Acute inflammation

Question 1

what is acute inflammation

Answer 1

how cells respond to attack, it is a sudden response if tissue is damaged

Question 2

why is acute inflammation a sudden response to damaged tissue

Answer 2

to prevent the spread of infection e.g. bacteria & clears away dead tissue

Question 3

list why and how acute inflammation occurs

Answer 3

• response to injury
• needs to be fast
• limit risk of infection
• not a precise science unlike humeral response
• sets up pathway to wound healing

Question 4

what is meant by acute inflammation not being a precise science unlike humeral response

Answer 4

it is not targeted to B & T cells , so some healthy cells get killed in the process

Question 5

what is the purpose of tissue responses to damage

Answer 5

to eliminate dead tissue which is necrotic (becomes phagocatised)

Question 6

what is acute inflammations initial response to tissue damage

Answer 6

to be able to defend the body

Question 7

list the relatively non specific responses of acute inflammation

Answer 7

1. eliminate dead tissue (e.g. phagocytosis)
2. protect against local infection (will be an area of neutrophils to defend the body)
3. allow immune system access (increased vascular permeability in the area to allow T & B cells to come in & target specific pathogens & begin the healing process led by macrophages)

Question 8

what happens when acute inflammation allows the immune system to access

Answer 8

increased vascular permeability in the area to allow T & B cells to come in & target specific pathogens & begin the healing process led by macrophages

Question 9

how does acute inflammation eliminate dead tissue

Answer 9

phagocytosis

Question 10

how does acute inflammation protect against local infection

Answer 10

will be an area of neutrophils to defend the body

Question 11

list the causes of inflammation

Answer 11

• infection
  virus
  fungi
  bacteria (eg conjunctivitis = acute inflammation of conjunctiva)
  parasites
• mechanical injury (e.g. blunt trauma)
• ischemia (causes an inflammatory response)
• chemical (e.g. burns)
• extremes of temperature
• radiation (UV)
• immune mechanisms (auto immune, may have acute inflammatory response e.g. seasonal hay fever)

Question 12

list the 5 cardinal features of acute inflammation

Answer 12

1. rubor = redness
2. calor - heat
3. swelling (tumour)
4. dolor = pain
5. loss of function

Question 13

what does rubor stand for

Answer 13

redness

Question 14

what does calor stand for

Answer 14

heat

Question 15

what is an example of swelling

Answer 15

tumour

Question 16

what does dolor stand for

Answer 16

pain

Question 17

what is an important clinical sign of acute inflammation

Answer 17

swelling (tumour)

Question 18

what must be increased to allow access for an immune response

Answer 18

vascular permeability

Question 19

at which stage does edema occur following an injury during acute inflammation

Answer 19

0-1.5 days

involved in the first wave of defence

Question 20

what occurs during edema

Answer 20

swelling of vessels becomes more leaky, as the fluid leaks out and into the area of injury, which enables entry of neutrophils

Question 21

when does the entry of neutrophils to the injured sight occur during acute inflammation

Answer 21

0-2.5 days

involved in the first stage of defence

Question 22

what do the neutrophils do

Answer 22

fight off infections or dead cells, clearing the decks which paves away for the macrophages

Question 23

what are monocytes

Answer 23

found in the blood stream

once migrate, gets activated and becomes M1 or M2 type macrophages

Question 24

what do macrophages do

Answer 24

set up wound healing, so lays down collagen & recruits other cells to help heal the area

Question 25

the initial mediators of acute inflammation must be fast and so can be derived from which two things

Answer 25

1. cell membrane (a lot of initiated early inflammatory responses are derived from the cell membrane)
   or
2. plasma (blood) - acute inflammatory response when get cut to decrease bleeding and protect the area & heal the wound

Question 26

What are the cell derived mediators of acute inflammation

Answer 26

from cells, secreted or synthesised i.e. histamine from mast cell.
usually platelets, neutrophils, monocytes/macrophages and mast cells but mesochymal cells also possible

