Monday, April 1, 2019
Innate Immune System Components
congenital repellent System Components in that respect atomic number 18 individual dodgings of the repellent arranging, unconditional immunity which we argon born with and it is non- particular. It is genetic completelyy based and poke outed on to our progeny and accommodative immunity in which we acquire with humoral and cellphoneular phone mediated immunity. indwelling and adjustive insubordinate systems atomic number 18 distinct systems scarce act together at numerous levels to develop a roll in the hay confession against invading pathogens. Both systems affirm mechanisms for distinguishing self from non-self, therefore, under conventionality situations they be non directed against the droves tissues and cells.Innate impedanceElements of the naive(p) resistive system (figure 1.8) look at been known for many years. However, in the past some years there has been a greater focus on inborn immunity and its role in protection against infection and ti ssue flaw and its role in tolerance to self-antigens.Innate immunity defines a collecting of preventative mechanisms the host uses to prevent or minimize infection. The innate immune system operates in the absence of the specific adaptive immune system but is tied to adaptive immunity in many ways. The innate immune system is characterized by a fast solvent to an invading pathogen or international or effete cells. In addition to the rapid chemical reaction, it is also non-specific and usually of a short duration. Innate immunity lacks immunologic memory and there is no clonal elaborateness of lymphocytes as seen in the adaptive immune answer. The innate immune response is also primal in directing the specific, presbyopic-lived adaptive immune response.The host defense mechanisms associated with innate immunity rest of a depend of physical barricades (intact skin) and secretions come with by a number of blood blood serum factors much(prenominal) as concomitant, legitimate cytokines, and natural immune globulins. The cellular components of innate immunity include a number of cell types, many of which ar found at potential points of founding of pathogens. Examples of these cells include natural bulgeer (NK) cells, (figure 1.2), polymorphonuclear neutrophils (PMNs), macrophages (figure 1.3), and dendritic cells (DCs), (figure 1.2).The intact skin and mucosal tissues support considerable protection against invading infectious agents. However, once the agents pass through the skin a number of master(prenominal) events take place. This includes energizing of the full complement cascade that triggers the development of a number of substances to attract phagocytes to the bea.A number of disinfectant peptides are produced at epithelial cell waxs. These antimicrobial peptides play an important role in local defense mechanisms, sever bacterial cell membranes, and probably play a role in preventing skin infections.Antimicrobial Peptides (figure 1.4) tender -defensins are produced by epithelial cells in the mucous membranes of the airways and intestinal tract. Defensins are delicate cationic peptides that comport commodious antimicrobial activities against a number of microbial agents including Gram-positive and Gram-negative bacteria, fungi, and enveloped viruses. Defensins are non-glycosylated peptides containing close to 35 amino acid residues, and -defensins have six cysteine residues that provide a distinct structure.Stimulation of the epithelium by certain cytokines faecal matter induce defensin production.The exact mode of action of defensins antimicrobial activity is unknown.thither are three defensin subfamilies -defensins, -defensins, and -defensinsThe Complement SystemThe complement system (figure 1.5) is another(prenominal) important component of innate immunity. The system consists of 30 proteins found in serum or on the arise of certain cells.Activation of the complement system pull up stakess i n a cascade of biochemical reactions that ultimately ends in lysis and disruption of foreign or effete cells. Without activation, the components of the complement system inhabit as pro-enzymes in body fluids.As a by-product of the activation of the cascade, a number of biologically reactive complement fragments are generated. The complement fragments give the bounce modulate other parts of the immune system by fertilisation directly to T lymphocytes and bone marrow-derived lymphocytes (B lymphocytes) of the adaptive immune system and also stimulate the synthesis and release of cytokines.Natural AntibodiesNatural antibodies have been have it awayd for some conviction but recently they were described as a component of the innate immune system. Natural antibody is defined as an antibody that is found in normal, healthy individuals who have no evidence of exogenous antigenic stimulation. Natural antibodies are believed to develop in a extremely regulated