Host Pathogen Interactions Lecture 4 - PowerPoint PPT Presentation

1 / 20
About This Presentation
Title:

Host Pathogen Interactions Lecture 4

Description:

Contact sports. Noted by physiotherapists and sports medicine physicians by increased occurences ... population levels are higher and medicine is less available ... – PowerPoint PPT presentation

Number of Views:617
Avg rating:3.0/5.0
Slides: 21
Provided by: nikhil
Category:

less

Transcript and Presenter's Notes

Title: Host Pathogen Interactions Lecture 4


1
Host Pathogen InteractionsLecture 4
  • MRSA, Group A Streptococci,
  • and TB

2
Methicillin Resistant Staphylococcus aureus (MRSA)
  • Group of Gram positive bacterial strains
  • S. aureus
  • Colonizes skin and moist squamous epithelium of
    the anterior nares (nasal)
  • 20 colonized, 60 intermittent carriers, 20
    dont have it
  • Can infect through skin abrasions, abscesses,
    burns or surgical sites
  • Generally a limited cause of pneumonia in the
    public
  • Hospital acquired infection (HA-MRSA) is more
    associated with pneumonia
  • Ventilator associated pneumonia
  • MRSA - Highly resistant to methicillin class of
    antimicrobials
  • Misnomer since this class of antibiotics is not
    used to treat this pathogen (within the last 10
    years)

3
Community acquired MRSA(CA-MRSA) a major issue
  • Primarily associated with skin and soft tissue
    infections
  • A serious issue in prisons
  • Outbreaks in closed areas and certain populations
  • Can be seen in sports associated infections
  • Wrestling
  • Rubgy
  • Contact sports
  • Noted by physiotherapists and sports medicine
    physicians by increased occurences

4
Antimicrobial resistance
  • (CA-MRSA)-Strong resistance to b-lactams
  • SCCmec cassettes
  • Mobile genetic elements that are passed among
    strains
  • Five different types
  • Most strains have SCCmec type I-III
  • CA-MRSA typically has type IV (not often found in
    hospital strains)
  • SCCmec carries mecA gene that encodes PBP2a
  • PBP2a penicillin binding protein
  • Slowly gaining resistance to vancomycin
  • VISA, VRSA strains are appearing
  • Linezolid good activity, good serum levels,
    active against MRSA, VISA, VRSA
  • , very expensive.

5
Mechanisms leading to infection and disease
  • Express capsule
  • Extra polysaccharide layer
  • Capsule displays anti-opsonic action
  • prevents opsonization (phagocytosis) by
    neutrophils
  • BUT MRSA strains are known to survive within
    neutrophils
  • MRSA possess many surface associated proteins and
    secreted toxins that promote adhesion and damage
    tissues
  • Sortase mediates anchoring to the cell wall
  • Protein A binds to IgG
  • ClfA (clumping factor) binds fibronectin (host
    surface protein)
  • Strains also have an immunomodulatory features
    that promote colonization, allowing for disease

6
(No Transcript)
7
  • Immunosuppression
  • Failure to mount an appropriate immune response
    (anergy)
  • Mediated by secretion of superantigens, Map MHC
    class II analogue protein (aka Eap)
  • Lack of antibody response seen in TSS patients
  • TSS toxin-1

8
Group A Streptococci
  • Known as a human pathogen (exclusively)
  • Streptococcus pyogenes
  • Rheumatic Heart Disease (RHD)
  • CD4 T cells recognize GAS, but also heart
    tissues resulting in heart lesions
  • Sore throat pharyngitis (non-invasive)
  • Toxic shock syndrome
  • Respiratory infection and skin/soft tissue
    infection in children
  • Necrotizing fasciitis
  • Bacteremia
  • Meningitis, septic arthritis, surgical site
    wounds
  • Transmissable to people in close contact

9
(No Transcript)
10
Pathogenicity islands and virulence factors
  • Genes within PAI are upregulated during infection
    to promote colonization and disease
  • This is achieved with dedicated transcription
    regulators
  • Mga (multigene activator)
  • Two component regulatory systems
  • Transcriptome variation during progression of
    disease
  • Entrance, survival, colonization, invasiveness
  • Toxins (a variety of produced)
  • Surface proteins for adhesion, target destruction
  • ScpA (C5a peptidase), Sic (streptococcal
    inhibitor of complement)
  • ScpC (cleaves IL-8) during invasive disease
  • Avoid the host immune response by reducing
    neutrophil recruitment to sites of infection

