Innate immunity

Question 1

define aetiology

Answer 1

the causes of disease

Question 2

define pathogenesis

Answer 2

how disease develops

Question 3

necrosis

Answer 3

the death of a cells in an uncontrolled manner, often but not always due to hypoxia or ischaemia

Question 4

apoptosis

Answer 4

genetically controlled programmed cell death.

• cell shrinks, nucleus compacts (pyknosis), nucleus fragments (karyorrhexis), and plasma membrane blebbing.
• the activation of proteases (caspases) commits the cell to mitochondrial or death receptor pathways.
• phagocytes engulf apoptotic bodies to prevent collateral damage to the surrounding tissues

Question 5

commensals

Answer 5

the microorganisms always present in or on us but that only cause damage when epithelial barriers are breached.

Question 6

what are pathogens

Answer 6

infectious organisms that cause disease

Question 7

what are inflammatory diseases

Answer 7

disease caused by inappropriate or excessive immune responses

Question 8

the afferent arm of the immune system

Answer 8

the mechanisms responsible for the discrimination of seld from non-self

Question 9

the efferent limb of the immune system

Answer 9

the mechanisms triggered by the afferent arm that are responsible for inflammation and effector mechanisms to remove the pathogen and return the tissue to homeostasis.

Question 10

innate immunity?

Answer 10

in place before infection and designed to react immediately

Question 11

adaptive immunity

Answer 11

develops if the innate system fails to resolve the infection. highly specific for each pathogen

Question 12

overlap between the innate and adaptive immune systems

Answer 12

• innate responses vary depending on the type of microorganism, and this directs the type of adaptive response that is generated.

2 - the adaptive systems co-operate with many of the effector mechanisms of the innate system to direct them in a highly specific manner.

Question 13

3 components of the innate system

Answer 13

barriers, cells and soluble proteins

Question 14

barriers of the innate system

Answer 14

skin, mucosal epithelia, anti-microbial chemicals

Question 15

cells of the innate system

Answer 15

phagocytes such as neutrophils and macrophages, eosinophils, mast cels and natural killer cells

Question 16

soluble proteins of the innate system

Answer 16

cytokines, acute phase proteins, complement, inflamatory mediators

Question 17

bariers of the adaptive system

Answer 17

lymphocytes in the epithelia, antibodies at the mucosal surfaces

Question 18

cells of the adaptive immune system

Answer 18

T and B lymphocytes

Question 19

coluble proteins of the adaptive system

Answer 19

antibodies (immunoglobulins)

Question 20

what does inflammation depend on

Answer 20

an intact vascular system, dead tissue wont undergo inflammation

Question 21

what is inflammation

Answer 21

a stereotypic response to either microbial infection or tssue injury. the funtion is to eliminate the pathogen, repair the damage and return to a state of homeostasis.
- it is rapid and destructive but specific and self-limiting

Question 22

trigger for inflammation

Answer 22

the activation of resident cells and complement with the release of inflammatory mediators

Question 23

general events in inflammation

Answer 23

vasodilatation , increase vascular permeability, eigration of leucocytes, the accumilation of a cellular, protein rich exdate.

Question 24

overview of the 5 steps of innate inflammatory immune responses

Answer 24

1 - recognition of infection or damage
2 - vascular response to injury
3 - elimintation of the pathogen
4 - resolution of the inflammation, repair and return to hoeostasis
5 - if the innate sytem fails to eliminate the pathogen then adaptive immunity is induced.

Question 25

what mediates step 1 - recognition

Answer 25

PRRs and complement

Question 26

step 2 - vascular response to injury

Answer 26

recruitment of cells and soluble factors to form the acute inflammatory exudate

Question 27

step 3 - mediation of innate elimination

Answer 27

by phagocytosis and complement

Question 28

step 5 - inaduction of adaptive immunity

Answer 28

Dendritic cells take up pathogen fragments and migrate to the regional lymph node.

Question 29

3 cell lineages from the hematopoietic stem cell?

Answer 29

1 - common lymphoid progenitor
2 - common myeloid progenitor
3 - common erythroid megakaryocyte progenitor

Question 30

cells derived from the common lymphoid progenitor

Answer 30

1 - b cells - plasma cells

2 - NK/T cells precursor which gives two lineages : T cell - effector T cell , and the NK cell

Question 31

2 lines from the common myeloid progenitor

Answer 31

1 - common granulocyte precursor
2 - an unknown precursor that gives rise to the monocyte lineage (gives macrophages and dendritic cells) and the mast cells.

Question 32

cells from the common granulocyte precursor

Answer 32

1 - neutrophil
2 - eosinophil
3 - basophil

Question 33

2 lineages from the common erythroid megakaryocyte progenitor

Answer 33

1 - megakaryocyte - platelets

2 - erythroblast - erythrocyte

Question 34

general funciton of the eosinophils an dbasophils

Answer 34

to defend against helminth worms and parasites

Question 35

where are complement proteins made?