manner they are usually f ound in depressed titer in serum and are low-affinity antibodies. A high parting of the natural antibodies found in serum are of the immune globulin M course. These antibodies are produced by a primitive B lymphocyte, cal direct the B-1 lymphocytes. B-1 cells are usually CD5+ and considered to be long-lived and self-replicating.Natural antibodies play an important role as a first line of defense against pathogens and other types of cells, including pre set upcerous, cancerous, cell debris, and some self-antigens.Toll-Like Receptors (TLR)TLRs (figure 1.6) are found on phagocytic cells, including mononuclear phagocytes, move monocytes, tissue macrophages, and endothelial cells, and are important components of the innate immune system. TLRs make up a family of cell surface protein sense organs deliver on several cell types that maneuver to recognize certain conserved molecular components of microorganisms and signal that microbes have breached the bodys barrier defences. TLRs serve as first serveers in a mammalian host to recognize the heading of an invading pathogen. They also generate an inflammatory response to attempt to remove the invading agent.Phagocytosis (figure 1.7)Polymorphonuclear neutrophilic leukocytes have been well-known components of the innate immune system for many years. Detailed studies of PMN phagocytosis and intracellular eliminateing of microorganisms have led to a better understanding of important defense mechanisms against invasion by pathogenic bacteria, fungi, and enveloped viruses. PMNs are attracted to the site of microbial invasion, recognize the microbe, locomote set outd, kill the microorganisms, resolve the infection, undergo apoptosis, and are then ingested and removed by all macrophages or neighbouring endothelial cells to resolve the inflammatory response.PMNs arise as myeloid progenitors in the bone marrow. Specific growth factors and cytokines mediate the oppositeiation of myeloid precursors into mature PMNs . After entering the circulation, the PMNs have a half-life of close to 8-12 h before undergoing a programmed cell death (apoptosis) and are reabsorbed through endothelial walls. The PMN turnover is about 1011 cells per day.Cytokines and ChemokinesCytokines and chemokines are small, secreted polypeptides that regulate essentially all sours of the immune system. Cytokines participate in determining the nature of the immune response by regulating or controlling cell growth, differentiation, activation, immune cell trafficking, and the location of immune cells at heart the lymphoid organs.Cytokines are a congregation of intercellular messengers that contribute to inflammatory responses through activation of the hosts immune cells. Cytokines are host-derived products that enhance the recruitment of circulating leukocytes as a response to the presence of pathogens. Cytokines also play important roles in leukocyte attraction by inducement the production of chemokines, which are known to be potent mediators of chemo-attractant activity for inflammatory cells. Chemokines and cytokines provide a complex net of signals that can every activate or suppress inflammatory responsesNatural Killer cubiclesInitially, NK cells were referred to as non-specific lymphocytes because NK cells could kill certain virally infected and malignant cells without known prior sensitization. NK cells were known to fit large lymphocytes morphologically and were referred to as large granular lymphocytes.Approximately, 10-15% of the lymphocytes circulating in peripheral logical argument are NK cells. NK cells are distinct from T- and B lymphocytes because they verbalise neither immunoglobulin receptors nor T-cell antigen receptors. There are other distinctions including phenotype and ladder. NK cells have receptors that recognize major histocompatibility complex (MHC) class I antigens. Because NK cells have cytotoxic properties, their function is exceedingly regulated in their interac tions in both the innate and adaptive immune systems.NK cells play important roles in innate immune responses and immune regulation.They communicate with other cells through a complex of both activation and inhibitory signals through cell surface receptors.Dendritic cellular telephonesThe DCs develop in the bone marrow from hematopoietic pluripotential stem cells. Precursor DCs are incessantly generated in the bone marrow and are released into the peripheral blood. After sledding the bone marrow, the precursor DCs home to a number of different tissues where they domiciliate as sentinels waiting to interact with antigen. The precursor DCs express low-density MHC class II antigens and after encountering a proper stimulus differentiate into highly endocytic and phagocytic iDCs. Precursor DCs circulate in the environment and on contacting a pathogen produce cytokines, that is, -interferon, and undergo maturation to iDCs. The iDCs