14. Macrophages, their ontogenesis and function. - PowerPoint PPT Presentation

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14. Macrophages, their ontogenesis and function.

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Title: 14. Macrophages, their ontogenesis and function.


1
  • 14. Macrophages, their ontogenesis and function.
  • 15. T-lymphocytes, ontogenesis, surface markers.
    Subpopulations of T-lymphocytes and their
    functions.
  • 16. The role of thymus. Positive and negative
    selection of T-lymphocytes.
  • 17. B-lymphocytes - ontogenesis, surface markers,
    function.
  • 18. Primary immune organs and their role in the
    immune system.
  • 19. Secondary immune organs - structure and
    function of lymphatic node and spleen.
  • 20. Mucosal immune system.


2
Macrophages- ontogenesis
  • are a tissue- based phagocytic cells, derived
    from blood monocytes
  • play important roles in innate and adaptive
    immune responses
  • their development courses in the bone marrow
  • an undifferentiated stem cell gives rise to the
    myeloid and lymphoid progenitor
  • myeloid progenitor cells differentiate into the
    erythrocytic, granulocytic and monocytic cell
    lines and megakaryocytes

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4
Conversion
  • of the myeloid precursor cells into monocytes and
    macrophages is affected by
  • GM-CSF granulocyte-monocyte colony stimulating
    factor bone marrow (BM)stromal cells,
    lymphocytes- production of monocytes from BM
  • M-CSF monocyte colony stimulating factor-
    stromal cells, lymphocytes, endothelial cells,
    epithelial cells- production and maturation of
    monocytes
  • IL-3 lymphocytes- production of monocytes
    (other blood cells) from BM

5
Macrophages- development
  • Monocytes- in the blood
  • Macrophages - in tissues

6
Macrophages - terminology
7
histiocytes
8
Macrophages
  • a monocyte enter damaged tissue through the
    endothelium of a blood vessel
  • a monocyte is attracted to damaged site by
    chemokines, triggered by stimuli including
    damaged cells, pathogens and cytokines released
    by macrophages
  • after migration of monocytes to the tissues they
    differentiate into different form of macrophages
  • macrophages survive several months

9
Macrophage surface molecules
  • MHC gp class I, II assist in the presentation of
    epitopes to T lymphocytes
  • CD 35 - complement receptor 1 (CR 1), binds
    complement C3b
  • Receptor for the Fc portion of IgG

10
Function of macrophages
  • Phagocytosis
  • Production of monokines
  • Presentation of epitops with MHC class II
  • Presentation of epitops with MHC class I

11
Phagocytosis
  • a foreign substances are ingested
  • a living organisms are killed and digested
  • follows sparing of antigenic epitopes and their
    distribution on the cell membrane

12
Presentation epitopes with MHC gp class II
  • After endocytosis and degradation of the antigen,
    preservation of its epitopes follows
  • epitope is coupled with the MHC gp class II-
    moved to the cell surface and contact the T-cell
    receptor
  • MHC (major histocompatibility complex) complex
    of genes that governs the production of the major
    histocompatibility antigens - in humans are
    termed HLAs (human leukocyte antigens)

13
Presentation epitopes with MHC gp class I
  • intracelular parasites are degradeted in
    proteasomes of macrophages
  • their peptides are coupled to TAP (transporters
    associated with antigen processing molecules 1,2)
    that carry the epitope and MHC gp class I to the
    cell surface- protect epitopes from phagocytic
    destruction

14
Monokines cytokines produced by macrophages
  • IL- 1 a, ß- stimulate both T and B cells, IG
    synthesis, activation of other macrophages,
    sensitizing cells to IL-2 and IFN
  • TNF- a - similar in function to IL-1
  • IL- 8 - secreted by activated macrophages
  • - chemokine for neutrophils, T cells
  • IL-12 - promotes induction of Th1 cells, inhibits
    Th2 cells
  • IFN- a- activates host cells to induce enzymes
    that inhibit protein synthesis needed for viral
    replication increases expression of MHC gp I
    class on host cells activates NK cells, T cells,
    other macrophages

15
Macrophage - functions
  • Macrophages provide line of defense against tumor
    cells and body cells infected with fungus or
    parasites.
  • a T- cell becomes an activated effector cell
    after recognition of an antigen on the surface of
    the APC, releases chemical mediators that
    stimulate macrophages into a more aggressive form

