Summary

This document reviews antibody structure, B-cell diversity, and the generation of antibodies. It covers topics like immunoglobulin, clonal selection, and antigen binding sites. The document explains the different isotypes and diverse generation mechanisms.

Full Transcript

Immunology Exam 11 Review Chapter 4- Antibody Structure and the Generation of B-Cell Diversity - antibodies : Secreted form of B cell's receptor fo...

Immunology Exam 11 Review Chapter 4- Antibody Structure and the Generation of B-Cell Diversity - antibodies : Secreted form of B cell's receptor for antigen ; clears body of extracellular pathogens and their toxins. Produced by plasma cells. Specific binding (binds to one antigen) - immunoglobulins : cell surface (membrane-bound) antigens + B-cell antigen receptors - clonal selection :. Antigen binds to immunoglobulin adaptive immunity > - B-cell stimulated to proliferate differentiate into plasma cells Secretes large amount of antibody w/ same specificity > > as Ig - -. After a mature B cell encounters its specific antigen , changes specificity and effector function of antibody. STRUCTURAL BASIS (ANTIBODY DIVERSITY) -variable region : contains antigen-binding site , specificity - constant region : interacts with other immune system comp - Isotypes IgG IgM : , , IgD, IgA , IgE (diff constant region structures - heavy chain and light chain : 4 polypeptide chains in antibody - cleavage of IgG : Can be cleared w/ a protease to produce two Fab (fragment antigen binding) which corresponds to the stem Fc (fragment crystallizeable - heavy chain determines isotype - constant region of heavy chains are composed of 3 4 - C domains ANTIGEN BINDING SITES - epitope : part of an antigen to which a particular antibody binds to CLONAL SELECTION OF ANTIBODIES - immunogen/polyclonal antiserum : contains a variety of antibodies specific for diffepitopes of the immunizing antigen - clonal selection : 1) resting mature B-cell expresses membrane-bound antibody (B-cell receptor) 2) antigen binds , B cell stimulated to differentiate into plasma cells. 3) plasma cells secrete antibodies - monoclonal antibody : one clone/type of antibody - flow cytometry : allows cells to be distinguished by cell-surface mouc - monoclonal antibodies used to treat disease GENERATION OF IG DIVERSITY IN BCELLS BEFORE ENCOUNTER WIANTIGEN - membrane-bound lg made in ER requires both Igo and IgS before transport to surface - 1ga IgM 1gB + B-cell receptor + = -gene segments 19 genes are organized: in fragmented forms arrayed on the chromosome. - alternative versions of same part of IgV region Individual gene segments must be rearranged (rearrangements marrow) - occur during development in. - somatic recombination : during B-cell development , arrays of 19 gene segments are cut + spliced w/ V and J - > light chain gene : single recomb. event gene : double recomb events W/ DH and JH DJ and VH - > heavy chain , then - V genes contain segments the most > recombination ↳ signal sequences (RSS) : flank 3'V , both D , S'J only 12 23 spacers + RAG-1 and RAG-2 (recombination - activating genes : forms functional RAG complex V(D)J , recombinase. The diff length of two arms from RAG-1 ensures 12/23 rule V + J are cut and spliced. - * remember ! Method I for diversifying somatic recomb. is VDJ segments · Mod2 is random incorporation nucleotide of additional during formation of coding joints. GENERATION OF JUNCTIONAL DIVERSITY - steps for additional diversity : 1) RAG cleaves at reptamer sequences Separates D + J. 2) ends of 2 strands of DNA are joined to form hairpins 3) cleared hairpins generate Sequences &D + J 4) TdT adds N-nucleotides 5) single strands pair and repaired to coding joint with Exonuclease , DNA polymerase , + DNA ligase ALTERNATIVE MRNASPLICING IN NAIVE B-CELLS PRODUCES IgM AND IgD OF SAME ANTIGEN SPECIFICITY VDJ rearrangement brings promoter enhancer - + close together, which enables transcription of rearranged gene. - Heavy chain constant regions have u S,. E, a , and y - Naive B-cells express both19m and IgD on the Surface * binding of antigen to B-cell receptor of naive B-cell triggers proliferation + differentiation to secrete large amount of antibody wh same specificity. IgD on cell surface switch -19m from surface to secreted + antibody SOMATIC HYPERMUTATION - DIVERSITY AFTER B-CELL ACTIVATION ANTIGEN - somatic hypermutation : the whole V domain coding sequence in VH and V are introduced wh point mutations at a high rearranged V regions rate at AID (activation-induced dependent