increased phagocytic and endocytic capabilities that lead to dressing antigen by the iDCs and then maturation to mature DCs. reconciling ImmunityIn contrast to innate immunity, adaptive immunity (figure 1.8) is flexible, specific, and has immunologic memory, that is, it can respond more rapidly and vigorously on a second picture to an antigen. Immunologic memory provides a more powerful response to a repeated scene to the same foreign substance or antigen. Adaptive immunity is more complex because it provides the big businessman to respond very specifically. Innate and adaptive immunity responses interact effectively to enhance the bodys defense mechanisms against foreign or damaged host cells. Inherent in both innate and adaptive immune responses are the mechanisms to distinguish self from non-self.The primary blood cell elements of the adaptive immune system are T lymphocytes and B lymphocytes. These T- and B-cells provide the unequalled specificity for their target antigens by virtue of the antigen-specific receptors express on their surfaces.The B- and T-lymphocyte antigen-specific receptors develop by somatic rearrangement of germline gene elements to turn the TCR genes and the immunoglobulin receptor genes. This recombination mechanism provides unique antigen receptors capable of recognizing almost any antigen encountered, and provides the specific immunological memory for a rapid, vigorous, and specific response to a later pic to the same antigen. It is estimated that millions of different antigen receptors whitethorn be formed from a accruement of a few hundred germline-encoded gene elements.For many years, innate and adaptive immune responses were studied as separate systems because of their different mechanisms of action. However, it is now unsounded that synergy between the two systems is required to provide adequate immune reactivity against invading pathogens. Innate immune responses, through their barrier and comparatively broad types of actions, represent the first line of defense agains t pathogens.At the prison term the innate system is getting activated, the adaptive system becomes activated also. The adaptive response becomes evident a few days later because it requires time for sufficient antigen-specific receptors to be generated through clonal expansion/proliferation. There are multiple interactions occurring between the two systems, which results in the co-amplification of each respective response and leads to the ultimate destruction and emptying of the invading pathogen.B lymphocytesThe primary function of B lymphocytes is the production of antibodies that are specific for a given antigenic component of an invading pathogen. Antibodies are encoded by the heavy (H)- and light (L)- scope immunoglobulin genes. Antibodies may be secreted or cell surface-bound on B lymphocytes. There are five classes of immunoglobulins immunoglobulin M, immunoglobulin G, immunoglobulin A, IgD, and IgE and the classification is based on the isotypes of the H chain. B lymphocyt es represent roughly 10-15% of the peripheral blood lymphocyte race and free immunoglobulins make up a considerable proportion of serum proteins. After an encounter with a specific pathogen and an antibody response is generated, the level of specific antibodies to that antigen decreases in serum over a relatively short percentage point of time. However, immunological memory persists in the B-cell population, which is capable of rapid clonal expansion upon re-exposure to that same antigen.T lymphocytesWhereas B lymphocyte products recognize extracellular pathogens, T lymphocytes are adept at identifying and destroying cells that have been infected by intracellular pathogens. For T cells to recognize antigenic peptides, the peptide must be presented in the stage setting of cell surface MHC class I or class II proteins.In other words, T cells can only recognize molecular complexes consisting of the antigenic peptide and a self-structure, that is, the MHC. Depending on whether the an tigenic peptide has been synthesized within the host cell or ingested by the cell and modified by proteolytic digestion, either MHC class I or class II proteins are required. Proteins of the MHC are intimately tied to T-lymphocyte responses and recognition of antigenic peptides. The MHC class I proteins consist of three HLA classes HLA-A, HLA-B, and HLA-C with hundreds of allelic variants of each. Structural studies have shown that class I molecules live as cell surface heterodimers with a polytransmembrane -chain associated (noncovalently) with a nonpolymorphic 2 microglobulin protein. The protein imprisonment are folded in such a way as to form a physical groove capable of binding up to an 11 amino acid long peptide. Antigenic proteins are degraded by proteolytic enzymes to about this size for binding to theMHC class I proteins for antigenic presentation. Antigenic peptides are bound in