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Phagocytic ProcessesOutline

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Title: Phagocytic ProcessesOutline


1
Phagocytic Processes-Outline
  • The Defenders
  • Professional phagocytes
  • The strategy
  • The process
  • Extravasation and chemotaxis
  • Recognition and phagocytosis
  • Killing
  • Digestion
  • Role in resistance to microbes
  • Role in resistance to cancer
  • Role in wound healing/bone remodeling

2
Professional Phagocytes - (phagocytosis
ingestion of particles)
  • Monocytes-blood
  • Macrophages - Reside in tissues, kill microbes,
    and process and present antigen
  • Kupffer cells
  • Alveolar macrophages
  • Microglial cells
  • Osteoclasts
  • Neutrophils - Kill microbes, do not present
    antigen
  • Dendritic cells - Primary function is antigen
    processing and presentation

3
Macrophages in action
Bacteria
Lymphocyte
4
The Strategy
  • The anti-microbial strategy involving phagocytes
    could be described as a distributed (not a
    centralized) defense
  • Phagocytes are resident in some tissues and
    quickly move into others as infection, trauma, or
    other stimuli attract them and inflammation
    begins
  • This contrasts with the strategy for initiating
    acquired immune responses, which is centralized
  • Microbial antigens (either from lymph or ingested
    by dendritic cells accumulate in secondary
    lymphoid tissues, e.g., lymph nodes).
    Lymphocytes travel through, and those specific
    for the antigen respond

5
The process - extravasation
  • Endothelial cells in regions of infection,
    trauma, etc. become activated and express E- and
    P-selectin and ICAM-1, which bind to ligands on
    leukocytes causing them to stop and begin the
    process of diapedesis. They squeeze between
    endothelial cells, secrete proteases to break
    down the basement membrane, then enter the
    tissues.

Fig. 8.11
6
The process - chemotaxis
  • Leukocytes in tissues move toward sites of
    infection by crawling toward higher
    concentrations of chemoattractants such as
    chemokines like IL-8 or bacterial products such
    as N-formyl peptides

A macrophage extends pseudopods to ingest a yeast
cell
7
Recognition
  • A variety of surface receptors on phagocytes bind
    to microbial components

Fig. 8.8
8
Recognition
  • Professional phagocytes have receptors for
    complement components that greatly enhance
    recognition and binding of microbes

Fig. 1.15
9
Recognition
  • Phagocytic cells have receptors that bind to
    antibody-coated particles. In some cases (e.g.,
    bacteria with capsules), binding and phagocytosis
    are minimal without antibody, complement, or
    C-reactive protein

Fig. 7.22
10
Phagocytosis
  • After recognition of microbial components by
    receptors on the surface of the phagocyte, the
    microbe is ingested by means of membrane
    invagination to produce a phagosome. This fuses
    with lysosomes which have a low pH and
    degradative enzymes to kill the microbe in a
    structure that is then termed a phagolysosome

Fig. 1.13
11
Phagocytosis
  • Opsonization with antibody generally enhances the
    process of phagocytosis. However, some microbes
    (e.g., Salmonella, Listeria, Mycobacteria) can
    withstand the phagolysosome environment in
    unactivated macrophages

Figure 7.23
12
Phagocytosis
  • Most bacteria are effectively retained in
    phagosomes and destroyed when these fuse with
    lysosomes. However, Listeria monocytogenes can
    escape into the cytoplasm in unactivated
    macrophages (left panel). However, activation by
    exposure to cytokines or LPS prevents this
    escape. From Higginbotham, J.N., Lin, T.L., and
    Pruett, S.B. Clin. Exp. Immunol. 88492-498

13
Phagocytosis
  • The phagosome begins simply as a pinched off
    region of cytoplasmic membrane, but it quickly
    acquires many unique proteins that are involved
    in its functions. This is revealed in the 2-D
    gel shown the proteins were identified by mass
    spectroscopy (this process is used to evaluate
    the cellular proteome).

From Garin et al., J. Cell. Biol. 152165, 2001
14
Phagocytosis
  • The Hollywood version

15
Killing
  • Mechanisms include agents that are resident in
    lysosomes of neutrophils and macrophages as well
    as processes that are triggered by phagocytosis
    (respiratory burst leading to generation of
    reactive oxygen species).

16
Killing
  • The respiratory burst generates large quantities
    of toxic oxygen metabolites that are potent
    anti-microbial agents. They are also often
    lethal to the phagocyte and may damage
    surrounding tissues as well

NADPH Oxidase
O2 NADPH NADP O2- H O2- H O2
H202 H202 Cl- OCl- H2O
Superoxide Dismutase
Myeloperoxidase
17
Killing
  • Neutrophils generate reactive oxygen species at
    near maximum levels when triggered, but
    macrophage production of reactive oxygen species
    can be increased substantially if the cells are
    exposed to certain T cell-derived cytokines such
    as IFN-g. Thus, some microbes are controlled but
    not completely cleared by the innate immune
    system, and an acquired cell-mediated immune
    response is required for clearance.

18
Killing
  • Reactive nitrogen intermediates, including nitric
    oxide (NO) are unequivocally involved in
    anti-microbial actions of macrophages in mice.
    There is considerable evidence that this is the
    case in humans as well, but the conditions
    required for macrophage activation for this
    function in humans are more rigorous and not yet
    well understood.

19
Digestion
  • Microbes are broken down by enzymes in the
    phagolysosome to basic constituents (amino acids,
    etc.) for reuse by the macrophage or excretion.
    In this process peptides are generated that
    associate with MHC class II proteins which are
    then transported to the cell surface for
    presentation to T cells. Dendritic cells are the
    most effective of the phagocytes in this regard.
    Macrophages can also perform this function, but
    they may require activation by cytokines for
    optimal performance.

20
Role in resistance to microbes
Fig. 9.10
  • Defects in phagocytes often are associated with
    profound immune deficits

21
Role in resistance to microbes
  • The effector mechanisms induced by antibody
    (neutralization and opsonization) ultimately
    depend on phagocytes (except at mucosal surfaces
    where inhibition of microbial attachment is
    critical).

22
Role in resistance to cancer
  • Tumor cells per se do not activate macrophages
    sufficiently to cause them to become tumoricidal.
    However, macrophages that are activated by other
    means can kill cancer cells by some of the same
    mechanisms used to kill bacteria as well as the
    production of TNF-a, which induces apoptosis in
    some cancer cells.
  • Thus, macrophages may or may not be important in
    normal immune surveillance for cancer, but they
    may be useful in immunotherapy, if properly
    activated.

23
Role in wound healing/bone remodeling/cellular
homeostasis
  • Macrophages are largely responsible for
    recognizing, clearing, and recycling damaged or
    old leukocytes and red blood cells.
  • Macrophages are responsible for clearing
    apoptotic cells before the internal contents of
    the cells can be release and induce an
    inflammatory response.
  • Macrophages (or related cells called osteoclasts)
    are involved in tissue repair by clearing dead
    tissue and connective tissue components and in
    bone remodeling, healing, and growth, by
    degrading regions of bone so further growth can
    occur.
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