01 intro and innate immunity
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Microbiology 532: ImmunologyMicrobiology 532: Immunology
Dennis E. Lopatin, Ph.D.Dennis E. Lopatin, Ph.D.Dept. of Biologic and Materials SciencesDept. of Biologic and Materials Sciences4209 Dental Building4209 Dental Building
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Phone: 647-3912 Phone: 647-3912 Electronic mail: [email protected] mail: [email protected]
Helpful HintsHelpful Hints Readings in text are beneficialReadings in text are beneficial I I expectexpect you to read the relevant chapters in Nester. you to read the relevant chapters in Nester. Understanding the Understanding the conceptsconcepts is not optional is not optional ThinkThink, rather than memorize, rather than memorize Test questions are based on Test questions are based on conceptsconcepts Ask questionsAsk questions Don’t wait until the last minute to studyDon’t wait until the last minute to study Check the websiteCheck the website
Lecture 1Lecture 1ImmunologyImmunology
Introduction & Innate immunityIntroduction & Innate immunity
Why Does a Dentist Need to Why Does a Dentist Need to Understand Immunology?Understand Immunology?
Many of the oral diseases have an immune componentMany of the oral diseases have an immune component Periodontal diseasePeriodontal disease CariesCaries Sjögren’s SyndromeSjögren’s Syndrome
Current and future therapeutics affect the immune system Current and future therapeutics affect the immune system and oral healthand oral health
Systemic and Oral diseases are interrelatedSystemic and Oral diseases are interrelated Cooperation with other health care professional requires Cooperation with other health care professional requires
a common languagea common language
What is immunity?What is immunity?
““Protection” from infection, tumors, etc.Protection” from infection, tumors, etc. Innate immunity is always availableInnate immunity is always available Adaptive immunity distinguishes “self” from Adaptive immunity distinguishes “self” from
“non-self” and involves immune system “non-self” and involves immune system “education”“education”
Responses that may result in host tissue Responses that may result in host tissue damagedamage
Two types of immunityTwo types of immunity Innate immunity (not antigen-specific)Innate immunity (not antigen-specific)
Anatomical barriersAnatomical barriers MechanicalMechanical BiochemicalBiochemical
Non-specific (eg. Low pH in stomach)Non-specific (eg. Low pH in stomach) Receptor-driven (eg. PAMP-recognition)Receptor-driven (eg. PAMP-recognition)
Adaptive immunity (antigen-specific)Adaptive immunity (antigen-specific) Receptor-drivenReceptor-driven Pre-existing clones programmed to make a specific Pre-existing clones programmed to make a specific
immune response (humoral/cellular)immune response (humoral/cellular)
AntigenAntigen
A substance (antigen) that is capable of A substance (antigen) that is capable of reactingreacting with the products of a specific immune with the products of a specific immune response, e.g., antibody or specific sensitized response, e.g., antibody or specific sensitized T-lymphocytes.T-lymphocytes.
A “self” component may be considered an A “self” component may be considered an antigen even though one does not generally antigen even though one does not generally make immune responses against those make immune responses against those components.components.
Characteristics of Adaptive ImmunityCharacteristics of Adaptive Immunity
Immune response is highly specific for the antigen that triggered it.Immune response is highly specific for the antigen that triggered it. Receptors on surface of immune cells have same specificity as the Receptors on surface of immune cells have same specificity as the
antibody/effector activity that will be generatedantibody/effector activity that will be generated Exposure to antigen creates an immunologic “memory.”Exposure to antigen creates an immunologic “memory.”
Due to clonal expansion and creation of a large pool of cells committed to Due to clonal expansion and creation of a large pool of cells committed to that antigenthat antigen
Subsequent exposure to the same antigen results in a rapid and vigorous Subsequent exposure to the same antigen results in a rapid and vigorous responseresponse
Components of the immune Components of the immune systemsystem
Cells Cells involved involved
in in immunityimmunity
platelets platelets
megakaryocyte megakaryocyte eosinophil eosinophil
neutrophil neutrophil
basophil basophil
mast cell mast cell
common common myeloid myeloid progenitoprogenitor r
monocyte monocyte
macrophage macrophage
NaturalNaturalKiller cellKiller cell
plasma cell plasma cell
B LymphocyteB Lymphocyte
T LymphocyteT Lymphocyte
common common lymphoid lymphoid progenitoprogenitor r
Pluripotent Pluripotent hematopoietichematopoieticstem cellstem cell
BloodBloodSerum or Serum or PlasmaPlasma
Leukocytes, Leukocytes, Platelets and RBCPlatelets and RBC
Serum ProteinsSerum Proteins Mononuclear Mononuclear CellsCells
Polymorphonuclear Polymorphonuclear leukocytes (or leukocytes (or Granulocytes)Granulocytes)
•ImmunoglobulinsImmunoglobulins•ComplementComplement•Clotting factorsClotting factors•Many othersMany others
•NeutrophilsNeutrophils•EosinophilsEosinophils•BasophilsBasophils
•Lymphocytes Lymphocytes (T cells, B cells (T cells, B cells & NK cells)& NK cells)•MonocytesMonocytes
Where is that stuff?Where is that stuff?
