antiviral gancyclovir to kill tumor cells and elicit long-term survival.
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Mechanism in Cells Forming Brain Tumours may Offer Target for Gene Therapy
In a new study, researchers at Cedars-Sinai Medical Center's Maxine Dunitz Neurosurgical Institute have discovered a molecular mechanism involved in the development of cells that give
In a new study, researchers at Cedars-Sinai Medical Center's Maxine Dunitz Neurosurgical Institute have discovered a molecular mechanism involved in the development of cells that give
For the first time, the study showed that HMGB1 released from dying brain cancer cells activates TLR2 signaling on tumor infiltrating dendritic cells, leading to the activation and expansion of tumor-antigen specific T cells.
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Tiny Sacs Released By Cancer Cells May Offer Effective Cure for Brain Tumour
Massachusetts General Hospital (MGH) researchers say that brain tumour cells release tiny sacs called microvesicles.
Massachusetts General Hospital (MGH) researchers say that brain tumour cells release tiny sacs called microvesicles.
"The discovery of a central role for HMGB1 and TLR2 in overcoming immune ignorance to brain tumor antigens provides a new therapeutic approach in the fight against brain tumors. Our conclusions relating to anti-glioma immune responses have also been extended to enhancing immune responses against a number of other metastatic brain cancers, such as melanoma,' said Pedro Lowenstein, M.D., Ph.D., director of the Board of Governors Gene Therapeutics Research Institute and co-senior author.
The researchers are now planning to test this novel therapeutic approach in a human clinical trial for recurrent brain tumours in 2009.
The study will be published in the latest issue of PLoS Medicine, an open-access online journal of the Public Library of Science.
Source-ANI
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