Pathogenesis: Invasion Flashcards
Why bacteria invade host cells?
- Access to ready supply of nutrients
- Protection from host defenses
Majority of bacterial pathogens are BLANK cellular pathogens
extra
Obligate intracellular bacteria
- Replicate only within host cells
- Rickettsia, Chlamydia
Facultative intracellular bacteria
- Can replicate intra- and extracellularly
- Salmonella, Listeria, Mycobacterium
Invasion of phagocytic cells requires pathogens to do what?
possess the ability to counteract the killing ability of phagocytes
Invasion of non-phagocytic cells (eg. epithelial cells) requires?
bacteria produce molecules called Invasins to alter host cell cytoskeleton to promote the uptake of a bacterium
invasins
Bacterial proteins that provoke engulfment of the bacterium by non-phagocytic host cells
Type III protein secretion system
- serves to inject signaling proteins (invasins or effector proteins) from the pathogen directly into the host cell
- Injected effectors promote the cytoskeleton rearrangement in host cell: polymerization and de-polymerization of actin
- Promotes the engulfment and uptake of a bacterium by a (non- phagocytic) host cell
Thus, the pathogen is in effect forcing phagocytosis by eliciting formation of pseudopod-like structures by rearranging host cell cytoskeleton.
Once inside a phagocytic cell, an intracellular pathogen can reside in one of the three general intracellular niches
- inside a phagosome vacuole which has not yet fused with a lysosome
- within a phagolysosome that has acidic environment with hydrolytic enzymes
- and in the host cell cytosol.
Which bacterial pathogens have evolved many mechanisms to survive inside a phagosome vacuole which has not yet fused with a lysosome?
- Legionella pneumophila
- Salmonella Typhimurium
- Mycobacterium tuberculosis
Legionella pneumophila
when taken up in a phagosome, prevent acidification and fusion with a lysosome. The vacuole becomes surrounded by endoplasmic reticulum-derived membranes. The bacteria replicate in the vacuole, escape the vacuole and lyse the phagocytic cell.
Salmonella Typhimurium
when taken up by a macrophage, prevent a phagosome fusion with lysosome. The bacteria replicate in the specialized Salmonella-containing vacuole.
Mycobacterium tuberculosis
is taken up into a phagosome. The bacterium prevents phagolysosome fusion by recruiting host proteins to the phagosome, while blocking recruitment of lysosomal hydrolases, so no acidification occurs. The bacteria replicate in the resulting vacuole.
How have bacterial pathogens have evolved many mechanisms to survive inside harsh conditions of a phagolysosome