16
15. T-lymphocytes, ontogenesis, surface markers.
Subpopulations of T-lymphocytes and their
functions.
17
T lymphocytes- ontogenesis
  • The undifferentiated stem cell in BM gives rise
    to the lymphoid precursor cell which matures into
    3 types of lymphocytes
  • T lymphocytes
  • B lymphocytes
  • Natural killer (NK) cell
  • Pro-thymocytes come to the thymus where continue
    the maturation into T lymphocytes
  • Maturation of B lymphocytes continue in BM

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19
Surface markers of T cells
  • CD (cluster of differentiation) proteins-
    molecules on the cells membrane, allow the
    identification of cells
  • TCR- receptor for antigen
  • MHC gp I or II class

20
CD proteins
  • allow an identification of T-cell subsets
  • CD 2 adhesion molecule
  • CD 3 important in intracellular signaling to
    initiate an immune response closely associated
    with TCR
  • CD 5,7
  • CD 4,8 are expresed on subclasses of mature T
    cells CD4 reacts with MHC gp II.class),CD8
    reacts with MHC gp I. class on macrophages
  • CD 28- receptor for costimulator molecules CD80
    and 86

21
Maturation of T lymphocytes
  • Consist of three types of processes
  • Proliferation of immature cells
  • Expression of antigen receptors genes
  • Selection of lymphocytes that express useful
    antigen receptor (TCR)

22
TCR
  • Antigen receptors are encoded by several gene
    segments that recombine during lymphocyte
    maturation
  • Heterodimer consisting of 2 nonidentical
    polypeptide chains linked together by disulfide
    bonds
  • gt 95 T cells express the aß heterodimer, 5 ?d
  • TCR heterodimer is noncovalently associated with
    the ?,d,e chains of the CD3 molecule
  • COMPLEX TCR- CD3 makes contact with both the Ag
    and MHC gp

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24
Subpopulation of T cells
  • Subpopulation of T cells have been defined
    according to their particular function and their
    CD membrane markers
  • Cytotoxic T lymphocytes TcCD8
  • - recognize the foreign epitope in
    association
  • with class I MHC molecules
  • Helper T-lymphocytes Th CD4
  • - recognize the epitopes in association with
  • class II MHC molecules

25
Cytotoxic T lymphocytes (TcCD8)
  • cause lysis of target cells are active against
    tumors, virus-infected cells, transplanted
    allogenetic tissue
  • release TNF- depresses proteosynthesis
  • recognize the foreign epitope in association with
    class I MHC molecules
  • destroy their target cells by releasing perforin
    (create poresin the cell membrane and cytoplasm
    escapes) and granzymes (degrading essential
    macromolecules)

26
Helper T-lymphocytes(Th CD4)
  • recognize the epitopes in association with II MHC
    p II.class
  • help B cells to produce antibodies and help
    phagocytes to destroy ingested microbes
  • subsets of Th cells Th1, Th2 cells

27
Th1 cells
  • secrete
  • INF-? (gamma interferon) activates macrophages
    to become more effective at killing phagocytosed
    microbes, supresses the development of Th2 cells
  • IL- 2 stimulates survival and proliferation of
    T cells, called T-cell growth factor
  • TNF (tumor necrosis factor)- stimulates the
    recruitment of neutrophils and monocytes to sites
    of infection, activates these cells to eradicate
    microbes
  • IL-3 promotes expansion of immature marrow
    progenitors of all blood cells
  • GM-CSF acts on progenitors in the bone marrow
    to increase production of neutrophils and
    monocytes

28
Th2 cells
  • secrete
  • IL-4 induces differentiation of Th2 cells from
    naive CD4 precursors, stimulation of IgE
    production by B cells
  • IL-5 activates mast cells
  • IL-6 stimulates the synthesis of acute phase
    proteins by hepatocytes
  • IL-10 inhibits activated macrophages, supresses
    Th1 production
  • IL-3, GM-CSF

29
Regulatory T cells
  • Express CD4, CD25, FoxP3
  • Regulate the activation or effector function of
    other T cells
  • Are necessary to maintain tolerance to self
    antigens

30
16. The role of thymus. Positive and
negative selection of T lymphocytes.
31
The role of thymus
  • In the two thymic lobes, lymphocyte precursors
    from the bone-marrow become thymocytes, and
    subsequently mature into T cells
  • Once mature, T cells emigrate from the thymus and
    constitute the peripheral T cell repertoire
    responsible for directing many facets of the
    specific immune system

32
Phases of thymocyte maturation
  • A rare population of hematopoietic progenitors
    enters the thymus from the blood, and expands by
    cell division to generate a large population of
    immature thymocytes
  • Immature thymocytes each make distinct T cell
    receptors by a process of gene rearrangement.
  • This process is error-prone, and some thymocytes
    fail to make functional T cell receptors, whereas
    other thymocytes make T cell receptors that are
    autoreactive

