Session 1 - Cell injury and Death

Question 1

Give five causes of cell death

Answer 1

Hypoxia
Toxins
Micro-organisms
Physcial
Immune
Nutritional
Radiation

Question 2

Define disease

Answer 2

a consequence of failed homeostasis with subsequent morphological and / or functional disturbances

Question 3

What three factors determine the degree of damage to a cell?

Answer 3

• Type of cell
  
  • Severity of injury
  • Type of injury

Question 4

What happens in some cells if damage is minor?

What happens if it severe?

Answer 4

Cell adaptation

Cell death

Question 5

What is hypoxia?

Answer 5

Body or some tissue within the body is deprived of oxygen

Question 6

What are three mechanisms by which hypoxia can occur

Answer 6

Ischaemia
Hypoxaemia
Histocytic hypoxia
Anaemic hypoxia

Question 7

What is ischaemia?

Answer 7

Interrupted blood supply due to blockage or laceration.
Decrease in oxygen AND substrate
More rapid and severe injury than hypoxia

Question 8

What is hypoxaemia?

Answer 8

Inadequate O2 getting into blood

Question 9

Give three factors which may cause hypoxaemia

Answer 9

• Reduced inspired O2 e.g. at the top of a mountain
• Normal inspiration but absorption into the blood is impaired by lung disease
• Reduced carrying capacity of O2 e.g. due to anaemia

Question 10

What is histocytic hypoxia?

What is Anaemic hypoxia?

Answer 10

Inability of the cells to use O2 due to disable oxidative phosphorylation enzymes e.g. due to cyanide poisoning.

Decreased ability of haemoglobin to carry oxygen (anaemia, CO poisioning)

Question 11

What are the four main chemical types which cause damage to cells?

Answer 11

Illicit drugs
Over the counter drugs and prescription drugs
Alcohol
Cigarettes

Question 12

How can paracetamol damage cells?

Answer 12

If overdosed, depletes glutathione, an anti oxidant and NAPQI (Phase one metabolite) causes damage to hepatocytes, causing liver damage

Question 13

What cells does alcohol affect in particular?

Answer 13

Hepatocytes

Question 14

How do cigarettes damage cells?

Answer 14

• Particulates cause physical damage to epithelium

* Chemical carcinogen

Question 15

Where is the impact of infection greatest in society?

Answer 15

Areas of poverty

Question 16

What are four types of infectious organisms?

Answer 16

Helmiths/worms
Eukaryotes
Prokaryotes
Viruses

Question 17

How can Helmiths cause damage?

Answer 17

Fillriasis - worms block lymphatic vessels

Question 18

How can eukaryotes cause damage?

Answer 18

protozoa and fungi e.g. thrush – candida causes a superficial mucosal fungal infection

Question 19

Give a disease caused by bacteria

Answer 19

Syphilis, among many, many others

Question 20

Give a disease caused by a virus

Answer 20

HIV, or whatever you just thought in your head

Question 21

How can cells be damaged physically?

Answer 21

Direct trauma
Extremes of temperature
Pressure changes
Electric currents

Question 22

Give two ways cells can be damaged by the immune system, and provide examples

Answer 22

1. Hypersensitivity reactions: Host cells damaged in overlyreactive immune response
   e. g. uticaria (hives) causes inflammation in the skin
2. Autoimmune reactions: immune system fails to distinguish self from non-self
   e. g. Grave’s disease > hyperthyroidism

Question 23

What are the two nutritional discrepancy’s that can cause damage?

Answer 23

Defiencies

Excess

Question 24

Give an example of a nutritional defiency causing cell damage

Answer 24

vitamin C > scurvy

Question 25

Give an example of a nutritional excess causing cell damage

Answer 25

Lipids –> atherosclerosis

Question 26

What is necrosis?

Answer 26

a spectrum of morphological changes that occur after cell death in living tissue

Question 27

What is apotosis?

