A need to develop neuroreparative therapies for multiple sclerosis(MS):MS is the most common neurological disease of young Caucasian adults.This disease is characterized by inflammatory demyelination of the central...A need to develop neuroreparative therapies for multiple sclerosis(MS):MS is the most common neurological disease of young Caucasian adults.This disease is characterized by inflammatory demyelination of the central nervous system(CNS)and involves activation of key inflammatory cells of both the adaptive and innate immune systems,which target and destroy both myelin and oligodendrocytes (the my- elin-forming glial cells in the CNS). Key pathological features of the disease include autoimmune inflammation, axonal degeneration and demyelination (myelin loss), latter of which can occur in both white matter and gray matter. The key cell type damaged in MS is oligodendrocytes, which produce the insulating myelin sheath surrounding many axons in the CNS. Myelin and oligodendrocytes have critical roles.展开更多
基金supported by the Australian National Health and Medical Research Council grants(#APP1058647)National Multiple Sclerosis Society(USA)grant#RG 4309A5/2+1 种基金Multiple Sclerosis Research Australia Project Fund(#13039)the University of Melbourne Research Grants
文摘A need to develop neuroreparative therapies for multiple sclerosis(MS):MS is the most common neurological disease of young Caucasian adults.This disease is characterized by inflammatory demyelination of the central nervous system(CNS)and involves activation of key inflammatory cells of both the adaptive and innate immune systems,which target and destroy both myelin and oligodendrocytes (the my- elin-forming glial cells in the CNS). Key pathological features of the disease include autoimmune inflammation, axonal degeneration and demyelination (myelin loss), latter of which can occur in both white matter and gray matter. The key cell type damaged in MS is oligodendrocytes, which produce the insulating myelin sheath surrounding many axons in the CNS. Myelin and oligodendrocytes have critical roles.
