Multiple sclerosis(MS)is a chronic immune-mediated disorder of the central nervous system(CNS)that causes focal demyelinating lesions,followed by axonal and neuronal degeneration.Several genetic and environmental fact...Multiple sclerosis(MS)is a chronic immune-mediated disorder of the central nervous system(CNS)that causes focal demyelinating lesions,followed by axonal and neuronal degeneration.Several genetic and environmental factors are found to be associated with MS incidence.While MS etiology seems to be multifactorial and needs further elucidation,it is understood that the response of an immune system to specific myelin antigens triggers the onset of MS(Dendrou et al.,2015).However,how the autoimmune response initiates against myelin,and the cellular and molecular mechanisms underpinning the development and progression of MS are not fully understood.Thus,deconstructing MS pathogenesis is of paramount importance for identifying novel diagnostic and therapeutic targets for this complex disease.展开更多
Spinal cord injury (SCI) elicits a robust inflammatory response that is a hallmark of the secondary injury mechanisms. Neuroinflammation is orchestrated initially by the response of resident astrocytes and microglia...Spinal cord injury (SCI) elicits a robust inflammatory response that is a hallmark of the secondary injury mechanisms. Neuroinflammation is orchestrated initially by the response of resident astrocytes and microglia to injury, which subsequently facilitates the recruitment of peripheral immune cells into the SCI lesion (Orr and Gensel, 2018). This inflammatory response contributes to cell death and tissue degeneration through the production of pro-inflammatory cytokines and chemokines, free radicals and proteolytic enzymes. However, neuroinflammatory cells also play beneficial regulatory role in repair mechanisms after SCI by adopting a reparative and wound healing phenotype (Orr and Gensel, 2018; Tran et al., 2018). Hence, understanding the underlying mechanisms by which immune cells are reg- ulated within the microenvironment of injury would aid in harnessing the reparative potential of inflammation following SCI.展开更多
Spinal cord injury (SCI) results in a dysregulated microenvi- ronment that is largely driven by the immediate and robust response of resident astrocytes and microglia (Filous and Silver, 2016).
基金supported by a University of Manitoba Graduate FellowshipGraduate Enhancement of Tricouncil Supplement (GETS)+2 种基金Hillary Kaufman Lerner Memorial Fundssupported by the grants from Multiple Sclerosis Society of Canada (EGDI-2936, EGDI-3742)the Canadian Institute of Health Research (133721 and 156218)
文摘Multiple sclerosis(MS)is a chronic immune-mediated disorder of the central nervous system(CNS)that causes focal demyelinating lesions,followed by axonal and neuronal degeneration.Several genetic and environmental factors are found to be associated with MS incidence.While MS etiology seems to be multifactorial and needs further elucidation,it is understood that the response of an immune system to specific myelin antigens triggers the onset of MS(Dendrou et al.,2015).However,how the autoimmune response initiates against myelin,and the cellular and molecular mechanisms underpinning the development and progression of MS are not fully understood.Thus,deconstructing MS pathogenesis is of paramount importance for identifying novel diagnostic and therapeutic targets for this complex disease.
基金supported by the Craig H.Neilsen Foundation awarded to SKAsupported by a joint studentship from Will-to-Win/Manitoba Paraplegic Foundationthe Children’s Hospital Research Institute of Manitoba
文摘Spinal cord injury (SCI) elicits a robust inflammatory response that is a hallmark of the secondary injury mechanisms. Neuroinflammation is orchestrated initially by the response of resident astrocytes and microglia to injury, which subsequently facilitates the recruitment of peripheral immune cells into the SCI lesion (Orr and Gensel, 2018). This inflammatory response contributes to cell death and tissue degeneration through the production of pro-inflammatory cytokines and chemokines, free radicals and proteolytic enzymes. However, neuroinflammatory cells also play beneficial regulatory role in repair mechanisms after SCI by adopting a reparative and wound healing phenotype (Orr and Gensel, 2018; Tran et al., 2018). Hence, understanding the underlying mechanisms by which immune cells are reg- ulated within the microenvironment of injury would aid in harnessing the reparative potential of inflammation following SCI.
基金supported by grants awarded to SKA from the Canadian Institutes of Health Research(CIHR,No.MOP 133721)the Canadian Paraplegic Association of Manitoba,and the Manitoba Paraplegic Foundationsupported by a fellowship from Research Manitoba and Rick Hansen Institute
文摘Spinal cord injury (SCI) results in a dysregulated microenvi- ronment that is largely driven by the immediate and robust response of resident astrocytes and microglia (Filous and Silver, 2016).