Immunology Flashcards
What are the 2 types of acquired immunity?
What type of cell is responsible for each?
Humoral (Ab-mediated) - B cells
Cell-mediated - T cells
What can happen when the immune balance is tipped off?
- Over-reaction (Reaction to self/ Autoimmunity, Allergies)
2. Under-reaction: Infections, Cancer
When is natural and adaptive immunity present?
Natural: From birth
Adaptive: By presence of foreign materials; environment-dependent
How fast do innate and acquired immunity respond?
Innate: Rapid, first to respond (0-96hrs)
Acquired: Slow, lag time from exposure (>96hrs)
Which immunity has memory and is specific?
What does immunological memory help it to do?
Acquired immunity.
Memory allows it to respond faster and more powerfully subsequently
Specific and unique response to each antigen
What helps to self-regulate the acquired immune system?
Regulatory T-cells; to maintain tolerance to self-antigens, and has immunosuppressive function)
What does loss of tolerance to self-antigens result in?
Autoimmunity
Which immune system is able to discriminate from self and non-self?
Both
In the following immune cells and factors:
Macrophages, B cells, Mast cells, NK cells, Neutrophils, T cells, Antibodies, Complement.
Which immune system do they each fall under?
Innate: Macrophages, Mast cells, NK cells, Neutrophils, Complement
Acquired: B cells, T cells, Antibodies
What are 4 positive acute phase proteins and 2 negative acute phase proteins?
Positive: IgG, C3b, CRP, Mannose-binding lectin
Negative: Albumin, Transferrin (Values decreases when there is inflammation)
Which immune system does physical barriers fall under?
Innate
Which system does pathogen usually attack? (2)
Circulatory and lymphatic
What are physical/ structural factors of the skin as a natural barrier? (4)
Tightly packed
Multi-layered (Stratified squamous)
Highly keratinised
High turnover
What are 2 physiological factors of the skin for it to act as a natural barrier?
pH5.5 (Acidic) - Sweat, saliva, urine, gastric acid
Low O2 tension
What are 5 secretions of the skin to prevent pathogen entry?
Hydrophobic oils from sebaceous glands Ammonia Enzymes (Lysozyme in tears and sweat to digest bacteria cell wall) Defensins Anti-microbial peptides (Directly kills)
Where does mucous membrane line?
Body CAVITIES in contact with environment
What are 3 components of the mucous membrane as a natural barrier?
Mucus - traps bacteria and removed by ciliated cells via sneezing/ coughing
Secretory IgA (DIMER): prevents attachment and penetration
Lactoferrin: starve pathogens of iron
Other than skin and mucous membrane, what else exists as part of the physical barrier as a first line of defence?
Commensal bacteria - competes with pathogen for resources
They also produce fatty acids and bactericidins
How do hair and earwax contribute to natural barrier?
Traps pathogens
What are 2 tissue-resident innate immune cells and what are their roles?
- Macrophages - bacteria killing, phagocytosis, antigen presentation (Pro-inflammatory), wound healing and tissue repair (anti-inflammatory)
- Mast cells - parasitic killing (pro-inflammatory)
What is the process of coating pathogens to enhance phagocytosis?
What are 3 factors that help coat?
Opsonisation.
Opsonins: IgM/G, C3b, CRP
What signature molecular motif do pathogens express and what receptors bind to these motifs? Which cell expresses these set of receptors?
What happens upon binding?
Pathogens express PAMPs
Macrophages have PRRs that binds to specific PAMPs
Cytoskeletal rearrangement -> phagosome formation -> fuse with late endosomes and lysosomes -> mature phagolysosomes -> killed internally and contents digested by proteases and hydrolyases
What happens to the degraded products in the phagolysosome?
Antigens - released into ECF
Pathogen-derived peptides - expressed on MHC-II molecules
What can induce phagocytosis? (2)
What are released in the process? What do they cause?
PAMPs and opsonin binding
Pro-inflammatory mediators causing localised, acute inflammation
5 examples of pro-inflammatory mediators
TNFa, NO, Prostaglandins, Leukotrienes, Histamines
What happens when parasites invade?
Too large to be phagocytosis thus:
Damaged cells send out danger signals to mast cells and/or PRR and PAMP binding –> activate –> degranulate (pre-formed pro-inflammatory substance released) and gene expression (produce new pro-inflammatory substance) –> extracellular pathogen killed
What are the 5 hallmarks of ACUTE inflammation?