Lymphoid OrgansLymphoid Organs
Primary or central lymphoid organsPrimary or central lymphoid organs bone marrow and thymusbone marrow and thymus where lymphocytes are generatedwhere lymphocytes are generated
Secondary or peripheral lymphoid organsSecondary or peripheral lymphoid organs where adaptive immune responses are initiatedwhere adaptive immune responses are initiated
Distribution of Lymphoid TissuesDistribution of Lymphoid Tissues
Response to Initial Infection Response to Initial Infection
Stages of Response to InfectionStages of Response to Infection
Course Course of of
Typical Typical Acute Acute
InfectionInfection
Innate Host Defense MechanismsInnate Host Defense Mechanisms
Anatomic FactorsAnatomic Factors Mechanical FactorsMechanical Factors Biochemical FactorsBiochemical Factors
SkinSkin
Stratified and cornified epithelium provides a Stratified and cornified epithelium provides a mechanical barriermechanical barrier
Indigenous microbiota competes with pathogensIndigenous microbiota competes with pathogens Acid pH inhibits growth of disease producing Acid pH inhibits growth of disease producing
bacteriabacteria Bactericidal long chain fatty acids in sebaceous Bactericidal long chain fatty acids in sebaceous
gland secretionsgland secretions
Respiratory TractRespiratory Tract Upper Respiratory TractUpper Respiratory Tract
Nasal hairs induce turbulenceNasal hairs induce turbulence Mucous secretions trap particlesMucous secretions trap particles Mucous stream to the base of tongue where material is swallowedMucous stream to the base of tongue where material is swallowed Nasal secretions contain antimicrobial substancesNasal secretions contain antimicrobial substances Upper respiratory tract contains large resident floraUpper respiratory tract contains large resident flora
Lower Respiratory TractLower Respiratory Tract Particles trapped on mucous membranes of bronchi and bronchiolesParticles trapped on mucous membranes of bronchi and bronchioles Beating action of cilia causes mucociliary stream to flow up into the Beating action of cilia causes mucociliary stream to flow up into the
pharynx where it is swallowedpharynx where it is swallowed 90% of particles removed this way. Only smallest particles (<10µ in 90% of particles removed this way. Only smallest particles (<10µ in
diameter) reach alveolidiameter) reach alveoli
AlveoliAlveoli Alveolar macrophage rapidly phagocytize small particlesAlveolar macrophage rapidly phagocytize small particles
Alimentary TractAlimentary Tract General defense mechanismsGeneral defense mechanisms
Mucous secretionsMucous secretions Integrity of of mucosal epitheliumIntegrity of of mucosal epithelium Peristaltic motions of the gut propel contents downwardPeristaltic motions of the gut propel contents downward Secretory antibody and phagocytic cellsSecretory antibody and phagocytic cells
StomachStomach Generally sterile due to low pHGenerally sterile due to low pH
Small IntestineSmall Intestine Upper portion contains few bacteriaUpper portion contains few bacteria As distal end of ilieum is reached flora increasesAs distal end of ilieum is reached flora increases
ColonColon Enormous numbers of microorganismsEnormous numbers of microorganisms 50-60% of fecal dry weight is bacteria50-60% of fecal dry weight is bacteria
Genitourinary TractGenitourinary Tract MaleMale
No bacteria above urethrovesicular junctionNo bacteria above urethrovesicular junction Frequent flushing action of urineFrequent flushing action of urine Bactericidal substances from prostatic fluidBactericidal substances from prostatic fluid pH of urinepH of urine Bladder mucosal cells may be phagocyticBladder mucosal cells may be phagocytic Urinary sIgAUrinary sIgA