Question 27

what is histamine

Answer 27

a powerful vasodilator which increases the vascular permeability very early & brings neutrophils in to protect

Question 28

What are the plasma derived mediator of acute inflammation

Answer 28

inactive precursors in circulation ie complement proteins and kinins
(polypeptides of inactive proteins which circulate in the blood plasma & once its exposed to oxygen or collagen or the outside world, proteins and kinins becomes activated)

Question 29

what are cell derived histamine & serotonin stored in and released from

Answer 29

• mast cells
• basophils
• platelets

Question 30

what is the main purpose of mast cells, basophils and platelets

Answer 30

powerful vasodilators and increase vascular permeability

Question 31

what is arachidonic acid

Answer 31

a fatty acid C-20 carbon chain found in the phospholipid membrane(/plasma membrane)

Question 32

what does arachidonic acid produce

Answer 32

eicosanoids

Question 33

what is arachidonic acid present in

Answer 33

the membrane of the body’s cells

Question 34

what do eicosanoids contain

Answer 34

• prostaglandins
• thromboxanes
• leukotrienes

Question 35

what do prostaglandins do

Answer 35

produces a feeling of fever & detects pain

Question 36

what do thromboxanes do

Answer 36

‘Clotting’ regulates amount of permeability

Question 37

what do leukotrienes do

Answer 37

‘Leaky’ increase vascular permeability

Question 38

what do steroids inhibit

Answer 38

phospholipase, which knock out the mechanism of arachidonic acid

Question 39

what do steroids suppress

Answer 39

initial acute inflammatory phase

Question 40

what do COX-1 & COX-2 inhibitors, ASPIRIN, indomethacin inhibit

Answer 40

cyclooxygenase

Question 41

what does prostacyclin cause & inhibit

Answer 41

vasodilation, inhibits platelet aggregation

Question 42

what does thromboxane cause

Answer 42

vasoconstriction, promotes platelet aggregation

Question 43

what also increases vascopermeability

Answer 43

prostaglandin H2 (PGH2)

Question 44

what does prostaglandin PGD2 & PGE2 cause

Answer 44

vasodilation
&
increased vascular permeability

Question 45

what does leukotriene regulate

Answer 45

vasoconstriction, bronchospasm, when increased vascular permeability, so that the cell does not become too leaky = start & stop mechanism

Question 46

list the three key points of arachidonic acid metabolism

Answer 46

• thromboxane ‘clotting’
• prostaglandins ‘pain’
• leukotrienes ‘leaky’

Question 47

outline what thromboxane ‘clotting’ regulates

Answer 47

vasoconstriction
&
platelet aggregation

Question 48

outline what prostaglandins ‘pain’ regulates

Answer 48

• platelet disaggregation
• pain
• vasodilation

Question 49

outline what leukotrienes ‘leaky’ regulates

Answer 49

• vasoconstriction
• neutrophil adhesion and chemotaxis
• slow action on increased vascular permeability into the area

Question 50

what are cytokines

Answer 50

polypeptides (small proteins)

Question 51

what are two important cytokines that are produced by cells

Answer 51

1. interleukin 1 (IL-1) & interleukin (IL-8)

2. tumour necrosis factor (TNF-alpha)

Question 52

list the things that interleukins and TNF are responsible for

Answer 52

• increases leukocyte (white blood cells) adhesion to endothelial cells
• increases body temperature - fever by regulating hypothalamus
• degranulation of neutrophils
• attracts neutrophils to damaged areas

Question 53

explain how interleukins & TNF are responsible for the degranulation of neutrophils

Answer 53

release their lysosomal content & reactive oxygen species to help destroy & liquify and pathogens

Question 54

explain how interleukins & TNF attracts neutrophils to damaged areas

Answer 54

they act as chemical signals to other neutrophils to come into area of attack & draw neutrophils in e.g. act as signals to bring in more neutrophils