Answer 35

in the liver

Question 36

key to complement’s rapid response

Answer 36

the proteins form an enzymatic cascade capable of tremendous amplification, regulatory proteins are essential to controlling the cascade.

Question 37

3 main funcitons of complement in eliminating the pathogen

Answer 37

1 - activation of inflammation
2 - opsonisation of microbes
3 - lysis of target cells.

Question 38

the basis of C3’s reactivity

Answer 38

an internal thioester bond that is normally stable but can become highly reactive following conformational changes. activation by cleavage

Question 39

functions of C3a

Answer 39

1 - stim vascular permeability
2 - recruit effector cells
3 - so its an anaphylatoxin

Question 40

funciton of C3b

Answer 40

the larger fragment
1 - complement fixation (binds bacterial surfaces) to target for phagocytosis (opsonisation)
2 - cleaves C5

Question 41

function of C5a

Answer 41

an anaphylatoxin

Question 42

funciton of C5b

Answer 42

formation of the membrane attack complex

Question 43

3 complement pathways

Answer 43

1 - classical
2 - lectin
3 - alternative

Question 44

what’s common to all the complement pathways ?

Answer 44

they al lead ot the formation of some sort of C3 convertase to activate C3. so whilst they are activated by different things, they all have the same effector functions.

Question 45

what complement pathway acts first

Answer 45

the alternatve pathway

Question 46

what initiates the alternative pahtwya

Answer 46

the spontaneous hydrolysis of C3 - termed tick over

Question 47

alternative pathway tick-over?

Answer 47

cleavage of the thioester bond in C3 to form C3(H2O).

• Factor B binds this complex.
• factor D then cleaves factor B to make Ba and Bb to form C3(H2O)Bb - this is the C3 convertase and is stabilised by the serum protein Properdin. C3(H2O)BbP
• Properdin mutation/loss of function causes susceptibility to infectious diseases particularly bacterial meningitis.
• when C3 is cleaved by the convertase, the C3b portion forms the positive feedback loop, being bound by Factor B, cleaved by D and stabilised by properdin to make the C3 convertase - C3bBbP

Question 48

what are PAMPs

Answer 48

pathogen associated molecular patterns - highly conserved structures present on the surface of many microbes

Question 49

what are PRRs

Answer 49

pathogen recognition receptors - they can be expressed by cells (TLR) or be soluble (CRP)

Question 50

describe the activation of the lectin pathway

Answer 50

Mannose binding lectin (MBL) is a soluble PRR and forms oligomers to bind mannose and fucose residues on pathogens with high avidity.

• MASPs associate (proteases) and are activated when MBL binds pathogens.
• the MASPs activate C4 and C2
• the C3 convertase C4b2a is formed

Question 51

describe activation of the classical pathway

Answer 51

C1 binds pathogens or bound antibodies (so innate and adaptive).

• C1 consists of C1q (the pathogen sensor), and the proteases (C1r and s) which activate when C1q binds.

Question 52

what does C1q of the classical pathway bind?

Answer 52

1 - bacteria directly
2 - CRP which binds the phosphocholine component of lipopolysaccharides
3 - the Fc region of Ig that are bound to pathogens (specific directing of the innate system)

Question 53

dynamics of the complement cascade

Answer 53

the alternative pathway is firt ot be effective but as the acute phase response develops and masses of MBL and CRP are released from the liver, these other 2 pathways become highly effective.

Question 54

host methods of complement inhibition

Answer 54

1 - decay accelerating factor
2 - membrane cofactor protein
- prevent formation and promote degredation of C3 convertases.

Question 55

what complement components are anaphylatoxins are how do they act

Answer 55

C3a and C5a

• act on blood vessels to increase permeability, upregulate endothelial cell adhesion molecules and increase smooth muscle contraction.
• cause mast cell degranulation
• excessive production can cause anaphylactic shock

Question 56

process of opsonisation and phagocytosis

Answer 56

• receptors for complement and Fc are present on phagocytes = opsonins
  1 - receptor binding, acting assembly triggered to engulf
  2 - particle enclosed in the phagosome. fuses with acidic lysosomes containing hydrolytic enzymes to form the phagolysosome.
  3 - killing and degradation of pathogen, sometimes with oxidative burst using ROS

Question 57

difference between macrophages nad neutrophils

Answer 57

both are phagocytes but they complement each other.

• macrophages are resident as sentinel cells, neutrophils infiltrate in response to infection and are relatively short lived. the presence of neutrophils is a hallmark of acute inflammation.
• dead neutrophils are phagocytosed by macrophages.