the groove of the HLA molecule and expressed to the cell surface for presentation to initiate a T-cell response.Humoral Immunity (figure 1.9)The merciful immunoglobulins are a family of proteins that confer humoral immunity and practise vital roles in promoting cellular immunity. Five distinct classes or isotypes of immunoglobulins (IgG, IgA, IgM, IgD, and IgE) have been identified in human serum on the undercoat of their structural, biological, and antigenic differences.1-4 IgG and IgA have been further subdivided into subclasses IgG1, IgG2, IgG3, andIgG4 or subclasses IgA1 and IgA2 on the basis of unique antigenic determinants. Multiple allotypic determinants in the constant role domains of human IgG andIgA molecules as well as kappa () light custody indicate inherited genetic markers.Finally, there are several immunoglobulin-associated polypeptides such as secretory component (SC) and J chain that have no structural homology with the immunoglobulins, but serve important functions in immunoglobulin polymerisation and transport crossways membranes into a variety of secretions (e.g., saliva, sweat, adenoidal secretions, breast milk, and colostrum). This assortment of the immunoglobulin components of the humoral immune system provides a complex network of protective and surveillance functions.Human IgAPolymeric secretory IgA (figure 1.10) is composed of two four-chain basic units and one molecule each of SC and J chain (approximately 400,000 MW). It is the predominant immunoglobulin in colostrum, saliva, tears, bronchial secretions, nasal mucosa, prostatic fluid, vaginal secretions, and mucous secretions of the small intestine. In contrast, 10% of the circulating serum IgA is polymeric, whereas 90% is monomeric (160,000MW). Together, they constitute approximately 15% of the hit serum immunoglobulins. Trimers and higher polymeric forms can exist, but in small amounts. Two subclasses of IgA have been identified (IgA1 and IgA2), which differ by 22 of the 365 amino acids. In call of complement activation, IgA poorly activates the real bridle-p ath.This process has been hypothesized as a host mechanism for attenuating inflammatory responses generate by IgG antibodies at the mucosal surface. In contrast, IgA reportedly activates the alternative pathway of complement to provide some direct protective functions. IgA, once bound to a bacterial or parasitic surface antigen, may bind CD89 (IgA receptor) on infl ammatory cells (monocytes, macrophages, neutrophils, and eosinophils), leading to their destruction by performer of antibody dependent cell-mediated cytotoxicity (ADCC). Moreover, its binding to viral or microbial surface antigens may restrict the mobility of microorganisms and prevent their binding to mucosal epithelium. Finally, secretory IgA can play an important first line of defense in antigen headway by binding to antigens that leak across an epithelium and transporting them back across to prevent their entry. To summarize,IgAs unique structure resists proteolysis and it functions to block uptake of antigen, bacte rial or viral attachment, limit inflammation induced by absolute pathway complement activation, and promote microbial destruction through ADCC by binding to leukocyte receptors.Human IgDIgD (figure 1.11) is a four-chain monomer of approximately 180,000 MW with a long attach region that increases its susceptibility for proteolytic cleavage. Although IgD is usually present in serum in trace amounts (0.2% of total serum immunoglobulin), it predominantly serves as a membrane-bound antigen receptor on the surface of human B lymphocytes. Despite suggestions that IgD may be gnarly in B-cell differentiation, its genius function is as yet unknown. As such, IgD is rarely quantified in a general workup of an individual suspected of a humoral immune deficiency or a B-cell dyscrasia. Hyperimmunoglobulinemia D with serum IgD levels 100 U/mL, however, has been noted in conjunction with periodic fever syndrome. This condition is a rare, autosomal recessive disorder that is characterized by re current episodes of fever accompanied by abdominal distress, lymphadenopathy, joint involvement, and skin lesions. It appears to be particularly responsive to anti- tumor necrosis factor (TNF) treatment. Mutations that lead to this disease occur in the mevalonate kinase gene, which encodes an enzyme involved in cholesterol and nonsterol-isoprenoid biosynthesis.Human IgEIgE (190,000 MW) was identified in 1967 as a unique immunoglobulin that circulates in serum as a four-chain monomer. Although IgE constitutes only 0.004% of the total serum immunoglobulins, it possesses a clinically significant biological function by binding through its Fc region to the alpha chain on high-affinity receptors (FcR1) on mast cells and basophils. On subsequent exposure to relevant protein allergens from trees, grasses, weeds, pet dander, molds, foods, or insect venoms, IgE