on cytidine deaminase) , which converts (to U generating -. mutations in proliferating B-cells affinity maturation mutations causing higher affinity for : infecting pathogen - ISOTYDE SWITCHING - isotype switching : B-cell changes Ig class it makes while preserving antigen specificity of lg - involves recombination that attaches diff heavy chain constant region to existing variable reg. dependent on AlD and occurs only B-cells proliferating to in antigen response - - > loops out expressedC Genes and brings another C gene to juxtaposition wh assembled v region SECRETED IgM - first antibody made by activated B-cells circular pentameric w/10 antigen binding sites = - Igm : circulates in blood + lymph kill. microorganism? or facilitate phagocytosis - 19A : mucosal surfaces, gut , milk , sweat , saliva , etc. - IgE : epithelium , most cells , inflammation , kill parasites - IgG body : fluids , complement 11 , phagocytes , NK Cells ↳ * highly flexible ! 5 Chapter 5-antigen Recognition by T Lymphocytes COMPARING B& T CELLS - similarities : produced via somatic gene rearrangement highly antigen specific · · T-cell receptor resembles antibody FAB fragment differences : B-cells function to produce various antibodies , T-cells interact whothercells for rolls many · - · B-cells recognize antigens through direct binding to antigen , T-cells via antigen-specific interactions through other cells T-cell. ligand = antigen peptide + MHC B-cells make multiple isotypes of antibodies wh same antigen specificity. No T-cell equivalent · Of isotype switching / hypermutation. One clone of cells expresses one antigen specific TCR T-CELL RECEPTOR DIVERSITY antigens w/ specificity and diversity , one binding site - - similar to FAB fragment, but membrane-bound to T-cell surface - TCR diversity generated by gene rearrangement (none after activat). I ↳ - TCRs have two chains ; a and 3 - In T-cell development in the thymus, - one gene segment in V region is joined to to > gene by rearrangement generate diversity MEMBRANE TCR COMPLEX - - expression of TCR on T-cell surface requires association wh additional proteins - > going from ER to surface requires (D3 Complex > - CD32s + CD3Er + CD333 - more diversity in TCR genes than BCR genes ANTIGEN PRESENTATION FOR TCR RECOGNITION - strict selection for survival - all ligands for TCRs = short peptide and mic Molecule (peptide MHC complex) : - a T-cell is activated once circulating T-cells detect peptide : mic complexes that contain peptides derived from infectious agents. - activated to make adaptive immune response -antigen processing : pathogenic proteins degraded to give peptides to be incorporated into MHC molecules - antigen presentation : peptide MHC complexes delivered : to surface ↑ MHC CLASS 1 MHC Class AND CLASS 11 MHC Class Il S I Il presents intracellular antigens presents extracellular antigens CD8 = Heterodimer degraded in cytosol degraded in lysosomes wI two chains expressed by nucleated cells by antigen-presentationclls cytotoxic T-cell helper - T cells CD4 : single intracellular infection extracellular infection polypeptide w/ express CD8 cell-surface protein express CD4 cell-surface four domains protein kill infected cells secrete cytokines/activate macrophages protects nucleus/cytosol protects vesicular system proteasomes , TAP , PLC , tapasin , invariant chain - MHC Class 1 & ll molecules have similar structures site : MHC fold ↳ similar structures in peptide binding ↳ domains that bind to CD8/CD4 - MHC 1 binds to shorter peptides - promiscuous binding specificity versatility : in binding to peptides w/ very different sequences , - MHC Class 1 and 11 bind peptides in diff intracellular components ↳ II I proteasomes in MHC - proteasomes generate peptides for MHC - damaged proteins marked by Ubiquitin for degradation. Immunoproteasomes have cap - subunits expressed w/ IFNy subunits - TAP in MAC - TAP peptide transporter peptides generated by proteasomes - are transported across ER membrane With TAD MHC Class 1 binds peptides in context of highly specific peptide-loading complex - - protein retains partially folded MHC I H C.. - when mic I assembled , protein replaced. - PLC (Peptide-loading Complex) : helps load peptide transported by TAP - peptide editing by tapasin when binds to MHC 1 , increases of peptides bound affinity for testing. - - When peptide pinds / high affinity , then conformational change , then dissociation of tapas invariant chain blocks MHC class11 binding - - prevents from binding peptides in ER - in endosomes, invariant