Question 58

what is pus

Answer 58

dead and dying neutrophils and fibrin and other debris.

Question 59

MAC formation?

Answer 59

membrane attack complex

• C5 activation by C3b on the pathogen surface is the initiating event.
• C5b complexes with C6,7 and 8 to form a complex in the membrane that C9 polymerises on to form a channel.
• not as imp as C3b deposition but effective for some infections.

Question 60

MAC component deficiency causes?

Answer 60

susceptible to gonorrhoea or nisseria meningitis

Question 61

regulation of MAC formation on human cells?

Answer 61

CD59 binds the MAC to revent C9 polymerisation.

Question 62

what’s paroxysmal nocturnal haemoglobinuria?

Answer 62

RBCs lack in CD59 and are lysed by complement.

Question 63

four soluble components of innate immunity other than complement

Answer 63

1 - cytokines
2 - histamine
3 - inter-related soluble protein systems eg kinin system
4 - lipid inflammatory mediators

Question 64

paracrine cytokines?

Answer 64

act on other cell types

Question 65

autocrine cytokines

Answer 65

act on the same cell type

Question 66

endocrine cytokines?

Answer 66

act systemically

Question 67

3 characteristics of cytokines

Answer 67

1 - act via specific receptors
2 - redundancy - overlapping funcitons
3 - pleiotropism - one cytokine has multiple functions.

Question 68

major source of cytokines in acute inflammation?

Answer 68

macrophages

Question 69

3 classes of cytokine, general function and some examples

Answer 69

1 - interleukins - affect cell activation and behaviour - IL-1, IL-2 etc
2 - interferons - antiviral, cell activation - INF alpha, beta, gamma
3 - tumour necrosis factors - diverse functions - TNF alpha and beta

Question 70

3 inter0related soluble protein systems used in the acute inflammatory response

Answer 70

1 - the kinin system - makes bradykinin = potent inflammatory mediator
2 - clotting system - fibrin strands
3 - fibrinolytic system to break down the clot

Question 71

lipid inflammatory mediators and production

Answer 71

1 - arachidonic acid - prostaglandins and leucotrienes
2 - platelet activating factor - chemotactic
- made in membranes of neutrophils, macrophages, mast cells

Question 72

TLR general signalling

Answer 72

activation, recruitment of adaptor molecules (MyD88), signalling to activate NF-kB , release inflammatory cytokines, Type 1 interferons, chemokines and antimicrobial peptides - acute inflammatory exudate.

• also leads to DC maturation and the induction of adaptive immunity

Question 73

generally what do TLRs recognise

Answer 73

• PAMPs on the surface of microbes eg TLR4 homodimer for LPS on gram-negative bacteria

2 - nucleic acids of pathogens within endosomes in the cell. eg TLR8 for ssRNA of viruses such as influenza

Question 74

2 PRRs other than TLR

Answer 74

1 - C-type lectin receptors (CLR) - imp in fungal infection
2 - cytosolic NOD-like receptors (NLR) - some sense stress and form complexes called inflammasomes with activation of caspase 1 and release of IL-1beta

Question 75

endogenous ligands for PRRs?

Answer 75

molecules released on cell death, injury or tumours.
1 - dying cells - HSPs, matrix. oxidised LD = TLR4/TLR6
2 - Gout - inflammation caused by urate crystals

Question 76

what does fibrin do in the exudate

Answer 76

forms a web of insoluble strand to contain the infection and inflammation

Question 77

4 stages of leukocyte migration in inflammation

Answer 77

1 - rolling = weak tethering
2 - tight adhesion
3 - diapedesis
4 - migration

Question 78

describe rollin/ weak tethering

Answer 78

1 - rapid induciton of P-selectin on endothelial cells due to histamine/thrombin activation
2 - E-selectin induced by cytokines (IL-1 and TNF-alpha) after 1 -2 hours.
3 - selectins bind glycoprotein SIalyl_lex ligands on neutrophils .
4 - bonds easily broken by blood flow causing rolling.

Question 79

describe tight adhesion in inflammation

Answer 79

1 - cytokines induce ICAMs on the endothelial cells to bind integrins on the neutrophils.

• integrins activated to high affinity by chemokines
• result is tight binding to the endothelium

Question 80

describe diapedesis

Answer 80

emigration into the tissue

- leukocytes reorganise their cytoskeleton to allow spreading out on the surface of the endothelium

Question 81

describe migration

Answer 81

chemkines stimulate the migration down their chemical gradient.
- CXCL8 is principally responsible for recruiting neutrophils.

Question 82

4 harmful effects of inflammation

Answer 82

1 - pain - RA
2 - prolonged inflam - abcess
3 - wrong place - meningitis
4 - pneumonia - exudate into airways and drown

Question 83

why do monocytes migrate later than neutrophils?

