Aging and Apoptotic Modulation of Immune Responsiveness

免疫反应的衰老和细胞凋亡调节

• 批准号: 7846848
• 负责人: DAVID S UCKER
• 金额: $ 31.86万
• 依托单位: UNIVERSITY OF ILLINOIS AT CHICAGO
• 依托单位国家: 美国
• 财政年份: 2008
• 资助国家: 美国
• 起止时间: 2008-08-15 至 2013-05-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7846848
• 关键词: Age; Aging; Animals; Anti-Inflammatory Agents; Anti-inflammatory; Apoptotic; Attenuated; Binding; Cell Death Process; Cells; Characteristics; Cytokine Gene; Data; Defect; Dendritic Cells; Disease; Employee Strikes; Event; Fibroblasts; Genetic Transcription; Immune; Immune System Diseases; Individual; Infection; Inflammation; Inflammatory; Inflammatory Response; Intervention; Lentivirus Vector; Life; Light; Link; Longevity; Lymphocyte; Methods; Molecular; Molecular Target; Mus; Natural Immunity; Nature; Necrosis; Organism; Pathogenesis; Pathology; Pathway interactions; Phagocytes; Phagocytosis; Physiological; Population; Process; Property; Proteins; Receptor Signaling; Regulation; Reporter; Reverse Transcriptase Polymerase Chain Reaction; Signal Transduction; Specificity; Stimulus; Testing; Therapeutic Intervention; Time; Toll-like receptors; Transcript; Work; age related; base; cell type; cytokine; gain of function; immunoregulation; immunosenescence; in vivo; inflammatory modulation; insight; macrophage; novel; novel strategies; public health relevance; research study; response; senescence

DESCRIPTION (provided by applicant): Immunosenescence is characterized by paradoxical alterations in adaptive and innate immune responsiveness. Striking increases in the inflammatory status of many individuals with age even in the absence of overt infection and the diminished ability to modulate those responses have been implicated causally in the pathogenesis of a variety of aging-associated disorders, and may be involved centrally in all aspects of aging-associated immune dysfunction. We seek to understand the causes of these age-related and deleterious alterations in immune responsiveness. Our recent studies have highlighted the remarkable and profound inflammatory and immunological consequences of the clearance of dead cells accomplished by macrophages and other phagocytic cells. The process of specific apoptotic cell recognition represents a ubiquitous and unconventional innate immunity that discriminates effete from viable cells and that potently modulates inflammation. The modulatory activity of the apoptotic corpse, representing a gain-of-function acquired during the physiological cell death process, is manifest as an immediate-early inhibition of pro-inflammatory cytokine gene transcription within the responding cell, and is exerted upon binding, independent of subsequent engulfment. Our new data demonstrate a striking aging-associated decline in this innate immune responsiveness. Significantly, this aging-associated effect reflects a quantitative, and not an absolute, alteration in apoptotic modulation. We hypothesize that the aging-associated diminution in immune modulation exerted by apoptotic cells may underlie and exacerbate the paradoxical and pathological alterations of immunosenescence. The work outlined in this proposal focuses on the mechanistic characterization of the aging-associated alterations in innate apoptotic recognition and response. We will evaluate directly whether the abilities of macrophages and other professional and non-professional phagocytes to interact with and engulf apoptotic cells and consequently to signal and modulate their inflammatory responses are altered in an aging-associated manner, employing a variety of functional molecular criteria reflective of this specific response pathway. We will test as well the ability of exogenous apoptotic modulators to attenuate inflammatory responses in vivo as a function of animal age. A fuller understanding of the process of immune modulation exerted physiologically by apoptotic cells has enormous significance for efforts to intervene in cases of deleterious and pathological inflammatory responses that underlie and exacerbate immunosenescence. PUBLIC HEALTH RELEVANCE: Cells die normally throughout the life of an organism, and those dead ("apoptotic") cells are recognized by phagocytes and cleared. We find that dead cells exert potent anti-inflammatory and other effects on the phagocytes that recognize them, exerted through a characteristic repertoire of signaling events. We also find that responsiveness to dead cells is diminished with increasing age, and we hypothesize that this may be casually linked to the pathologies that arise as a consequence of aging-associated immune dysregulation ("immunosenescence"). We will study the regulatory mechanism by which dead cells exert their effects, and examine the molecular nature of aging-associated defects in this response pathway. These studies will reveal new aspects of inflammatory regulation. A deeper understanding of the inflammatory (and immune) modulation exerted physiologically by apoptotic cells and of the molecular events involved may reveal new targets for inflammatory control, with great potential for intervention in cases of pathological inflammation, including inflammatory responses that underlie and exacerbate immunosenescence.

描述（由申请人提供）：免疫衰老的特征是适应性和先天免疫反应性的矛盾改变。随着年龄的增长，即使没有明显的感染，许多人的炎症状态也会显著增加，调节这些反应的能力也会减弱，这与各种衰老相关疾病的发病机制有因果关系，并且可能在衰老相关免疫功能障碍的各个方面都有中心作用。我们试图了解这些年龄相关和有害的免疫反应改变的原因。我们最近的研究强调了巨噬细胞和其他吞噬细胞清除死细胞的显著和深刻的炎症和免疫后果。特异性凋亡细胞识别过程代表了一种普遍存在的、非常规的先天免疫，它能区分无效细胞和活细胞，并能有效地调节炎症。凋亡尸体的调节活性，代表了生理细胞死亡过程中获得的功能获得，表现为响应细胞内促炎细胞因子基因转录的即时早期抑制，并在结合时发挥作用，独立于随后的吞噬。我们的新数据表明，这种先天免疫反应性随着年龄的增长而显著下降。值得注意的是，这种与衰老相关的效应反映了细胞凋亡调节的定量变化，而不是绝对变化。我们假设，凋亡细胞施加的与衰老相关的免疫调节减弱可能是免疫衰老的矛盾和病理改变的基础和加剧。本提案中概述的工作重点是先天凋亡识别和反应中衰老相关改变的机制表征。我们将直接评估巨噬细胞和其他专业和非专业吞噬细胞与凋亡细胞相互作用并吞噬凋亡细胞，从而发出信号并调节其炎症反应的能力是否以衰老相关的方式改变，采用多种反映这一特定反应途径的功能分子标准。我们还将测试外源性凋亡调节剂在体内减轻炎症反应的能力，作为动物年龄的函数。更全面地了解凋亡细胞在生理上施加的免疫调节过程，对于努力干预导致和加剧免疫衰老的有害和病理性炎症反应具有重要意义。公共卫生相关性：细胞在生物体的整个生命过程中都会正常死亡，而那些死亡（“凋亡”）细胞会被吞噬细胞识别并清除。我们发现，死细胞对识别它们的吞噬细胞发挥强大的抗炎和其他作用，通过一系列信号事件发挥作用。我们还发现，对死细胞的反应随着年龄的增长而减弱，我们假设这可能与衰老相关的免疫失调（“免疫衰老”）引起的病理有关。我们将研究死亡细胞发挥其作用的调控机制，并研究这一反应途径中衰老相关缺陷的分子性质。这些研究将揭示炎症调节的新方面。对凋亡细胞生理上施加的炎症（和免疫）调节以及所涉及的分子事件的更深入了解可能会揭示炎症控制的新靶点，在病理性炎症的情况下具有很大的干预潜力，包括导致和加剧免疫衰老的炎症反应。