Female (Vagina)Female (Vagina) Large microbial population (lactobacilli)Large microbial population (lactobacilli) Microorganisms produce low pH due to breakdown of glycogen Microorganisms produce low pH due to breakdown of glycogen
produced by mucosal cellsproduced by mucosal cells
EyeEye
Flushing action of tears which drain through Flushing action of tears which drain through the lacrimal duct and deposit bacteria in the lacrimal duct and deposit bacteria in nasopharynxnasopharynx
Tears contain a high concentration of Tears contain a high concentration of lysozyme (effective against gram positive lysozyme (effective against gram positive microorganismsmicroorganisms
ReceptorsReceptors
Almost all of biology occurs because recognitionAlmost all of biology occurs because recognition Enzymatic actionEnzymatic action Interactions between cells (cooperation/activation)Interactions between cells (cooperation/activation) Communication between cellsCommunication between cells
Innate and adaptive immunity requires itInnate and adaptive immunity requires it
Innate Immune RecognitionInnate Immune Recognition All multi-cellular organisms are able to All multi-cellular organisms are able to
recognize and eliminate pathogensrecognize and eliminate pathogens Despite their extreme heterogeneity, pathogens Despite their extreme heterogeneity, pathogens
share highly conserved molecules, called share highly conserved molecules, called “pathogen-associated molecular patterns” “pathogen-associated molecular patterns” ((PAMPsPAMPs))
Host cells do not share PAMPs with pathogensHost cells do not share PAMPs with pathogens PAMPs are recognized by innate immune PAMPs are recognized by innate immune
recognition receptors called pattern-recognition recognition receptors called pattern-recognition molecules/receptors (molecules/receptors (PRMs/PRRsPRMs/PRRs))
Typical PAMPsTypical PAMPs
LipopolysaccharidesLipopolysaccharides PeptidoglycansPeptidoglycans Certain nucleotide sequences unique to bacteriaCertain nucleotide sequences unique to bacteria Other bacterial componentsOther bacterial components
Endogenous Signals Induced by PAMPsEndogenous Signals Induced by PAMPs
Mediate inflammatory cytokinesMediate inflammatory cytokines Antigen-presenting cells recognize PAMPsAntigen-presenting cells recognize PAMPs
Same APC processes pathogens into specific Same APC processes pathogens into specific pathogen-derived antigens and presents them with pathogen-derived antigens and presents them with MHC encoded receptors to T-cellsMHC encoded receptors to T-cells
T-cell responds only when presented with both T-cell responds only when presented with both signalssignals
Different Effector Cytokines in Response to Different Different Effector Cytokines in Response to Different Pathogens (Th1 vs. Th2)Pathogens (Th1 vs. Th2)
Antimicrobial Peptides/DefensinsAntimicrobial Peptides/Defensins
Four hundred peptides described to dateFour hundred peptides described to date Defensins (3- 5-kD, four families in eukaryotes)Defensins (3- 5-kD, four families in eukaryotes)
αα-defensins (neutrophils and intestinal Paneth cells)-defensins (neutrophils and intestinal Paneth cells) ββ-defensins (epithelial cells)-defensins (epithelial cells) Insect defensinsInsect defensins Plant defensinsPlant defensins
Defensins appear to act by binding to outer membrane Defensins appear to act by binding to outer membrane of bacteria, resulting in increased membrane of bacteria, resulting in increased membrane permeability.permeability.