Answer 27

programmed, single cell death

Question 28

What type or reaction is apotosis?

Answer 28

• Energy requiring process

Question 29

When can apotosis occur?

Answer 29

• May be physiological e.g. aging cell destruction or pathological

Question 30

What is a lethal damage stimulus?

Answer 30

One that cannot be recovered or adapted from, which will result in apotosis or necrosis

Question 31

What determines whether a cell undergoes necrosis or apotosis?

Answer 31

the magnitude and type of injurious stimulus

Question 32

When does a cell undergo necrosis?

Answer 32

After severe damage

Question 33

When does a cell undergo apotosis?

Answer 33

lower-grade damage or immune-mediated damage

Question 34

What is a key physiological determinant in how a cell dies?

Answer 34

how much cellular ATP is present

Question 35

What if there is little ATP in a dying cell?

Answer 35

It will undergo necrosis

Question 36

What are the primary targets for damaging stimulus?

Answer 36

cell membranes, mitochondria, cytoskeleton, and cellular DNA

Question 37

Give four results of a depletion of cellular ATP

Answer 37

Failure of Na/K/ATPase pump
Failure of membrane calcium pumps (NCX)
Switch to Anaerobic Respiration
Mitochondrial swelling
Failure of protein synthesis

Question 38

What is the sequence of events leading to decreased ATP?

Answer 38

No O2 for oxidative phosphorylation, due to hypoxia or ischaemia

Question 39

What are the four types of necrosis? Give two main and two special

Answer 39

• COAGULATIVE and LIQUEFACTIVE (main types)

* CASEOUS and FAT NECROSIS (special types)

Question 40

What happens in coagulative necrosis?

Answer 40

• Protein denaturation causes proteins to clump together leading to solidity
• Tissue architecture is preserved
• commonly follows ischaemia

Question 41

What is liquefactive necrosis?

Answer 41

• Release of active enzymes, especially proteases, by neutrophils
• causes dead tissue liquefication
• When cell death is associated with large numbers of neutrophils they release proteolytic enzymes
• Seen in brain because it is fragile

Question 42

What is caseous necrosis?

Answer 42

Tissue appears amorphous

Associated with infection such as TB

Question 43

What is fat necrosis?

Answer 43

• Occurs when fat cells die, most commonly as a result of pancreatitis (release of lipases) or trauma to fatty tissue

Question 44

What is a significant feature of fat necrosis

Answer 44

• Importance: calcium deposits can occur in the dead tissue which is visible on x-ray and in surgery as chalky deposits. Calcium reacts with fatty acids.

Question 45

What is gangrene?

Answer 45

Necrosis visible to the naked eye

Question 46

What are two types of gangrene, and what can it be the result of?

Answer 46

Coagulative or liquefactive, often result of ischaemia

Question 47

Why is liquefactive gangrene dangerous?

Answer 47

Individual becomes predisposed to septicaemia

Question 48

What is an infarction?

Answer 48

2. Infarction: a CAUSE not type of necrosis. Can be coagulative (heart) or liquefactive (brain).

Question 49

What do umbilical cords undergo?

Answer 49

Coagulative necrosis

Question 50

What are two types of infraction?

Answer 50

White or red

Question 51

What is white infarction?

Answer 51

• White: occurs with the occlusion of an “end” artery (sole source of arterial blood to a segment of an organ). If occluded, the tissue will die and appear white (due to lack of blood).

Question 52

What is a red infarction?

Answer 52

• Red: extensive hemorrhage in dead tissue. Dual blood supply is one cause, infarct in main arterial blood supply but not in second. Insufficient resources from second blood supply, so tissues die surrounded by blood.

Question 53

What is an intrinsic trigger of cell apotosis?

Answer 53

DNA damage > P53 induced apotosis

Question 54

What is the mechanism of intrinsic cell apotosis?