chain is degraded and leaves a 24-residue fragment called the CLIP which fills the MH( 11 groove ↑ CROSS PRESENTATION BY DENDRITIC CELLS (MHC 1) -enables extracellular antigens to be presented by MHC - naive CD8 T-cells can't directly kill cells w/MH) 1 : peptide complex - needs activation by APC's (antigen-presenting cells) to become effector T-cells - dendritic culs acquire pathogen and present them on MHC1 , called cross-presentation Chapter 6 - The Development B Lymphocytes ↳ six phases of development DJ) bone(2 1. B-cell precursors in bone marrow acquire antigen receptors through Ig rearrangements (D + J , then V + Negative selection, prevents emergence of mature B-cells to receptors to normal m by. Positive selection , immature 3 B-cells compete for follicles in secondary lymphoid t where they mature., patrolling to detect infection/pathogens I 4. Mature B-cells circulate between lymph , blood , and 2nd t Second-s.,. activation of B-cells by antigen proliferation , of these antigen-specific as a. Differentiation 6 + diversification within clones gives rise to plasma cells , secretes antibodies, + memory B-cells - > PHASE ONE-GENE REARRANGEMENT -gene rearrangements produce immature BC.. wh one HC , one LC > - one 1g/BC antigen receptor hematopoietic stem cells Pro-B cell > pre-Bcell > immature B-cell - - > - - - dependent on stromal cells - apoptosis is default unless there is a positive signal stromal cells promote development - by 1) specific contact and 2) producing growth factors - I Quality control - productive rearrangements maintain a proper HC reading : frame after arrangement - nonproductive rearrangements : changes reading frame to a point where it is no longer functional [ 1st : V-DJ /translation of HC ? )functional It quality 2 checkpoints : rearrangement - control 2nd : surrogate light chain (tests to see if can become B-cell receptor) / funct. LC - allelic exclusion : ensuring no B-cell rearranges both HC copies · Inactivates RAG. Cell expresses are gene copy - pre-B cells : multiple rounds of gene rearrangement - > clone of 100 resting pre-B Cells * success in LC production leads to BCR assembly of ALLELI) EXCLUSION PXcause E ↳ PHASE TWO - NEGATIVE SELECTION - elimination of potential self-attack - self-antigens healthy : human tissue - self-reactive B-cells : BC w/ potential to respond to self antigens -prevent w/ negative (apop or in activ) signals.. I todeselectiveeliminationa receptor editing assessing compatibility of receptors from successive gene rearrangements of L : - -signed - clonal deletion : some BC exhaust all rearr possibilities without a non-self-reactive receptor. pansive to their antige o successful BCR - - central tolerance : BC leaving marrow are tolerant to so in marrow - peripheral tolerance : tourance to SA outside bone marrow - > PHASE THREE - POSITIVE SELETION - maturation + survival in lymphoid follicles * immature BC - circulate between blood , secondary L t., and. lymph via afferent lymphatics ↓ - stromal cells secrete cytokines , attract immature BC to HEV to primary follick primary follicle in 2nd L. FDCs (follicular dendritic cells) signal t to become B-Cell - : Mature. ↓ mature BC ↳ PHASE FOUR-SEARCHING FOR INFECTION - recirculation via efferent lymph if no specific antigen in follicle - exits lymph node back to lymph/blood 4 PHASE FIVE-FINDING + PHASE SIX-ATTACKING - after antigen encounter in 2nd Lt- > IgM secreting plasma cells in 2nd hypermut, iso switch, affinity staying c t-> somatic -. maturation > - plasma cells end product of B-all dev plasma cells > antibody - = - in + exiting pane marrow : sanatic recomb. / transcription/alt splicing after antigen in 2nd L t. : hypermutation/ alt splicing/iso switch Chapter 7 - The Development of T Lymphocytes - T-CELLS DEVELOP IN THE THYMUS - originates from stem cells in bone marrow then migrate to thymus -cellular organization : cortex (immature thymocytes) , medulla (mature - T-CELL LINEAGES - two classes of TCR : &B and 28 (as usually in favor) - aB and US T-cell lineages : - double-negative thymocyte : not expressing CD4 Or CD8 double-positive CD4 and CDS - thymocyte expressing : both - MULTIPLE REARRANGEMENTS of pre-T cell -successful B-rearrangement assembly > - proliferation of B-chain DP & self MH) signaling > thymocytes - - - a-chain locks rearrangement (has S-chain , deletion of S = o lineage) ② Pre-T cell - successful d-chain > - ER for testing binding capacity to B-chain ①US - unsuccessful > - apoptosis - > to summarize : 1) If before B-chain JS , then