Question 55

name a plasma derived mediators kinin

Answer 55

• bradykinin = potent vasodilator

Question 56

what are and how do bradykinin (plasma derived kinin) work

Answer 56

• they are small peptides derived from plasma precursors
• are early short acting vasodilators that can cause pain
• activates complement system

(they are inactive in the blood plasma, but when the plasma comes in contact with collagen, kinin becomes activated and causes short acting vasodilation)

Question 57

what initiates the kinin pathway

Answer 57

exposure of collagen to endothelial cells

Question 58

what is the complement system made up of

Answer 58

a series of small proteins which interact with each other in response to help neutrophils find bacteria & destroy them

Question 59

what is the complement system activated by

Answer 59

exposure to:

1. antigen - antibody complexes
2. mannose carbohydrates in oligosaccharides
3. pathogens

Question 60

what are mannose found in

Answer 60

bacteria

Question 61

what is the complement activation for

Answer 61

to aid normal immune system

Question 62

what do effector functions e.g. C5a and C3a: inflammation act as

Answer 62

cytokines to recruit more neutrophils into the area

Question 63

when C3b is deposited onto the microbe, and once activated, what does it form

Answer 63

C3a

Question 64

what does C3b also form

Answer 64

a complex with other proteins & forms the membrane attack complex, which clears microbes through recognition as it goes around & slices microbes & goes into microbes and the microbe explodes or gets phagocytosed or breaks down C3a & C5a & recruits macrophage neutrophils

Question 65

list the cellular events in acute inflammation of neutrophils (how neutrophils get into area of infection)

Answer 65

1. margination
2. adhesion
3. emigration
4. chemotaxis (following C3a & C5a)
5. phagocytosis and degranulation (of neutrophil)

Question 66

explain how margination occurs

Answer 66

• changes in haemodynamic flow (the way blood circulates)
• neutrophils align along the wall of endothelial cells (e.g. around edge of blood vessels or the bleeding person)
• and to emigrate in and to an open blood vessel & a tissue where there is acute inflammation occurring

Question 67

explain how adhesion occurs

Answer 67

• once neutrophil is centred of into the periphery, need to adhere to cell membrane of endothelial cell bu:
  1. E and P selections on endothelial cells
• lightly tether the leukocyte to the endothelial cell (i.e. it catches the neutrophil as it passes by and enters it & then gets an up regulation of P selectin which = stronger hold of P & E selectins binding to the neutrophil)
• binding to gylcoproteins on neutrophil
  once those are locked in place, you get…
  2. ICAM-1 on endothelial cell
• (intracellular adhesion molecule-1) bind to integrins receptors on neutrophil

Question 68

what are the adhesion molecules E & P selectins

Answer 68

expressed on endothelial cells and bind to glycoprotein on surface of neutrophils

Question 69

which out of E & P selections are the sticky ones

Answer 69

P selectin

Question 70

what are P selectins stored in

Answer 70

weibel-palade bodies of endothelial cells

Question 71

P selectins which are stored in the weibel-palade bodies relocate to the plasma membrane after…

Answer 71

stimulation by histamine and thrombin

Question 72

what are P selectins released by

Answer 72

histamine and thrombin

Question 73

what happens to P selectins if, theres a mast cell or increase basophil regulation

Answer 73

it increases P selectins which are regulated by histamine

Question 74

what are weibel-palade bodies

Answer 74

cigar shaped organelles in endothelial cells that store P-selectins

Question 75

what happens when endothelail cells which contain weibel-palade bodies are activate by histamine & thrombin

Answer 75

redistribution of P-selectin (i.e. it relocates to the cell membrane & can bind to neutrophils)

Question 76

explain how emigration.migration occurs

Answer 76

1. requires firm adhesion by leukocyte and endothelial cell (P selectin, E selectin & ICAM1)
2. migration is mediated by PECAM-1
   - platelet endothelial cell adhesion molecule
3. leukocyte passes between endothelial cells
4. leukocyte lies between endothelial cells - it releases collegenase/elastases to digest the endothelial basement membrane & get into the tissue