May also play a role in inflammation and wound repairMay also play a role in inflammation and wound repair
Complement SystemComplement System
Three pathways now knownThree pathways now known ClassicalClassical AlternativeAlternative Lectin or MBL pathway (binding to mannose-Lectin or MBL pathway (binding to mannose-
containing carbohydrates)containing carbohydrates) Host cells have complement regulatory proteins Host cells have complement regulatory proteins
on their surface that protect them from on their surface that protect them from spontaneous activation of C3 moleculesspontaneous activation of C3 molecules
Inflammatory Mediators in Innate ImmunityInflammatory Mediators in Innate Immunity Cytokines secreted by phagocytes in response to infection Cytokines secreted by phagocytes in response to infection
include:include: IL-1 IL-1
activates vascular endothelium and lymphocytesactivates vascular endothelium and lymphocytes Increases adhesiveness of leukocytesIncreases adhesiveness of leukocytes
IL-6IL-6 Induces B-cell terminal maturation into Ig-producing plasma cellsInduces B-cell terminal maturation into Ig-producing plasma cells
IL-8IL-8 Induces expression of b2 integrin adhesion molecules on neutrophils, leading Induces expression of b2 integrin adhesion molecules on neutrophils, leading
to neutrophil migration to infection siteto neutrophil migration to infection site IL-12IL-12
Activates NK cells and induces Th1-cell differentiationActivates NK cells and induces Th1-cell differentiation IL-18IL-18 TNF-TNF-αα
Activates vascular endothelium and increases vascular permeability, leading Activates vascular endothelium and increases vascular permeability, leading to accumulation of Ig and complement in infected tissuesto accumulation of Ig and complement in infected tissues
Other Mediators and MoleculesOther Mediators and Molecules
PhagocytesPhagocytes Toxic oxygen radicalsToxic oxygen radicals PeroxidesPeroxides Nitric oxide (NO)Nitric oxide (NO) Lipid mediators of inflammationLipid mediators of inflammation
ProstaglandinsProstaglandins LTB4LTB4 Platelet activating factorPlatelet activating factor
Complement component C5aComplement component C5a Stimulates mast cells to release histamine, serotonin and LTB4Stimulates mast cells to release histamine, serotonin and LTB4
IL-1, IL-6 and TNF-IL-1, IL-6 and TNF-αα Induce acute-phase response in liverInduce acute-phase response in liver Induce feverInduce fever
IL-1 and IL-18 signaling pathways activate NF-IL-1 and IL-18 signaling pathways activate NF-κκB, important in B, important in innate immunityinnate immunity
Immune Cells and Innate ImmunityImmune Cells and Innate Immunity PhagocytesPhagocytes
NeutrophilsNeutrophils Moncyte/macrophageMoncyte/macrophage Eosinophils (to a lesser extent)Eosinophils (to a lesser extent)
NK cells NK cells (large granular lymphocytes)(large granular lymphocytes) Antibody-dependent cell-mediated cytotoxicity (ADCC)Antibody-dependent cell-mediated cytotoxicity (ADCC) Have two major functionsHave two major functions
Lysis of target cellsLysis of target cells Production of cytokines (IFN-Production of cytokines (IFN-γγ and TNF- and TNF-αα))
Act against intracellular pathogensAct against intracellular pathogens HerpesvirusesHerpesviruses LeishmaniaLeishmania Listeria monocytogenesListeria monocytogenes
Act against protozoaAct against protozoa ToxoplasmaToxoplasma TrypanasomaTrypanasoma
Immune Cells and Innate Immunity (cont’d)Immune Cells and Innate Immunity (cont’d) γγ//δδ T cells T cells
Two types of T cell receptorsTwo types of T cell receptors One composed of One composed of αα and and ββ chains (basic T cell antigen receptor) chains (basic T cell antigen receptor) One composed of One composed of γγ and and δδ chains (minor population of T cells) chains (minor population of T cells)
Two groups of Two groups of γγ//δδ T cells T cells One group found in lymphoid tissuesOne group found in lymphoid tissues One group located in paracellular space between epithelial cellsOne group located in paracellular space between epithelial cells
Recognizes unprocessed target antigen in absence of APC helpRecognizes unprocessed target antigen in absence of APC help B-1 cells (minor fraction of B cells, do not require T-cell help)B-1 cells (minor fraction of B cells, do not require T-cell help) Mast cellsMast cells
Located in serosa, under epithelial surfaces and adjacent to blood Located in serosa, under epithelial surfaces and adjacent to blood vessels, nerves and glandsvessels, nerves and glands
Capable of phagocytosisCapable of phagocytosis Process and present antigen using MHC class I or II receptorsProcess and present antigen using MHC class I or II receptors LPS can directly induce release of mast cell mediatorsLPS can directly induce release of mast cell mediators Complement (C3a and C5a) induce mast cells to release mediatorsComplement (C3a and C5a) induce mast cells to release mediators
Chemotaxis, complement activation, inflammationChemotaxis, complement activation, inflammation TNF-TNF-αα secreted by mast cells results in neutrophil influx into infected site secreted by mast cells results in neutrophil influx into infected site
Summary of Innate ImmunitySummary of Innate Immunity
External and mechanical barriersExternal and mechanical barriers Receptors for pathogen motifsReceptors for pathogen motifs Soluble antimicrobial proteinsSoluble antimicrobial proteins Pattern of cytokines produced influences Pattern of cytokines produced influences
adaptive responseadaptive response