- Redness - arteriole vasodilation, increased blood flow
- Oedema - increased post-capillary venule permeability and fluid accumulation in extravascular space
- Pain - stimulation of nerve endings
- Loss of function - due to pain and swelling
- Fever - temperature set point raised in hypothalamus
What are the 3 complement pathways?
Classical, Mannose-binding lectin, Alternative
What plasma cascade system produces protein to sustain vasodilation and other physical inflammatory effects?
Kinin system
What activates C5 convertase?
Active C3b on cell surface
What is formed at the last step of the complementary system?
MAC complex
How is C3 convertase activated in the mannose binding pathway?
Mannose-binding lectin (MBL) binds to mannose and peptidoglycan on bacteria causing MBL to change conformation and complex which then activate C3 convertase
What does the alternative complement pathway involve?
Amplication and positive feedback of C3 convertase by re-using C3b from cleaved C3
Why does C3b not causing any downstream complement effects on human cells?
Have inhibitory proteins against C3b
Does C5b or C5a go on to form the MAC?
C5b
What are anaphylatoxins? What are their effects (3)
C3a and C5a.
Changes local vasculature, acute inflammation and leukocyte recruitment by activating and degranulating mast cells an acting directly on local blood vessels
What vascular changes does inflammation promote?
Vasodilation of post-capillary venules thus losing tight junctions and causing redness and oedema
How are neutrophils (monocytes) recruited, activated/ mobilised during inflammation? (5)
Margination due to increased viscosity and slower flow AT POST-CAPILLARY VENULES
Binding to adhesion molecules on endothelial cells (Selections, ICAM-1)
Migration across endothelium via diapedesis
Movement within tissue via chemotaxis along chemotactic gradient
Neutrophils killing mechanism activated by PAMPs
How do neutrophils navigate within tissues?
Its integrins bind to extracellular matrix proteins
What promotes expression of Selectins on endothelial surface. What neutrophil movement does it cause?
Histamine and TNFa.
Weak binding to neutrophil surface causes it to roll along endothelium
What does ICAM-1 bind to? What is required for firm binding?
LFA-1 receptor
Chemokines from damaged cells needed to fully activate LFA-1 receptor to firmly bind to ICAM-1 for stable adhesion and aggregation
Neutrophil activation enhanced in presence of?
Pro-inflammatory mediators
LFA-1 deficiency is due to defective?
What mode of inheritence is this?
Defective CD18 - neutrophils cannot migrate out
Autosomal recessive
What are the 3 roles of neutrophils?
Phagocytosis
Degranulation
Neutrophil extracellular traps
How do neutrophils kill internalised pathogens? (2)
- Phagolysosomal killing - pH rise to activate antimicrobial response and pH drops for acid hydrolases to degrade bacterium
- ROS-dependent: NADPH-oxidase complex assemble to release ROS into phagolysosome
What damage does neutrophillic degranulation cause? (3)
What is it limited by? (1)
Directly kill nearby bacteria and fungi and causes bystander tissue damage
Limited by proteinase inhibitors
What induces Neutrophil extracellular traps?
What does NETs do?
Extracellular bacteria and fungi.
Release of intra-nuclear contents (DNA, histone, granular proteins, neutrophil elastase) to immobilise and trap pathogens to stop them from spreading.
What is the best antigen presenting innate immune cell?
Dendritic cell
What is the best innate immune cell for TNFa production, killing and degradation?
Neutrophil
How long is the T1/2 for CRP?
Short
Can viruses be phagocytosed?
No, too small for recognition
What do viral infected cells release? Are these virus specific?
IFNa/B.
No, they are host specific
What does IFNa/B signal neighbouring infected (1) and uninfected (3) cells to do?
Uninfected - destroy own RNA, slow protein synthesis and increase surface MHC I to activate T-cells
Infected - undergo apoptosis
What innate immune cell is activated during viral infection? How is it activated?
NK cells (Longer lived Large granular lymphocytes) Activated when MHC I is downregulated/ absent (in cancer/ pathogens) --> releases cytotoxic granules (perforins and granzymes) along with IFN-y and TNFa at close-proximity leading to apoptosis
**Lysis will lead to virion release
Other than responding to MHC I levels, what other pathogens do NK cells kill?
Ab-bound pathogens
Where do T-cells mature?
Thymus
