Immunology

Question 1

what is the innate immune system

Answer 1

first line of defence, non-specific response, no memory, present from birth

Question 2

what is the difference between active and passive immunity

Answer 2

active - antigens enter body and trigger innate/ adaptive system - provides long term treatment
passive - antibodies pass from mother to foetus across placenta/breast milk provides short term protection

Question 3

what are some mechanical barriers

Answer 3

skin, mucous, normal flora, cilia

Question 4

what are some physiological barriers

Answer 4

stomach acid, fever response inhibits growth

Question 5

what are chemical mediators in the innate response

Answer 5

plasma proteins, lysosome cleaves bacterial cell wall, interferon induces antiviral defences in uninfected cells, complement lyses microbes directly facilitates phagocytosis

Question 6

what are some examples of phagocytic leukocytes

Answer 6

phagocytes (specialised cells in phagocytosis)
macrophages (reside in tissues and recruit neutrophils, actuated by cytokines
neutrophils (enter infected tissues in large numbers and cause release of cytokines and phagocytose bacteria

Question 7

what are NK cells

Answer 7

natural killer cells summoned from blood, release cytokines and kill infected cells via causing apoptosis

Question 8

what is the main function of the compliment system

Answer 8

they form membrane attack complexes which attack pathogens

Question 9

what molecules are produced by the complement pathway

Answer 9

anaphylatoxins - by products from complement factors which play a role in allergic reactions nd anaphylactic shock

Question 10

how do the complement system aid in phagocytsis

Answer 10

helps prime pathogens for macrophages and neutrophils and attract them to the site of infection

Question 11

how is the classical pathway of the complement system activated and what does it involve

Answer 11

activated by antigen - antibody complexes - triggered second by exposure to pathogen, serine proteases, involves limited proteolysis to activate next factor and there is amplification
the first step is complement factor c1 binding to antigen/antibody complex

Question 12

describe the mechanism of the classical pathway of the complement system

Answer 12

• Step 1 = C1 cleaves C2 into C2a and C2b
• Step 2 = C1 also cleaves C4 into C4a and C4b
• Step 3 = C2a and C4b form complex cleaving C3 into C3a and C3b
• Step 4 = C3b joins C2a/C4b complex forming C2a/C4b/C3b complex cleaving C5 into C5a and C5b
• Step 5 = C5b finally forms complex with C6, C7, C8 and C9 producing membrane-attack complex to perforate cell membranes

Question 13

describe the process of the lectin mannose binding pathway

Answer 13

Activated first, directly by pathogens, involves mannose-binding lectin which binds mannose found on surface of pathogens but not mammalian cells
MBL binds MASP 1 and 2 (mannose associated serine protease) which activate C2 and C4
Rest of pathway the same

Question 14

describe the process of the alternative pathway

Answer 14

Activated first, direct contact with pathogens
Autoactivation of C3 into C3a and C3b, occurs constantly at low rate
Upon contact with pathogen autoactivated C3b binds factor B and properdin which rapidly activates more C3 and activates C5
Rest of pathway same

Question 15

what is the role of the by products C3a, C4a and C5a

Answer 15

they are anaphylaxtoxins, trigger degranulation of endothelial cells, mast cells and phagocytes
the also cause smooth muscle contraction and enhance vascular permeability

Question 16

C3a and C5a are chemoattractants what does this mean

Answer 16

attracts and activate neutrophils

Question 17

C3b causes opsonisation - what does that mean

Answer 17

pathogens labelled, C3b renders bacteria more susceptible to phagocytes, C3b cleaved to iC3b on bacterial surface, macrophage cell membrane contains receptors for iC3b, facilitating phagocytosis of bacteria by macrophage

Question 18

what do all cells in the immune system arise from

Answer 18

common pluripotent hematopoietic stem cells in the bone marrow

Question 19

what cells make up the myeloid lineage

Answer 19

polymorphonuclear leukocytes such as neutrophils, eosinophils and basophils

Question 20

what is an eosinophil

Answer 20

defender against multicellular parasites and allergy / asthma

Question 21

what are neutrophils

Answer 21

principal phagocyte of innate immune system - migrate to site of infection ingest microbes by phagocytosis and release o2 free radicals - degranulate releasing proteins with microbicidal properties eg lysozyme

