Recognition of Streptococcus pneumoniae by the innate immune system

Streptococcus pneumoniae is both a frequent colonizer of the upper respiratory tract and a leading cause of life-threatening infections such as pneumonia, meningitis and sepsis. The innate immune system is critical for the control of colonization and for defence during invasive disease. Initially, pneumococci are recognized by different sensors of the innate immune system called pattern recognition receptors (PRRs), which control most subsequent host defence pathways. These PRRs include the transmembrane Toll-like receptors (TLRs) as well as the cytosolic NOD-like receptors (NLRs) and DNA sensors. Recognition of S. pneumoniae by members of these PRR families regulates the production of inflammatory mediators that orchestrate the following immune response of infected as well as neighbouring non-infected cells, stimulates the recruitment of immune cells such as neutrophils and macrophages, and shapes the adaptive immunity. This review summarizes the current knowledge of the function of different PRRs in S. pneumoniae infection.     

固有免疫细胞及其模式识别受体与表观遗传学调控研究进展

固有免疫细胞是机体抵御病原微生物的首道防线,亦是机体有效启动和维持免疫反应的重要参与者,而模式识别受体是固有免疫细胞发挥免疫功能的重要免疫分子,因此,机体对固有免疫细胞及其模式识别受体的精细调控尤为重要。表观遗传学是近年研究热点,其在固有免疫调节中的作用逐渐受到重视。就近年表观遗传学中的DNA甲基化、组蛋白共价修饰及非编码RNA等在调节固有免疫细胞分化发育及其模式识别受体的相关研究作一简述,以期为感染、炎症、自身免疫病等研究与防治提供新的思路和策略。     

PRRs in pathogen recognition

The innate immune system provides the first line of host defense against invading microorganisms before the development of adaptive immune responses. Innate immune responses are initiated by germline-encoded pattern recognition receptors (PRRs), which recognize specific structures of microorganisms. Toll-like receptors (TLRs) are pattern-recognition receptors that sense a wide range of microorganisms, including bacteria, fungi, protozoa and viruses. TLRs exist either on the cell surface or in the lysosome/endosome compartment and induce innate immune responses. Recently, cytoplasmic PRRs have been identified which detect pathogens that have invaded the cytosol. This review focuses on the pathogen recognition of PRRs in innate immunity.     

抗病毒感染固有免疫应答的信号转导

入侵病毒的探知和适应性免疫应答启动均依靠固有免疫系统。三种模式识别受体(PRRs)在宿主防御系统第一线占据极其重要地位:Toll样受体、维甲酸诱导基因I样受体、核苷酸结合寡聚化结构域样受体。PRRs识别病原相关分子模式(PAMP)或危险信号分子模式(DAMPs)启动和调节固有免疫和适应性免疫应答。每种PRR都有单独的识别配体和细胞定位。激活的PRRs将信号分子传递给其配体分子(MyD88,TRIF,IRAK,IPS-1),配体活化后作为信使激活信号途径下游激酶(IKK复合物,MAPKs,TBK1,RIP-1)和转录因子(NF-κB,AP-1,IRF3),最终产生细胞因子、趋化因子、促炎细胞因子和I型干扰素。本文重点讨论PRRs信号通路及该领域取得的成果,以期为人类健康和免疫疾病防治提供策略。     

Antiviral signaling through pattern recognition receptors

Viral infection is detected by the host innate immune system. Innate immune cells such as dendritic cells and macrophages detect nucleic acids derived from viruses through pattern recognition receptors (PRRs). Viral recognition by PRRs initiates the activation of signaling pathways that lead to production of type I interferon and inflammatory cytokines, which are important for the elimination of viruses. Two types of PRRs that recognize viral nucleic acids, Toll-like receptors (TLR) and RIG-I-like RNA helicases (RLH), have been identified. Of the TLRs, TLR3 recognizes viral double-stranded (ds) RNA, TLR7 and human TLR8 identify viral single-stranded (ss) RNA and TLR9 detects viral DNA. TLRs are located in endosomal compartments, whereas RLH are present in the cytoplasm where they detect viral dsRNA or ssRNA. Here we review the role of TLRs and RLHs in the antiviral innate immune response.     

Early immune events in the induction of allergic contact dermatitis

The skin is a barrier site that is exposed to a wide variety of potential pathogens. As in other organs, pathogens that invade the skin are recognized by pattern-recognition receptors (PRRs). Recently, it has been recognized that PRRs are also engaged by chemical contact allergens and, in susceptible individuals, this elicits an inappropriate immune response that results in allergic contact dermatitis. In this Review, we focus on how contact allergens promote inflammation by activating the innate immune system. We also examine how innate immune cells in the skin, including mast cells and dendritic cells, cooperate with each other and with T cells and keratinocytes to initiate and drive early responses to contact allergens.     

Molecular view on PRR cross-talk in antifungal immunity

The identification of a major class of innate immune receptors, termed pattern recognition receptors (PRRs), has boosted research on innate pathogen recognition. The immune response to a specific pathogen is not restricted to the recognition by one type of PRR or activation of a single cell type, but instead comprises complex collaborations between different receptors, cells and signal mediators. Here we will discuss the cross-talk between PRRs involved in fungal recognition, focusing on the molecular interactions occurring at the plasma membrane.     

Innate immunity and cardiomyocytes in ischemic heart disease

Myocardial ischemia/reperfusion (I/R) is the most common cause of myocardial inflammation, which is primarily a manifestation of the innate immune responses. Innate immunity is activated when pattern recognition receptors (PRRs) respond to molecular patterns common to microbes and to danger signals expressed by injured or infected cells, so called pathogen-associated molecular patterns (PAMPs) and damage-associated molecular patterns (DAMPs). The expression of various PRRs in cardiomyocytes and the release of DAMPs from cardiomyocytes subjected to I/R injury, through active mechanisms as well as passive processes, enable cardiomyocytes to generate innate immune responses. Studies in isolated heart and cardiomyocytes have confirmed the inflammatory and functional effects of cardiac PRRs especially Toll-like receptors in response to I/R-derived DAMPs, such as heat shock proteins. This review addresses the active role of cardiomyocytes in mediating innate inflammatory responses to myocardial I/R. We propose that cardiomyocytes act as innate immune cells in myocardial I/R injury.     

Host-microbe interactions: innate pattern recognition of fungal pathogens

The recognition of fungi is mediated by germline pattern recognition receptors (PRRs) such as Toll-like receptors and lectin receptors that interact with conserved structures of the microorganisms, the pathogen-associated molecular patterns (PAMPs). Subsequently, PRRs activate intracellular signals that collaborate for the efficient activation of the host defense. The specificity of these responses is achieved through the activation of a particular mosaic of PRRs, that is determined by the available fungal PAMPs and the innate immune cells involved. This will determine a divergence of the final type of reaction, and in this way the innate host defense has the capability to deliver tailored responses to each pathogen.