Interleukin-27 is a pleiotropic cytokine that is involved in tissue responses to infection,cell stress,neuronal disease,and tumors.Recent studies in various tissues indicate that interleukin-27 has complex activating ...Interleukin-27 is a pleiotropic cytokine that is involved in tissue responses to infection,cell stress,neuronal disease,and tumors.Recent studies in various tissues indicate that interleukin-27 has complex activating and inhibitory properties in innate and acquired immunity.The availability of recombinant interleukin-27 protein and mice with genetic deletions of interleukin-27,its receptors and signaling mediators have helped define the role of interleukin-27 in neurodegenerative diseases.Interleukin-27 has been well-characterized as an important regulator of T cell activation and differentiation that enhances or suppresses T cell responses in autoimmune conditions in the central nervous system.Evidence is also accumulating that interleukin-27 has neuroprotective activities in the retina and brain.Interleukin-27 is secreted from and binds to infiltrating microglia,macrophage,astrocytes,and even neurons and it promotes neuronal survival by regulating pro-and anti-inflammatory cytokines,neuroinflammatory pathways,oxidative stress,apoptosis,autophagy,and epigenetic modifications.However,interleukin-27 can have the opposite effect and induce inflammation and cell death in certain situations.In this review,we describe the current understanding of regulatory activities of interleukin-27 on cell survival and inflammation and discuss its mechanisms of action in the brain,spinal cord,and retina.We also review evidence for and against the therapeutic potential of interleukin-27 for dampening harmful neuroinflammatory responses in central nervous system diseases.展开更多
目的:探讨免疫细胞表型对HSP27的因果作用。方法:采用两样本孟德尔随机化(MR)综合分析来确定免疫细胞表型与HSP27表达水平之间的因果关系。基于公开的遗传数据,我们探索了731个免疫细胞表型与HSP27表达的因果关系,总共包括四种类型的免...目的:探讨免疫细胞表型对HSP27的因果作用。方法:采用两样本孟德尔随机化(MR)综合分析来确定免疫细胞表型与HSP27表达水平之间的因果关系。基于公开的遗传数据,我们探索了731个免疫细胞表型与HSP27表达的因果关系,总共包括四种类型的免疫特征(中位数荧光强度(MFI)、相对细胞(RC)、绝对细胞(AC)和形态参数(MP))。综合敏感性分析用于验证结果的稳健性、异质性和水平多效性。结果:我们进行了双向FDR校正,HSP27的表达在统计学上对细胞免疫表型没有显著影响(P>0.05)。然而,在研究细胞免疫表型对HSP27的因果影响时,我们发现在三种细胞免疫性状类别(MFI、RC、AC)中,21种免疫表型与HSP27表达存在因果联系(P<0.05)。其中,12种免疫表型可促进HSP27的表达(IVW:P<0.05,OR<1),包括:IgD-CD24-AC;IgD-CD24-%lymphocyte;Myeloid DC AC;CD62L-myeloid DC AC;Activated Treg%CD4 Treg;CD38 on IgD+CD38dim;CCR2 on granulocyte;CD80 on CD62L+myeloid DC;CD80 on monocyte;CD8 on TD CD8br;CD4 on activated&secreting Treg;CD11c on granulocyte。另外9种免疫表型可抑制HSP27的表达(IVW:P<0.05,OR>1),即:CD62L-plas-macytoid DC AC;Naive CD4+AC;CD14+CD16+monocyte AC;CD3 on T cell;CD3 on CD8br;HVEM on CM CD4+;HVEM on naive CD4+;CX3CR1 on CD14-CD16-;CD45 on Mo MDSC。结论:本研究揭示了免疫细胞表型与HSP27之间存在显著的遗传相关性,这对了解HSP27的病理机制具有重要意义。它不仅为未来临床疾病的诊断和治疗提供了新思路,而且有助于开发更准确的生物标志物和治疗方法。此外,我们的研究结果扩展了免疫学的研究成果,并为进一步研究免疫细胞与热休克蛋白在免疫应答和疾病中的相互作用提供了新的证据。展开更多
基金support for this work for ASH was from National Eye Institute R01 EY026546an NEI Center Core Grant EY014801.
文摘Interleukin-27 is a pleiotropic cytokine that is involved in tissue responses to infection,cell stress,neuronal disease,and tumors.Recent studies in various tissues indicate that interleukin-27 has complex activating and inhibitory properties in innate and acquired immunity.The availability of recombinant interleukin-27 protein and mice with genetic deletions of interleukin-27,its receptors and signaling mediators have helped define the role of interleukin-27 in neurodegenerative diseases.Interleukin-27 has been well-characterized as an important regulator of T cell activation and differentiation that enhances or suppresses T cell responses in autoimmune conditions in the central nervous system.Evidence is also accumulating that interleukin-27 has neuroprotective activities in the retina and brain.Interleukin-27 is secreted from and binds to infiltrating microglia,macrophage,astrocytes,and even neurons and it promotes neuronal survival by regulating pro-and anti-inflammatory cytokines,neuroinflammatory pathways,oxidative stress,apoptosis,autophagy,and epigenetic modifications.However,interleukin-27 can have the opposite effect and induce inflammation and cell death in certain situations.In this review,we describe the current understanding of regulatory activities of interleukin-27 on cell survival and inflammation and discuss its mechanisms of action in the brain,spinal cord,and retina.We also review evidence for and against the therapeutic potential of interleukin-27 for dampening harmful neuroinflammatory responses in central nervous system diseases.
文摘目的:探讨免疫细胞表型对HSP27的因果作用。方法:采用两样本孟德尔随机化(MR)综合分析来确定免疫细胞表型与HSP27表达水平之间的因果关系。基于公开的遗传数据,我们探索了731个免疫细胞表型与HSP27表达的因果关系,总共包括四种类型的免疫特征(中位数荧光强度(MFI)、相对细胞(RC)、绝对细胞(AC)和形态参数(MP))。综合敏感性分析用于验证结果的稳健性、异质性和水平多效性。结果:我们进行了双向FDR校正,HSP27的表达在统计学上对细胞免疫表型没有显著影响(P>0.05)。然而,在研究细胞免疫表型对HSP27的因果影响时,我们发现在三种细胞免疫性状类别(MFI、RC、AC)中,21种免疫表型与HSP27表达存在因果联系(P<0.05)。其中,12种免疫表型可促进HSP27的表达(IVW:P<0.05,OR<1),包括:IgD-CD24-AC;IgD-CD24-%lymphocyte;Myeloid DC AC;CD62L-myeloid DC AC;Activated Treg%CD4 Treg;CD38 on IgD+CD38dim;CCR2 on granulocyte;CD80 on CD62L+myeloid DC;CD80 on monocyte;CD8 on TD CD8br;CD4 on activated&secreting Treg;CD11c on granulocyte。另外9种免疫表型可抑制HSP27的表达(IVW:P<0.05,OR>1),即:CD62L-plas-macytoid DC AC;Naive CD4+AC;CD14+CD16+monocyte AC;CD3 on T cell;CD3 on CD8br;HVEM on CM CD4+;HVEM on naive CD4+;CX3CR1 on CD14-CD16-;CD45 on Mo MDSC。结论:本研究揭示了免疫细胞表型与HSP27之间存在显著的遗传相关性,这对了解HSP27的病理机制具有重要意义。它不仅为未来临床疾病的诊断和治疗提供了新思路,而且有助于开发更准确的生物标志物和治疗方法。此外,我们的研究结果扩展了免疫学的研究成果,并为进一步研究免疫细胞与热休克蛋白在免疫应答和疾病中的相互作用提供了新的证据。