Question 77

what does PCAM-1 do

Answer 77

opens up tight junctions between the endothelial cells and allows neutrophils to pass between the endothelial cells and enables passing between boundaries, allowing neutrophils into the extracellular space

Question 78

explain how the continuation of migration - chemotaxis works

Answer 78

1. once in the endothelial cells, leukocytes migrate towards chemical signals
   - CHEMOTAXIS
   - examples of chemical signals are:
   fragments of complement system (C5a),
   prostaglandins and leukotrienes (products of arachidonic acid metabolism)

Question 79

summerise the cellular events in acute inflammation of neutrophils

Answer 79

• leukocyte roles down and binds to P & E selectins which forms a cross linking which enables blocked sequence to be open
• so the integrin receptors break open due to E & P selectin by an intracellular signal which allows the integrin receptor to bind to ICAM1
• E & P selectin also grips the neutrophil & puts it next to the endothelial cell
• once got the whole integrity of ICAM1 with the P selectin holding the neutrophil down, it releases and manufactures PECAM-1 (CD31) on the endothelial adhesion molecule which breaks open the tight junctions and enables the neutrophil to squeeze through endothelial cells/emigrate from inside the blood vessel to tissue outside and looks for cytokines it can follow e.g. interleukins or C5a or C3a
• and carries neutrophils to area of injury

Question 80

what happens once the neutrophil reaches the area of injury

Answer 80

once the neutrophil has escaped the compound, it is going to destruct and wants to kill bacteria, it is a non specific response so an acute immune response. so it will ingest any cell it comes across e.g. a C3b attached to a bacteria respiratory burst produces a lot of free radicals, so it depends on a good blood supply as its oxygen dependent

Question 81

what disadvantage does neutrophils of a diabetic have

Answer 81

less ability to fight off bacteria because they don’t have a good oxygen supply

Question 82

name the two types of mechanisms for bacterial killing

Answer 82

1. oxygen dependent (respiratory burst)

2. oxygen independent (phagocytosis)

Question 83

list the steps of phagocytosis ‘the clear up’

Answer 83

• neutrophils or monocyte arrives at site of injury
• need to recognise the foreign material or dead cells
• need to ingest the debris and bacteria
• need to engulf the material

Question 84

what are opsonins

Answer 84

factors that coat bacteria to enable recognition by neutrophils/macrophages for ingestion

Question 85

what are the two key opsons

Answer 85

• immunoglobulin (IgG)

- C3b and component of complement

Question 86

what happens in order for phagocytosis to ensue

Answer 86

neutrophil recognises IgG or C3b then phagocytosis ensues

Question 87

list the phases of phagocytosis

Answer 87

1. chemotaxis and adherence of microbe to phagocyte
2. ingestion of microbe by phagocyte
3. formation of a phagosome
4. fusion of the phagosome with a lysosome to form a phagolysosome (which encapsulates organism we want to phagocytose)
5. digestion of ingested microbe by enzyme
6. formation of residual body containing indigestible material
7. discharge of waste materials
   (indigestible waste material gets left behind and becomes scar tissue, and can end up in lymphatics and spleen/plasma which = pus discharge)

Question 88

what are lysosomal contents

Answer 88

contents of neutrophils and monocytes that are contained in intracellular vesicles to protect the cells

Question 89

what do lysosomal contents e.g. granules contain

Answer 89

1. lactoferrin - binds Fe (iron) and so reduces mitotic rate of bacteria
2. lysozyme - attacks cell wall or gram negative bacteria
3. collagenases - denature collagen & breaks up cellular degree
4. ellastases

Question 90

what does the oxygen dependent mode of killing (the respiratory burst) produce

Answer 90

ROS (reactive oxygen species)

Question 91

what can hypochlorous acid do

Answer 91

it is potent and can wipe out most bugs so for neutrophils to produce more hypochlorous acid can help to further protect the body from infection