Question 22

what is a basophil

Answer 22

inflammatory allergic reaction releases histamine vasodilator

Question 23

what is a monocyte

Answer 23

circulate, bean shaped nuclei, precursors of tissue macrophages, effectors of inflammatory response to microbes, kills pathogen via phagocytosis - produces free radicals and inflammatory cytokines

Question 24

what do macrophages do

Answer 24

derived from blood monocytes - involved in innate and active immunity - phagocytosis, microbicidal mechanisms and presents antigen to other cells

Question 25

what is the role of dendritic cells

Answer 25

antigen presenting cells which process and present antigens on cell surface to T cells to initiate specific responses

Question 26

what is the role of mast cells

Answer 26

similar to basophils - release histamine - association with allergy and inflammation

Question 27

which cells make up the lymphoid lineage

Answer 27

B and T cells

Question 28

what do B cells do

Answer 28

produce antibodies , present antigens and can produce memory cells

Question 29

what is the role of T cells

Answer 29

development and regulation of cell mediated immunity, influences activities of other cells, kill virally infected cells and tumour cells - generate long lived memory cells

Question 30

what is the role of natural killer lymphocytes

Answer 30

part of innate response - release perforins and granzyms and trigger apoptosis of target cells - kill cells infected viral cells and ones which do not express foreign surface antigen - involved in tumour immunosurveliiance

Question 31

what are the professional phagocytes

Answer 31

macrophages, dendritic cells, neutrophils (NK cells use a different mechanism)

Question 32

how does phagocytosis work

Answer 32

pathogens engulfed by cell membrane forming phagosome
phagosome fuses with lysosome containing digestive enzymes which forms a phagolysosome which digest the pathogen
material is then secreted by fusion with the cell membrane

Question 33

what are macrophages commonly found

Answer 33

lungs, under the skin and around intestines

Question 34

describe the 3 activation stages of a macrophage

Answer 34

Activation state 1 = resting = collects debris from tissues by phagocytosis, eliminates apoptotic cells, expresses little MHC class II on membranes
Activation state 2 = primed macrophage = primed with cytokine INF-gamma produced by NK cells and Th cells, primed macrophages express increased levels of MHC II, take up larger objects by phagocytosis
Activation state 3 = hyper-activated = macrophages become hyperactive when stimulated with both INF-gamma and lipopolysaccharide produced by gram-negative bacteria, stop proliferating, become larger and increase rate of phagocytosis, produce cytokines (tumour necrosis factor) and interleukin-1 which can kill tumour/virus cells

Question 35

what is expressed on neutrophils to allow them to circulate freely

Answer 35

SLIG compared to an endothelial cell which has ICAM

Question 36

what are released by macrophages when a tissue becomes infected

Answer 36

cytokines, IL-1 and TNF

Question 37

what do cytokines stimulate in terms of endothelial cells and neutrophils

Answer 37

expression of selection on endothelial cell membrane which SLIg on neutrophil binds this interaction causes cell to bind and start rolling on endothelium

Question 38

what is the role of intergrin in neutrophil rolling

Answer 38

binds to ICAm expressed on the endothelium - now neutrophil-endothelium interaction is strong - cell stops rolling and sticks to vascular wall close taste of infection

Question 39

how are neutrophils able to track bacterial proteins

Answer 39

neutrophils have Met amino acid at N terminal but bacteria have f-met so can use to track them

Question 40

how specifically to neutrophils enter the site of infection

Answer 40

under C5a influence and bacterial f-Met peptides the neutrophils infiltrate the endothelium and inflamed tissues surrounding vessel

Question 41

once a neutrophil has entered a site of infection what happens to it

Answer 41

they become extremely phagocytic and produce TNF cytokines to activate other immune cells - they are short lived though and they are the puss as infected site

Question 42

what lineage to NK cells come from

Answer 42

lymphoid lineage

Question 43

what is the mechanism of action of a NK cell

Answer 43

produced in bone marrow and mainly found in blood/liver/spleen
they also travel to site of infection and release cytokines
destroy infected cells by apoptosis
use Fas ligand to bind to target cell doesn’t attack normal cells as they have MHC-1
they use perforin protein to inject granzyme B into cell