11
(No Transcript)
12
Mycobacterium tuberculosis
  • Major issue for the global population
  • Infection rates are rising in less developed
    countries
  • Extremely low infectious dose (1-10 bacteria)
  • Cough, sneezing (droplets)
  • Endemic where population levels are higher and
    medicine is less available
  • Drug resistant strains are appearing
  • Treatment of infected individuals is a long
    process often with failure due to non-compliance
  • Asymptomatic carriers can spread TB
    (tuberculosis) to others individuals
  • Estimated that 2 billion are infected (1/3 of
    global population!)
  • Co-infection with M. tuberculosis and HIV is the
    major issue worldwide
  • HIV patients often die due to tuberculosis
    related complications

13
The tubercule
  • A hallmark of TB disease
  • A granuloma that exists after M. tb replication
    within a macrophage (phagosome)
  • Composed of recruited T cells, bacteria and
    macrophage
  • Develops necrotic cells
  • Caseum (cheese like structuretubercule)
  • Most of the bacteria are killed, although some
    survive in a latent (dormant) form
  • Avoid an active immune response
  • Carrier, asymptomatic, in equilibrium with host
  • Can be activated and then become infectious
    again

14
Prevention of phagosome maturation
  • Phagosome maturation is critical for host defence
  • Mice (and humans) deficient in IFN-g (macrophage
    activating molecule) are highly susceptible to M.
    tb infection
  • IFN-g induces LRG47 (a host GTPase) that is then
    recruited from Golgi to phagosomes
  • IFN-g cannot stimulate the maturation of LRG47
    deficient macrophages that are infected with M.
    tb.
  • Suggests a causative link between these host
    proteins in innate immunity
  • M. tb prevents phagosome maturation
  • Disrupts phagosome membrane constituents, alters
    maturation and signaling, blocks transition of
    early to late endosome fusion
  • - SapB secreted M. tb protein with acid
    phosphatase actvity, thought to prevent membrane
    signaling
  • PknG protein kinase G
  • A secreted protein with serine/threonine kinase
    activity
  • Involved in preventing phagosome maturation
  • pknG mutants are immediately killed upon
    phagocytosis but exist outside of cells.
  • The activity of PknG can be blocked with kinase
    inhibitors (in vitro)
  • Major therapeutic area secreted protein is a
    convenient target as the inhibitor does not have
    to enter the bacterial cell (tends to be
    impermeable to many compounds)

15
Autophagy
  • Self-eating
  • Directed degradation of intracellular compounds
    for
  • Catabolites (induced by starvation)
  • Innate immune response (against intracellular
    pathogens)
  • Seen for Salmonella, Legionella and M. tb among
    others
  • IFN-g stimulation of macrophages (in vitro)
    stimulates autophagy
  • Results in M. tb phagosome fusion with
    degradative lysosomes
  • Therapies to boost the innate immune response are
    of considerable interest given the
    ineffectiveness of antibiotic treatments.
  • Overstimulation of TLR signaling to promote
    phagosome maturation?
  • Balance of inflammation (good and/or bad) and
    disease

16
PAIs within the M. tb genome
17
(No Transcript)
18
Cfp10-ESAT-6 protein complex
  • Secretion system Esx is involved in secreting
    Cfp10-ESAT-6
  • Located in the RD-1 locus (region of difference)
  • Other genes within the chromosome (not in PAI)
    are involved in complex secretion (?)
  • Deletion of RD-1 locus results in increase in DNA
    transfer (ESAT-6 secretion link to type IV
    secretion?)
  • RD-1 locus is not required for intracellular
    growth but is absolutely required for cell to
    cell spreading and invasion of other tissues
  • RD1 mutants are reduced in their ability to form
    granulomas (do not elicit a strong inflammatory
    response)
  • Supporting evidence that the M. tb induced
    tubercule is involved in spreading of this
    intracellular pathogen

19
Esx secretion what now?
  • Many members of ESAT-6 family in different PAI
  • Cfp10-ESAT-6 for a tight protein complex
  • Unclear what role the complex has but together
    they are known as potent T-cell antigens
  • The complex paradigm of the tubercule
  • Anti-M.tb (secludes bacteria which are potent
    stimulators of T cells
  • Tubercule is not truly bactericidal and M. tb
    resides there, eventually using RD1 locus to
    spread and infect other cells

20
Class review and practice quiz
  • Individual and interactive
  • Review your notes for secretion in addition to
    the Host-pathogen lectures
  • Meant to be an open discussion to promote
    learning and to answer questions
  • A list of references will be provided after the
    quiz for additional reading
  • To support the lecture material
Write a Comment
User Comments (0)
About PowerShow.com