33
Positive and negative selection
  • Immature thymocytes undergo a process of
    selection, based on the specificity of their T
    cell receptors.
  • This involves selection of T cells that are
    functional (positive selection), and elimination
    of T cells that are autoreactive (negative
    selection)

34
Thymus positive selection of T - cells
  • precursor T cells enter thymus from the blood
  • they are presented with self-antigens complexed
    with MHC molecules on the surface of cortical
    epithelial cells
  • only those thymocytes which bind the MHC/antigen
    complex with adequate affinity will receive a
    vital "survival signal"
  • the other thymocytes die (gt95)

35
Thymus negative selection of T - cells
  • thymocytes that survive positive selection
    migrate towards the boundary of the thymic cortex
    and thymic medulla
  • they are again presented with self-antigen in
    complex with MHC molecules on antigen-presenting
    cells
  • thymocytes that interact too strongly with the
    antigen receive an signal for apoptosis

36
17. B-lymphocytes - ontogenesis, surface markers,
function.
37
B-lymphocytes
  • are an essential component of the innate immune
    system
  • Maturation of B cells course in the BM
  • B cells ordinate from stem cells and need to be
    in touch with the stromal cells in the bone
    marrow
  • Stromal cells produce SCF (stem cell factor)
    needed for development at early period, IL-7
    needed at later period of maturation
  • Ig gene rearrangements and the appearance of
    surface markers identify the stage of B-cell
    development

38
Development of B lymphocytes
  • Lymphoid progenitor gives rise to precursors of B
    cells pro- B cells
  • During maturation from the pro-B cells into the
    pre-B cells Ig genes of the heavy chain
    recombine pre-B cells express pre-BCR
  • During maturation from the pre-B cells into the
  • B cells Ig genes of the light chain
    recombine
  • Immature B cells express membrane IgM
  • Mature B cells express membrane IgM and IgD BCR
    and are able to respond to antigen in peripheral
    lymphoid tissues

39
Negative selection
  • If an immature B cell binds an antigen in the
    bone marrow with high affinity- further
    maturation is stopped and B cell dies by
    apoptosis
  • Negative selection eliminates potentially
    dangerous cells that can recognize and react
    against self antigens
  • B cells that survive this selection process leave
    the bone marrow through efferent blood vessels

40
B-lymphocytes surface markers
  • CD 10 - immature B cells, malignant cells
  • CD 35 - receptor for the C3b of the complement
  • CD 19 - a characteristic marker of B cells
  • CD 20 - a typical surface antigen of Ig-positive
    B lymphocytes
  • IgM, IgD - antigen receptors BCR
  • MHC class II - antigen-presenting molecules

41
B-lymphocytes functions
  • After stimulation B lymfocytes convert into the
    plasma cells and produce antibodies against
    soluble antigens
  • Other functions are
  • antigen presentation
  • cooperation with complement

42
18. Primary immune organs and their role in the
immune system.
43
Primary immune organs
  • Bone marrow
  • Thymus
  • are places of development, differenciation and
    maturation of immunocompetent cells and
    elimination of autoreactive cells
  • T and B lymphocytes mature and become competent
    to respond to antigens in PIOs

44
Bone marrow
  • is the central cavity of bone that is the site of
    generation of all circulating blood cells in the
    adult, including immature lymphocytes, and the
    site of B-cell maturation.
  • The pluripotent stem cell gives rise to the
    progenitor of all immune cells
  • Production of cells course in the places divided
    by vascullar sinuses
  • Endothelial cells of the sinuses produce
    cytokines
  • Sinuses are borded by reticular cells

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Differentiation in the BM
  • Differentiation from the stem cell is influenced
    by
  • membrane interaction between the stem
  • cells and the stromal cells
  • cytokines (CSF, IL-3, trombopoetin,
  • erytropoetin)

47
Thymus
  • is located between the sternum and the major
    vessel trunks
  • It consist of two lobes
  • Each lobe is surrounded by a capsule and is
    divided into lobules, which are separated from
    each other by strands of connective tissue
    trabeculae

48
Structure of the thymus
  • Each lobule is organized into two compartments
  • the cortex (outer compartment) contains
    lymphocytes that proliferate
  • the medulla (inner compartment)- mature
    lymphocytes, Hassalls bodies

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Thymus - morphology
  • stromal cells composed of
  • thymic epithelial cells produce thymulin,
    thymopoetin, thymosin that influence the
    maturation of T cells
  • dendritic cells
  • macrophages
  • The thymus contain a large number of blood
    vessels and efferent lymphoid vessels that drain
    into the mediastinal lymph nodes