antibodies on mast cells become cross-linked. This process triggers the production and release of vasoactive mediators (e.g., hista mine, prostaglandins, and leukotrienes) that can induce mild to skanky immediate type I hypersensitivity reactions in sensitizedatopic individuals.Human IgGIn healthy adults, the four polypeptide chain IgG monomer (150,000 MW) constitutes approximately 75% of the total serum immunoglobulins. IgG is approximately equally distributed between intra- and extravascular serum pools. Moreover,IgG possesses the unique ability to cross the placenta, which provides protection for the fetus and newborn. Human IgG has been subdivided into four subclasses on the basis of unique antigenic determinants. IgG1, IgG2, and IgG4 possess an MW of approximately 150,000, whereas IgG3 is heavier (160,000 MW) as a result of an extended 62-amino acid hinge region that contains 11 interchain disulfide bonds. IgG3s highly rigid hinge region promotes approachability of proteolytic enzymes to sensitive Fc cleavage sites, which results in an increased fractional katabolic rate and a shorter biological half-lif e (7-8 days) than has been observed for IgG1, IgG2, and IgG4 (21-24 days). In terms of complement activation, IgG1 and IgG3 are the most effective, whereas IgG4 due to its compact structure does not readily activate the classical pathway of complement. IgG4 antibodies are also unique in that they appear to be functionally monovalent due to in vivo exchange of IgG4 half-molecules. As such, this is believed to lead to the formation of small IgG4 immune complexes that have a low potential for inducing immune inflammation. Moreover, IgG4 antibodies have the ability to interfere with immune inflammation caused by the interaction of complement-fixing IgG subclasses with antigen. Researchers in the field of allergy have speculated that IgG4 antibodies also scavenge antigen that prevents mast cell-bound IgE antibody from creation cross-linked by antigen, and thus blocking IgE-mediated hypersensitivity reactions in atopic individuals who have undergone immunotherapy. Other important structu ral and biological differences among the human IgG subclasses relate to their Fc receptor binding, and the different binding sites on the constant region domains for rheumatoid factors, complement components, and bacterial proteins (protein A and protein G).Human IgMIgM (figure 1.12) is a pentameric immunoglobulin of approximately 900,000 MW that is composed of a J chain and five IgM monomers. Pentameric IgM constitutes approximately 10% of serum immunoglobulins in healthy individuals. Along with IgD, monomeric IgM is also a major immunoglobulin that is expressed on the surface of B cells where it serves as an antigen receptor. The C-terminal portion of pentameric secreted IgM differs from that of its monomeric cell-bound form. Secreted IgM has a mu chain with a 20-amino acid hydrophilic tail and a penultimate cysteine that facilitates polymerization. Cell membrane-bound IgM has a 41-amino acid membrane tail that contains a hydrophobic 26-amino acid segment that anchors the IgM mol ecule in the B-cell membrane lipoid bilayer. IgM antibodies are clinically important because they predominate as an antigen receptor in early immune responses to most antigens. With a functional valency of 10, IgM antibodies are highly efficient in activating the classical complement pathway. IgMs actual functional valency, however, is only 5 due to steric confirmation among its many antigen-binding sites.Cell Mediated ImmunityCell Mediated Immune response (CMIR) (figure 1.9) is the functional effectors pf the immune response for phagocytosis, cell killing by cytotoxic T cells, NK and K cellsMacrophage ActivationWhile the production of antibody through the humoral immune response can effectively lead to the elimination of a variety of pathogens, bacteria that have evolved to invade and multiply within phagocytic cells of the immune response pose a different threat.Cell Mediated CytotoxicityCell Mediated Cytotoxic immune response is implicate in refusal of foreign grafts and the exclusion of tumors and virus-infected cells. The cells involved in these methods are cytotoxic T-lymphocytes, NK-cells and K-cells.NK cellsAlso known as the large granular lymphocytes are normally non-specific, MHC-unrestricted cells involved mainly in the elimination of neoplastic or tumor cells. Once the target cell is recognized, killing occurs.K cellsK-cells contain immunoglobulin Fc receptors. They are involved in Antibody-dependent Cell-mediated Cytotoxicity (ADCC). ADCC occurs as a result of an antibody be bound to a target cell surface via specific antigenic determinants expressed by the target cell. Once bound, the Fc portion of the immunoglobulin can be recognized by the K-cell. This type of CMIR can also result inType II hypersensitivities.
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