Alzheimer's disease (hereafter AD) is a progressive neurodegenerative disorder that affects the central nervous system. There are multiple factors that cause AD, viz., accumulation of extracellular Amyloid-beta 42...Alzheimer's disease (hereafter AD) is a progressive neurodegenerative disorder that affects the central nervous system. There are multiple factors that cause AD, viz., accumulation of extracellular Amyloid-beta 42 plaques, intracellular hyper-phosphorylated Tau tangles, generation of reactive oxygen species due to mitochondrial dysfunction and genetic mutations. The plaques and tau tangles trigger aberrant signaling, which eventually cause cell death of the neurons. As a result, there is shrinkage of brain, cogrdtive defects, behavioral and psychological problems. To date, there is no direct cure for AD. Thus, scientists have been testing various strategies like screening for the small inhibitor molecule library or natural products that may block or prevent onset of AD. Historically, natural products have been used in many cultures for the treatment of various diseases. The research on natural products have gained importance as the active compounds extracted from them have medicinal values with reduced side effects, and they are bioavailable. The natural products may target the proteins or members of signaling pathways that get altered in specific diseases. Many natural products are being tested in various animal model systems for their role as a potential therapeutic target for AD, and to address questions about how these natural products can rescue AD or other neurodegenerative disorders. Some of these products are in clinical trials and results are promising because of their neuroprotective, anti-inflammatory, antioxidant, anti-amyloidogenic, anticholinesterase activities and easy availability. This review summarizes the use of animal model systems to identify natural products, which may serve as potential therapeutic targets for AD.展开更多
During development,regulation of organ size requires a balance between cell proliferation,growth and cell death.Dysregulation of these fundamental processes can cause a variety of diseases.Excessive cell proliferation...During development,regulation of organ size requires a balance between cell proliferation,growth and cell death.Dysregulation of these fundamental processes can cause a variety of diseases.Excessive cell proliferation results in cancer whereas excessive cell death results in neurodegenerative disorders.Many signaling pathways known-to-date have a role in growth regulation.Among them,evolutionarily conserved Hippo signaling pathway is unique as it controls both cell proliferation and cell death by a variety of mechanisms during organ sculpture and development.Neurodegeneration,a complex process of progressive death of neuronal population,results in fatal disorders with no available cure to date.During normal development,cell death is required for sculpting of an organ.However,aberrant cell death in neuronal cell population can result in neurodegenerative disorders.Hippo pathway has gathered major attention for its role in growth regulation and cancer,however,other functions like its role in neurodegeneration are also emerging rapidly.This review highlights the role of Hippo signaling in cell death and neurodegenerative diseases and provide the information on the chemical inhibitors employed to block Hippo pathway.Understanding Hippo mediated cell death mechanisms will aid in development of reliable and effective therapeutic strategies in future.展开更多
基金Schuellein Chair Endowment Fund to AS supports PD and Graduate program of Biology supports NGsupported by National Institute of General Medical Sciences(NIGMS)-1 R15 GM124654-01+2 种基金Schuellein Chair Endowment Fund(to AS)STEM Catalyst Grant from University of Daytonstart-up support from UD(to AS)
文摘Alzheimer's disease (hereafter AD) is a progressive neurodegenerative disorder that affects the central nervous system. There are multiple factors that cause AD, viz., accumulation of extracellular Amyloid-beta 42 plaques, intracellular hyper-phosphorylated Tau tangles, generation of reactive oxygen species due to mitochondrial dysfunction and genetic mutations. The plaques and tau tangles trigger aberrant signaling, which eventually cause cell death of the neurons. As a result, there is shrinkage of brain, cogrdtive defects, behavioral and psychological problems. To date, there is no direct cure for AD. Thus, scientists have been testing various strategies like screening for the small inhibitor molecule library or natural products that may block or prevent onset of AD. Historically, natural products have been used in many cultures for the treatment of various diseases. The research on natural products have gained importance as the active compounds extracted from them have medicinal values with reduced side effects, and they are bioavailable. The natural products may target the proteins or members of signaling pathways that get altered in specific diseases. Many natural products are being tested in various animal model systems for their role as a potential therapeutic target for AD, and to address questions about how these natural products can rescue AD or other neurodegenerative disorders. Some of these products are in clinical trials and results are promising because of their neuroprotective, anti-inflammatory, antioxidant, anti-amyloidogenic, anticholinesterase activities and easy availability. This review summarizes the use of animal model systems to identify natural products, which may serve as potential therapeutic targets for AD.
基金The authors are supported by the University of Dayton Graduate program of BiologyThis work was supported by NIH1R15GM124654-01 from the National Institutes of Health,Schuellein Chair Endowment Fund,and start-up support from the University of Dayton(to Amit S).
文摘During development,regulation of organ size requires a balance between cell proliferation,growth and cell death.Dysregulation of these fundamental processes can cause a variety of diseases.Excessive cell proliferation results in cancer whereas excessive cell death results in neurodegenerative disorders.Many signaling pathways known-to-date have a role in growth regulation.Among them,evolutionarily conserved Hippo signaling pathway is unique as it controls both cell proliferation and cell death by a variety of mechanisms during organ sculpture and development.Neurodegeneration,a complex process of progressive death of neuronal population,results in fatal disorders with no available cure to date.During normal development,cell death is required for sculpting of an organ.However,aberrant cell death in neuronal cell population can result in neurodegenerative disorders.Hippo pathway has gathered major attention for its role in growth regulation and cancer,however,other functions like its role in neurodegeneration are also emerging rapidly.This review highlights the role of Hippo signaling in cell death and neurodegenerative diseases and provide the information on the chemical inhibitors employed to block Hippo pathway.Understanding Hippo mediated cell death mechanisms will aid in development of reliable and effective therapeutic strategies in future.