Answer 83

the VCAM-1 they bind with their integrin VLA-4 is upregulated more slowly (24hrs)

Question 84

innate system pro-inflam cytokines from macrophages - 5

Answer 84

1 - IL-6 
2 - TNFalpha
3 - IL-1beta
4 - CXCL8
5 - IL-12

Question 85

IL-6 function

Answer 85

1 - fever

2 - acute phase proteins

Question 86

TNFalpha functions

Answer 86

1 - activate vascular epitelium
2 - fever
3 - shock

Question 87

IL-1beta function

Answer 87

1 - activate vascular epithelium
2 - activate lymphocytes
3 - local tissue destruction to aid effector access
4 - fever
5 - IL-6 production

Question 88

CXCL8 function

Answer 88

• neutrophil an dbasophil chemotactic

Question 89

IL-12 function

Answer 89

activate NK cells

Question 90

purpose of fever?

Answer 90

possibly to accelerate adaptive immunity and make non-optimal temp for pathogens

Question 91

2 acute phase proteins

Answer 91

1 - MBL
2 - CRP
opsonins

Question 92

sepsis

Answer 92

where pathogens enter the blood stream. can be a result of widespread burns

Question 93

issue with sepsis?

Answer 93

massive release of TNFalpha into the blood stream causing widespread vasodilation causing vascular collapse and septic shock.
also DIC in capillaries causes consumption of clotting factors and organ failure.

Question 94

what causes the switch from inflammatory damage to repair

Answer 94

a shift towards the anti-inflammatory mediators. important are the lipid derived mediators from the lipoxygenase pathway.
- helped by signals from macrophages that are phagocytosing apoptotic neutrophils.

Question 95

first stage of repair?

Answer 95

the organisation of the exudate into granulation tissue

Question 96

what cell types coordinates the repair process

Answer 96

macrophages

Question 97

5 functions of macrophages

Answer 97

1 - phagocytosis of debris, apoptotic cells etc
2 - killing of microbes by secreting ROS and NO
3 - enhancing inflammation and adaptive immunity - cytokines and complement factors
4 - tissue remodelling - FGF and VEGF and metalloproteinases
5 - enhanced antigen presentation and adaptive response induction - increased MHC and co-stimulator production.

• some functions are for healing some for destruction. they coordinate the balance between the 2.

Question 98

3 other leukoctyes other than macro and neutro that are found in granulation tissue

Answer 98

1 - T cells
2 - plasma cells
3 - eosinophils - to kill parasites
- exact composition depends on type of injury

Question 99

recruitment and function of fibroblasts

Answer 99

• recruited by cytokines eg FGF from macrophages

- secrete collagen and other ECM proteins to form the collagen scar.

Question 100

steps of angiogenesis

Answer 100

• ndothelial cells break off of hte basement membrane of a preexisting vessel
• migrate to site of repair
• proliferate and then differentiate to for a lumen and then acquire supporting pericytes.

Question 101

are NK cells a feature of acute inflammation?

Answer 101

no. but they are considered part of the innate system.

Question 102

where are NK cells

Answer 102

a few in the periphery but most in a partially activated state in the blood

Question 103

cells infected with a virus make what?

Answer 103

type 1 interferons= INFalpha and beta.

- these interfere with viral replication, alert neighbouring cells and activate NK cells.

Question 104

what makes type 2 interferon?

Answer 104

activated NK cells. type 2 = IFNgamma

it activates macrophages.

Question 105

what normally inhibits NK cell action

Answer 105

inhibitory receptors that bind to MHC class 1 molecules. overrides all else.

Question 106

missing self?

Answer 106

when viruses or whatever downregulate MHC class 1 then the NK cells can be activated if an activating receptor is engaged. 
- the NK cells respond to the rpesence of a difference or the absence of a similarity.

Question 107

what upregulates ligands for activating NK receptors

Answer 107

cell stress due to DNA damage or infection. allows this to override normal MHC inhibition.

Question 108

what’s KIR

Answer 108

a highly polymorphic family of NK cell receptors that are both inhibitory and activating.
= killer immunoglobulin-like receptors
- bind HLA

Question 109

whats’ s HLA?

Answer 109

human leukocyte antigen = MHC

Question 110

recognition of paternal non-self in pregnancy

Answer 110

by KIR on uterine NK cells binding to paternal HLA in the placenta.

Question 111

3 NK cells effector functions

Answer 111

1 - kill cells via release of perforin and granzymes (induce apoptosis)

2 - specifically enhance the adaptive response by using their FcR to cause ADCC

3 - secrete cytokines eg IFNgamma to activate macrophages and help initiate adaptive immune responses.