Question 44

what is the difference between humeral and cell mediated response

Answer 44

humoral is mediated by antibodies and produced by B cells

cell mediated is induced by T cells

Question 45

what do white blood cells do when there is no site of infection

Answer 45

resident macrophages eat dying cells - dendritic cells on sentry duty waiting for first sign of pathogen - most monocytes and neutrophils pass by in the blood stream

Question 46

what occurs in the adaptive immune system upon first wave of infection

Answer 46

dendritic cells exit infected tissues to inform lymphocytes in lymph nodes about invading pathogen - neutrophils also move from blood into the infected site

Question 47

what is the second wave of infection

Answer 47

neutrophils have killed pathogen but also killed themselves making pus - monocytes enter site and remove debris

Question 48

what is the role of inflammatory macrophages

Answer 48

help repair damaged tissue

Question 49

where to b cells come from

Answer 49

bone marrow

Question 50

what is the role of a B cell

Answer 50

antibody production - activation of T cells and innate immunity complement system

Question 51

where do T cells come from and what is their role

Answer 51

from the thymus and matured in the bone marrow - produce cytokines
T cells need antigens presented otherwise they cannot recognise them - these can be presented by monocytes/macrophages/b cells/dendritic cells etc
they kill directly after direct interaction

Question 52

what is the difference between CD4 and CD8

Answer 52

CD4 is helper cell and CD8 is cytotoxic

Question 53

what is the difference between Tc cells and Th cells

Answer 53

Th cells help activate B cells and activate phagocytes

Tc - cytotoxic, effective at attacking viruses, attack cell and virus inside cell

Question 54

what are the three types of T cell

Answer 54

regulatory
cytotoxic
helper

Question 55

describe the process of B cell activation

Answer 55

Antibody-antigen interaction not enough to activate B cells and second signal needed – T cells
Overall need interaction between B, T cells and non-immune response

Question 56

describe the what happens in B cell maturation

Answer 56

Maturation is clonal expansion, production of huge amounts of antibody
Plasma cell mature version of B cell, after has been activated, each specific B cell proliferates to produce clone of identical cells, plasma cells produce large amounts of antibody

Question 57

why are B cells called memory cells

Answer 57

B cells remember an antigen, if confronted on second occasion, antibody response much quicker and larger (vaccination method), plasma cells die off after few weeks but some remain as memory cells, enables pathogen to be quickly dealt with

Question 58

how to B cells activate T cells

Answer 58

B cells act as antigen presenting cells, stimulating T cell arm of immune system, interaction between B and T cells crucial for healthy immune response, T cells require B cells to present antigen to stimulate T cells

Question 59

describe the process of t cell activation

Answer 59

Antigen processed and presented in conjunction with MHC class I or II T cells
Second signal is needed, otherwise T cell fails to be activated and doesn’t respond
Second signal comes from recognition of CD28 molecule on T cell by CD80 molecule on APC cell
Prevents T cells being activated by body’s own antigens

Question 60

what happens when a T cell is activated

Answer 60

Causes cytokine production – chemoattraction, autoactivation, augmentation of inflammation, stimulation of antibody production by B cells, activates non-specific response, MHC II/CD4
Causes cellular death = MHC1/CD8

Question 61

what are MHC molecules

Answer 61

Major histocompatibility complex glycoproteins present on cell surfaces to help differentiate self from non-self

Question 62

what is the relation between T cells and MHC molecules

Answer 62

T cells only recognise antigens as complexes with MHC molecules, role in T cell activation

Question 63

how to MHC help normal cells from immune system

Answer 63

Peptides present on surface of antigen presenting cells with MHC, allows immune cells to discriminate between normal antigens on surface of all cells and those foreign and potentially dangerous

Question 64

what is the role of MHC1 molecules

Answer 64

proteins present on almost every cell in body, present endogenous antigens synthesised in cytoplasm, samples of all proteins made on ribosomes, whether normal host proteins chopped up into short peptides on proteasome, resulting peptide fragments transported into ER, peptides about 10 amino acids can bind to MHC 1 proteins, peptide MHC complexes transported via golgi to cell surface, once at surface membrane bound MHC 1 protein displays antigen for recognition to cytotoxic T cell lymphocytes (CD8+), if foreign protein fragments detected, cell is killed