JS cell if ↳ before Uchahthenpre ea ⑪ as ③ US 4)If Cl-chain before US , then as cell most common - POSITIVE + NEGATIVE SELECTION - T-cells that recognize self-mac/peptide undergo positive selection to further develop - thymoproteasome : produces self-peptide positive , selection when bound to MHC - positive selection determines either CD4 or CD8 = selection by MHC Class 1 : CD8 + MHC I are engaged MHC Class 11 : CD4 + MHC 11 - selection by engaged are - single-positive thymocytes after lineage committment, : thymocytes express either CD4 or CDS - committment through protein kinase Lck T-cells that bind too strongly to self-mHC/ Peptides are - eliminated through negative selection - > to summarize : 1) death wh lack of P S.. 2) P S.. for low. affinity for MHc/peptide. for 3) N S. high affinity for MHC/ peptide 4) CD4 vs CD8 ↓ helper killer Chapter 8-T-cell mediatedImmunity - ACTIVATION OF NAIVE T-CELLS BY ANTIGEN strategy capture pathogen and sequester in secondary L. - :. t - dendritic cells carry antigen from infection site to secondary Lt.. (draining lymph nodes associated to infected mucosal tissue - dendritic cell maturation : dendrites facilitate interactions w/ T-cells in lymph node - immature d C.: skin. + peripheral tissues - mature d C... lymph nodes - ANTIGEN PROCESSING - receptor-mediated endocytosis Captures bacteria/virus from Em and targets them to lysosomes : macropinocytosis : endocytosis of larger volumes of fluid/ pathogens unrecognized by receptors - ↳ non-receptor mediated - Naive T-cells encounter antigen presented by d - T-cell zone : Outermost part of lymph node cortex , - lymph node interact w/ mature naive enter , d C.. enters X-TCR probe peptide : MHC complexes an d.. C thrn blood surface to find antigen or afferent lymph antigen receptor of TC binds to pep : MHC -.. and T-cell is selected to stay in lymph node and activated by d.. c node antigens trapped in draining lymph - increases chances to meet TC.. Homing of Naive T-cells to draining L N. =. - homing : process by which naive T-cells leave blood stream and enter T-zone - involves all four types of cell-adhesion molecule - homing guided by chemokines conjugate pair : ac + naive antigen- - specific T-cell come together - > T-cell proliferates into effector TC - Sphingosine-1-phosphate (SIP) : eff. TC leave lymph nodes departure , controlled by SAP - ACTIVATION OF NAIVE T-CELLS WISIGNALLING J - from antigen receptor + co-stimulatory signal multiple interactions - > TCR + CD418 - CD28 Stimulate T-cell prolif + diff recognizes pep : mic recognizes BT molecule FC and DC T-cell synapse : region of contact/communication between - -supramolecular activation Complex (SMAC) : structure to concentrate TCR , CO-R , co-StimR , adhesion/signaling molecules - clustered interactions trigger signaling via phosphorylation > - TC diff. mHCI) - ~ MHC - B7 - Interleukin-2 (IL-2) : drives prolif + diff of activated i - Naive + activated TC have diff Il-2 - > activated FC has higher affinity for 11-2 ↳ acts in an autocrim fashion cytokine that acts : on same all that secreted it - antigen recognition who co-stimulation leads to anergic iC (unresponsive) - ACTIVATION OF NAIVE CD4 TC GIVES RISE TO 5 TYPES OF EFFECTOR TC (HELPER-T) 1. Th1 : activates macrophage. Th2 2 : activates response to parasites. Th17 3 : neutrophil response 4. TFH : activates B-cells effector TC. 5 Treg : suppress other * inhibitory - ACTIVATION OF NAIVE CD8TC INVOLVES IL 2 = needs activation than CD4 stronger - - z ways : 1) CD8 TC can be directly activated by a virus-infected d.. C 2) d C that induces insufficient.. co-stim can be helped by 1-2 secreted by CD4 TC to boost CD8 activation - EFFECTOR PROTEINS effector made effector iC delivered to target cells via synapses - proteins by - 2 types : cytokines : alter behavior of target all via gene regulation CytotoXMs : kill target cell - cytokines received by cytokine receptors , transduce signals to regulate gene expression - binds JAKs , assembles then phosphaylates receptors , phosphorylates , STAT initiate exp. - CD8 TC ARE SERIAL KILLERS OF TARGET CELLS AT INFECTION SITES - targeted release of cytotoxins - cytotoxic TC detach when target cell is dying - can Secrete IFN-N which inhibits viral replication + activates macrophages - THI CD4 ENHANCE MACROPHAGE FUNCTIONS macrophage activation : fusing phagosomes more efficiently w/ lysosomes increase microbicidal more. - , - Th1 activates macrophage - Th2 suppresses macrophage activation

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