NAD and CD38: modulators of inflammation and immunity

NAD 和 CD38：炎症和免疫调节剂

• 批准号: 7210988
• 负责人: Frances E. Lund
• 金额: $ 40.05万
• 依托单位: TRUDEAU INSTITUTE, INC.
• 依托单位国家: 美国
• 财政年份: 2007
• 资助国家: 美国
• 起止时间: 2007-06-01 至 2011-05-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7210988
• 关键词: Adjuvant; Antigens; B-Lymphocytes; Bacterial Infections; CD4 Positive T Lymphocytes; Cell physiology; Cells; Cellular Immunity; Class; Cross-Priming; Data; Dendritic Cells; Development; Economics; Enzymes; Generations; Goals; Health; Hong Kong; Human; Immune; Immune response; Immunity; Inactivated Vaccines; Infection; Inflammation; Inflammatory; Influenza; Influenza A Virus, H5N1 Subtype; Intramuscular; Leukocytes; Ligands; Lymphoid Tissue; Maintenance; Measures; Mediating; Mediator of activation protein; Modeling; Morbidity - disease rate; Mus; Nicotinamide adenine dinucleotide; Organ; Organism; Property; Proteins; Protocols documentation; Public Health; Receptor Signaling; Recombinants; Respiratory physiology; Route; Safety; Serotyping; Signal Transduction; Site; T-Cell Activation; T-Lymphocyte; Testing; Tissues; Toll-like receptors; United States; Vaccinated; Vaccines; Variant; Viral; Virulent; Virus; Virus Diseases; Work; aluminum sulfate; base; cell injury; chemokine receptor; enzyme activity; extracellular; improved; influenza virus strain; influenza virus vaccine; influenzavirus; migration; mortality; novel; novel vaccines; pandemic disease; particle; pathogen; receptor; research study; respiratory; response; social; trafficking

DESCRIPTION (provided by applicant): Influenza virus infections cause significant morbidity and mortality in the US and world. Since the current inactivated virus vaccines do not induce protective immunity to emerging strains of influenza virus, new vaccines are urgently needed. Unfortunately, the current inactivated virus vaccines do not contain adjuvant and do not induce lasting cellular immunity. Since the only adjuvant approved for use in humans is alum and alum enhances type 2 immune responses that are often detrimental for lung function, it is important to identify new, safe adjuvants that can be used in an influenza vaccine. Most commonly used experimental adjuvants are pathogen-derived and enhance immune responses by triggering Toll-like receptors (TLRs) which induce inflammation and tissue damage and activate dendritic cells. However, other molecules, unrelated to TLRs, also have the potential to modulate immune responses. One such molecule is the ecto-enzyme CD38 which catabolizes extracellular NAD, released by damaged and dying cells, to produce Ca2+mobilizing metabolites that modulate chemokine receptor signaling. CD38 and its substrate, NAD, are required for leukocyte migration and are also important for the generation of functional effector T cells. Interestingly, NAD, when co-administered with protein antigens and subthreshold amounts of adjuvant, significantly enhances T cell dependent immune responses. Based on these data, we hypothesize that NAD functions as a "co-adjuvant" to enhance innate and adaptive immune responses and that CD38 and extracellular NAD represent a novel class of immune modulators that are distinct from the TLRs. To test this hypothesis, we will first determine how NAD mediates its co-adjuvant properties (Aim 1). In Aim 2, we will determine how extracellular NAD regulates immune responses to influenza virus and in Aim 3, we will test the efficacy of a NAD-containing vaccine in enhancing immune protection to challenge infection with a new serotype of influenza virus. These experiments will facilitate the development of a new class of co-adjuvants that can be used safely in humans to improve cell-mediated immune protection to pathogenic intracellular organisms like influenza. Relevance to public health. Infections with influenza virus cause significant morbidity and mortality in the United States. In a typical year, approximately 100,000 peoples are hospitalized in the US due to influenza and 20,000-35,000 people die from the viral infection or secondary bacterial infections. Furthermore, the new emerging strains of influenza, such as the highly virulent H5N1 variant that appeared in Hong Kong in 1997, have the potential to trigger a worldwide pandemic with devastating social and economic consequences. Thus, it is one of NIAID's highest priorities (NOT-AI-05-013) that we develop more effective influenza vaccines that are protective against a wide array of different viral serotypes.

描述（由申请方提供）：流感病毒感染在美国和世界范围内引起显著的发病率和死亡率。由于目前的灭活病毒疫苗不能诱导对新出现的流感病毒株的保护性免疫，因此迫切需要新的疫苗。不幸的是，目前的灭活病毒疫苗不含佐剂，不诱导持久的细胞免疫。由于唯一批准用于人类的佐剂是明矾，而明矾可增强通常对肺功能有害的2型免疫应答，因此重要的是要确定可用于流感疫苗的新的安全佐剂。最常用的实验佐剂是病原体来源的，并通过触发Toll样受体（TLR）来增强免疫应答，Toll样受体诱导炎症和组织损伤并激活树突状细胞。然而，与TLR无关的其他分子也具有调节免疫应答的潜力。一种这样的分子是胞外酶CD 38，其分解代谢细胞外NAD，由受损和垂死的细胞释放，以产生调节趋化因子受体信号传导的Ca 2+动员代谢物。CD 38及其底物NAD是白细胞迁移所必需的，并且对于功能性效应T细胞的产生也是重要的。有趣的是，当NAD与蛋白抗原和亚阈值量的佐剂共同施用时，显著增强T细胞依赖性免疫应答。基于这些数据，我们假设NAD作为“共佐剂”发挥功能以增强先天性和适应性免疫应答，并且CD 38和细胞外NAD代表不同于TLR的一类新型免疫调节剂。为了验证这一假设，我们将首先确定NAD如何介导其辅助佐剂特性（目的1）。在目标2中，我们将确定细胞外NAD如何调节对流感病毒的免疫应答，在目标3中，我们将测试含NAD的疫苗在增强免疫保护以挑战新血清型流感病毒感染方面的功效。这些实验将有助于开发一种新的辅助佐剂，可以安全地用于人类，以改善细胞介导的对致病性细胞内生物（如流感）的免疫保护。与公共卫生的相关性。在美国，流感病毒感染导致显著的发病率和死亡率。在典型的一年中，美国约有100，000人因流感住院，20，000 - 35，000人死于病毒感染或继发性细菌感染。此外，新出现的流感病毒株，例如1997年在香港出现的高毒力H5 N1变种，有可能引发全球大流行，带来毁灭性的社会和经济后果。因此，NIAID的最高优先事项之一（NOT-AI-05-013）是我们开发更有效的流感疫苗，对各种不同的病毒血清型具有保护作用。