Question 65

what is the role of MHC class 2 molecules

Answer 65

proteins only present on specialised antigen-presenting immune cells/macrophages/dendritic cells/B cells, proteins present exogenous antigens that originate extracellularly from foreign bodies e.g. bacteria, following phagocytosis, foreign peptide fragments bound to MHC 2 proteins in endosome, before being transported to cell surface, once at cell surface, membrane bound MHC 2 protein displays antigen, recognised by different type of T cell, helper T cell lymphocyte (CD4+), binding of helper T cells to B cell MHC 2-antigen stimulates development of antibody producing B cells against antigen

Question 66

describe the process of MHC antigen presentation

Answer 66

antigen processed after being taken up by cell, antigen presented with MHC, MHC present on all cells and specific, viral antigens presented with MHC I molecules to T cell by infected cell, so Tc cells kill infected cell, APC cells present foreign peptide together with MHC II to T helper cells, do not kill APC but release cytokines to trigger immune response

Question 67

describe the process of T helper cell activation

Answer 67

antigen presenting cell ingests antigen, breaks down into peptides, APC presents peptides with MHC class II molecules on surface, combination recognised by T helper cells with CD4 protein, resting T helper cell now activated and releases cytokines which signal other cells to boost response of immune system to invading pathogen

Question 68

describe the process of T cytotoxic cell activation

Answer 68

cell infected with virus will process virus to produce peptides, peptides loaded onto MHC I molecule in ER and transported to cell surface, presented to T cytotoxic cell with CD8 receptor, T cytotoxic cells kill infected cell, so preventing virus being reproduced

Question 69

what are the 5 immunoglobulins

Answer 69

a, g, d, e, m

Question 70

what are immunoglobulins structure eg IgG

Answer 70

made from a light chain and heavy chain
Two identical antigen binding regions, Fab (variable region) making it specific, due to folding which matches shape of antibody (top parts – two recognition sites)
Tail region (constant) can bind to receptors on surface of cells such as macrophages

Question 71

what are the two types of cell a B cells forms

Answer 71

plasma cells produce antibody to fight infection,

memory cells survive in blood stream so if antigen encountered again are more cells ready to respond

Question 72

how are antibodies specific

Answer 72

• Antigen binding site has to be perfect fit for antigen, antibodies ambush antigens in blood stream or interstitial tissue, unable to enter cells, important as viruses enter cells so antibodies cannot access virus until cell dies, each B cell makes specific antibody (monoclonal), B cells transformed into plasma cells to produce antibodies

Question 73

what is the structure and role of IgM

Answer 73

pentamer = main antibody of primary responses, mainly in blood stream fixing complement, serves as B cell receptor (transmembrane domain so not released from cell), slow rise in primary response, limited rise in secondary response, kills bacteria, first to arrive after pathogen encounter

Question 74

what is the structure and role of IgG

Answer 74

monomer = main antibody of secondary responses, major in the blood, enters tissue space, neutralises toxins, opsonization (prepares bacteria to be killed), Fc binds to phagocytes, slow rise after IgM in primary response, rapid rise in secondary response

Question 75

what is the structure and role of IgA

Answer 75

secretory dimer = secreted into mucus, tears, saliva, colostrum, protects entrance of pathogens

Question 76

what is the difference between IgE and IgD

Answer 76

IgE monomer = antibody of allergy and antiparasitic activity, Fc binds to mast cells and basophils, trace amount
IgD monomer = B cell receptors, transmembrane domain so not released from cell, found in B cell membrane, helps cell division

Question 77

how does immunisation work

Answer 77

Life attenuated (weakened) virus, killed virus, part of virus
Immune response develops and provides long-lasting immunity (memory B cells and IgG antigens)
Booster injections may be required, memory can fade

Question 78

what is class switching and why does it occur

Answer 78

B cells can change type of antibody produced, called class-switching, IgM shows recent infection, mainly in bloodstream, later immunity is high IgG, in blood and interstitial tissue, can remain for years in the blood so doesn’t always mean recent infection