Answer 54

o Mechanism: DNA damage causes increased mitochondrial permeability. Cytochrome C is released from mitochondria and interacts with APAF1 and capase 9 to form an apopotosome that activates various downstream capases (enzymes that mediate cellular affects of apotosis)

Question 55

What are the three stages of apotosis?

Answer 55

Initiation, execution and degradation + phagocytosis

Question 56

What is an extrinsic trigger of apotosis?

Answer 56

Death signals released and bind to death receptors, leading to capase activation independent of mitochondria

Question 57

Give two types of death signals

Answer 57

TRAIL and FAS LIGAND

Question 58

Give a type of death receptor

Answer 58

TRAIL - R

Question 59

Which is Bcl-2?

Answer 59

• Bcl-2: prevents cytochrome C release from mitchondria and inhibits apoptosis

Question 60

What are capases?

Answer 60

effector molecules of apotosis

Question 61

What is P53?

Answer 61

Guardian of the genome, mediates apotosis in response to cell damage

Question 62

Give some cytoplasmic microscopic changes in necrosis

Answer 62

Cytoplasmic: reduced pink staining due to water accumulation followed by increased staining due to detachment and loss of ribosomes and accumulation of denatured proteins.

Question 63

Give some nuclear microscopic changes in necrosis

Answer 63

Nucleus: clumped chromatin followed by various combinations of pyknosis (small nucleus), karryohexis (fragmented) and karryolysis (absent nucleus)

Question 64

Give five reversible signs of cell necrosis visible via electron microscope

Answer 64

• Swelling of cytoplasm and organelles due to Na+/K+ failure
• Clumped chromatin due to reduced pH
• Autophagosomes due to catabolic response from low available energy
• Ribosomes dispersion due to failure of energy dependent process of maintaining ribsomes
• Cytoplasmic blebs

Question 65

Give five irreversible signs of cell necrosis visible via electron microscope

Answer 65

• Nuclear changes > pyknosis etc
• Lysosome rupture > reflects membrane damage
• Membrane defects
• Myeline figure due to membrane defects
• Lysis of endoplasmic reticulum due to membrane defects

Question 66

What is the first step of pathogenesis of hypoxia?

Answer 66

1. No O2 for oxidative phosphorylation > loss of ATP > ß Na+/K+ pump > cell swelling as water doesn’t leave

Question 67

What is the result of lack of oxygen on mechanism of ATP production in a cell suffering from hypoxia?

Answer 67

2. Anaerobic metabolism > Ý lactic acid/phosphates > ß pH > chromatin clumping

Question 68

What is the result of decreased protein synthesis in a cell suffering from hypoxia?

Answer 68

3. ßProtein synthesis > altered metabolism > intercellular accumulations e.g. fat and denatured protein

Question 69

What is the irreversible point at which cell will die?

Answer 69

When there is massive increase in intracellular calcium

Question 70

What does calcium do in a cell?

Answer 70

Activates.. 
* ATPases
* Phospholipases
* Proteases
* Endonucleases
Causing mortal injury

Question 71

What do free radicals do to cells?

Answer 71

• Damage lipids, proteins (fragmentation and oxidation) and nucleic acids (mutagenic affect)

Question 72

What are the useful roles of free radicals?

Answer 72

Bacterial destruction and cell signalling

Question 73

What does heat shock do to a cell?

Answer 73

Increased transcription and translation of heat shock proteins
The repair damaged proteins and correct folding
Important as maintaining protein viability maximizes cell survival

Question 74

Give 5 microscopic changes of apotosis?

Answer 74

• Single cells or small clusters affected
• Intensely eosinophillic and dense nuclear fragments
• Cell shrinkage
• Nuclear fragmentation
• Chromatin condensation

Question 75

Give three electron microscopic changes of apotosis

Answer 75

1. Fragmentation into membrane bound apoptotic bodies
2. cytoplasmic blebs
3. No leakage of cell contents, no inflammation