51
19. Secondary immune organs - structure and
function of lymphatic node and spleen.
52
Secondary immune organs
  • consist of the spleen, the lymph nodes, the
    mucosal and cutaneous immune system
  • are organized to optimize interactions of
    antigens, APCs and lymphocytes
  • are places of the development of adaptive immune
    responses

lymphatic nodes
Peyers patches
tonsils
spleen
appendix
MALT
53
Lymphatic node
  • are nodular aggregates of lymphoid tissues
    located along lymphatic channels throughout the
    body
  • Lymph comes from tissues and most parenchymal
    organs to the lymph nodes
  • Lymph contains a mixture of substances absorbed
    from epithelia and tissues
  • as the lymph passes through lymph nodes, APCs in
    the LN are able to sample the antigens of
    microbes that may enter through epithelia into
    tissues

54
Lymphatic node
  • lymph circulates to the lymph node via afferent
    lymphatic vessels and drains into the node just
    beneath the capsule in a space called the
    subcapsular sinus
  • the subcapsular sinus drains into trabecular
    sinuses and finally into medullary sinuses
  • the sinus space is criss-crossed by the
    pseudopods of macrophages which act to trap
    foreign particles and filter the lymph
  • the medullary sinuses converge at the hilum and
    lymph then leaves the lymph node via the efferent
    lymphatic vessel

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Lymphatic node- medulla
  • The medullary cords are cords of lymphatic
    tissue, and include plasma cells and T cells
  • The medullary sinuses are vessel-like
    spaces separating the medullary cords
    contain histiocytes ( immobile macrophages) and
    reticular cells.
  • Lymph flows to the medullary sinuses from
    cortical sinuses, and into efferent lymphatic
    vessels

57
Lymphatic node- cortex
Contains lymphoid folicles acumulation of
B-lymphocytes and folicular dentritic cells When
a lymphocyte recognizes an antigen, B cells
become activated and migrate to germinal centers
to the secondary nodule
58
Spleen
  • is a secondary lymphoid organ positioned high in
    the left abdominal cavity
  • is surrounded by a capsule, which sends
    trabeculae into the interior to form a
    compartmentalized structure
  • there are two types of compartments -red pulp and
    white pulp with a marginal zone in between
  • is NOT supplied by afferent lymphatics

59
Spleen
  • Red pulp place of mechanical filtration and
    elimination of senescent red and white blood
    cells and microbes
  • White pulp T lymphocytes CD4,CD8 are around
    arterioles (periarteriolar lymphoid sheaths), B
    lymphocytes are in the folicles final maturation
    of B lymphocytes course in germinal center of
    secondary folicles

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61
Mucosal immune system
  • MALT mucosal-associated lymphoid tissue
  • GALT gut-associated lymphoid tissue
  • BALT bronchus-associated lymphoid tissue
  • digestive, respiratory, and urogenital systems
    are lined by mucous membranes
  • includes loose clusters of lymphoid cells in
    lamina propria of intestinal villi
  • contains a very large population of plasma cells
    that synthetize IgA antibodies

62
M cells
  • are epithelial cells that are specialized for the
    transport antigen from the lumen of the
    respiratory, digestive, and urogenital tracts to
    the underlying MALT
  • contain a characteristic pocket filled with B
    cells, T cells, and macrophages
  • are found at inductive sites that overlie
    organized lymphoid follicles in the lamina
    propria
  • antigens are endocytosed and transported within
    vesicles from the luminal membrane to the pocket
    membrane, where the vesicles fuse and deliver
    their contents to antigen-presenting cells

63
DC dendritic cells, IEC intestinal epithelial
cell (Nu-nucleus), MC M cell, IEL intra
epithelial lymphocytes, PP Peyers patches, MØ
macrophages
Pv particulate Ag in pinocytic vesicle of M cell
64
Secretory IgA
  • daily production of secretory IgA into mucous
    secretions exceeds that of any other class of
    immunoglobulin (5-15 g each day)
  • is an important line of defense for mucosal
    surfaces against bacteria
  • binding of secretory IgA to bacteria and viruses
    also prevents attachment to mucosal epithelial
    cells, thereby inhibiting infection and
    colonization

65
Cutaneous immune system
  • Epidermis contains keratin cells that produce
    IL-1, 6 and TNF during inflamation and IL-10,
    TGF-ß during healing
  • Dermis contains fibroblasts that produce
    collagen, remove apoptotic cells
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  • burianovam_at_fnplzen.c
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