Brainstem gliomas comprise both slow-growing and highly aggressive tumors,the latter carrying a dismal prognosis of approximately 10 months in children.Given their common locations along the brainstem,they are often n...Brainstem gliomas comprise both slow-growing and highly aggressive tumors,the latter carrying a dismal prognosis of approximately 10 months in children.Given their common locations along the brainstem,they are often not amenable to surgical resection.There are currently a host of exploratory therapies under investigation ranging from immunotherapy,small molecular inhibitors,epigenetic-modifying agents,and radiation protocols to combat these difficult-to-treat tumors.Recent discoveries highlighting the role of H3 histone mutations in diffuse midline glioma oncogenesis have yielded a variety of new targetable antigens and aberrant signaling pathways.Although many of these studies have shown promise in terms of inhibiting tumor growth and disease progression,results to date have been modest in their ability to translate into meaningful clinical benefit.This review will serve as an updated report on the current state of literature concerning pre-clinical and clinical therapies being investigated for brainstem glioma.In addition,this review will serve as a guide for clinicians as we review the evolving nomenclature of brainstem gliomas,commonly presenting symptoms,diagnostic tools,and standard therapies.展开更多
Diffuse intrinsic pontine glioma(DIPG) is the main cause of brain tumor-related death among children.Until now, there is still a lack of effective therapy with prolonged overall survival for this disease. A typical st...Diffuse intrinsic pontine glioma(DIPG) is the main cause of brain tumor-related death among children.Until now, there is still a lack of effective therapy with prolonged overall survival for this disease. A typical strategy for preclinical cancer research is to find out the molecular differences between tumor tissue and para-tumor normal tissue, in order to identify potential therapeutic targets. Unfortunately, it is impossible to obtain normal tissue for DIPG because of the vital functions of the pons.Here we report the human fetal hindbrain-derived neural progenitor cells(pontine progenitor cells, PPCs) as normal control cells for DIPG. The PPCs not only harbored similar cell biological and molecular signatures as DIPG glioma stem cells, but also had the potential to be immortalized by the DIPG-specific mutation H3 K27 M in vitro. These findings provide researchers with a candidate normal control and a potential medicine carrier for preclinical research on DIPG.展开更多
文摘Brainstem gliomas comprise both slow-growing and highly aggressive tumors,the latter carrying a dismal prognosis of approximately 10 months in children.Given their common locations along the brainstem,they are often not amenable to surgical resection.There are currently a host of exploratory therapies under investigation ranging from immunotherapy,small molecular inhibitors,epigenetic-modifying agents,and radiation protocols to combat these difficult-to-treat tumors.Recent discoveries highlighting the role of H3 histone mutations in diffuse midline glioma oncogenesis have yielded a variety of new targetable antigens and aberrant signaling pathways.Although many of these studies have shown promise in terms of inhibiting tumor growth and disease progression,results to date have been modest in their ability to translate into meaningful clinical benefit.This review will serve as an updated report on the current state of literature concerning pre-clinical and clinical therapies being investigated for brainstem glioma.In addition,this review will serve as a guide for clinicians as we review the evolving nomenclature of brainstem gliomas,commonly presenting symptoms,diagnostic tools,and standard therapies.
基金supported by Beijing Municipal Administration of Hospitals Clinical Medicine Development of Special Funding Support (ZYLX201608)the Beijing Municipal Natural Science Foundation (7161004)
文摘Diffuse intrinsic pontine glioma(DIPG) is the main cause of brain tumor-related death among children.Until now, there is still a lack of effective therapy with prolonged overall survival for this disease. A typical strategy for preclinical cancer research is to find out the molecular differences between tumor tissue and para-tumor normal tissue, in order to identify potential therapeutic targets. Unfortunately, it is impossible to obtain normal tissue for DIPG because of the vital functions of the pons.Here we report the human fetal hindbrain-derived neural progenitor cells(pontine progenitor cells, PPCs) as normal control cells for DIPG. The PPCs not only harbored similar cell biological and molecular signatures as DIPG glioma stem cells, but also had the potential to be immortalized by the DIPG-specific mutation H3 K27 M in vitro. These findings provide researchers with a candidate normal control and a potential medicine carrier for preclinical research on DIPG.
