2 - Cell Injury

Question 1

What happens to cells when their homeostasis is interrupted by injury

Answer 1

Cellular adaptation (reversible) –> Cellular Injury –> Death

Question 2

What things can cause cell injury?

Answer 2

1. Hypoxia

2. Toxins

3. Radiation

4. Microorganisms

5. Immune mechanisms (hypersensitivity and autoimmune)

6. Dietary insufficiency and excess

7. Physical agents (temp, pressure, electric currents, direct trauma)

Question 3

What are the different casues of hypoxia?

Answer 3

1. Ischaemic - interruption to blood supply, enough o2 in blood but cannot perfuse

2. Anaemic - Decreased ability of Hb to carry O2, e.g CO poisoning and anaemia

3. Hypoxaemic - Arterial content of oxygen is low, e.g high altitudes and secondary to lung disease

4. Histotoxic - Inability to utilise oxygen in cells due to disabled oxi phos, e.g CN poisoning

Question 4

What is the tolerance of hypoxia in different tissues?

Answer 4

Question 5

What cell components are most susceptible to injury?

Answer 5

Question 6

Summarise hypoxic cell injury.

Answer 6

Question 7

What is an ischemia repurfusion injury?

Answer 7

When blood supply is returned to ischaemic tissue that is not necrotic sometimes injury is worse than if not restored

- Increase production of oxygen free radicals

- Increased number of neutrophils with blood supply so more inflammation

- Delivery of complement proteins and activation of complement pathway so more inflammation and cell membrane damage

Question 8

What is haemachromatosis and Wilson’s disease?

Answer 8

H = Excess iron

W = Excess copper

Leads to unbound metals in the body that can form free radicals via Fenton reaction

Question 9

How does the body control free radicals?

Answer 9

• Antioxidant scavengers (vitamin A,C and E)
• Metal carrier and storage proteins for Fe and Cu (transferrin)
• Enzymes, e.g superoxide mutase, GSH, catalase

Question 10

What are heat shock proteins?

Answer 10

Protection by cell against effects of injury. Trauma leads to more synthesis of heat shock proteins, e.g ubiquitin. Try to mend misfolded proteins

Question 11

What do injured cells look like with light microscopy?

Answer 11

• Cytoplasm changes
• Nuclear canges
• Abnormal cell accumulations

Question 12

What happens to the nucleus of cells that die from oncosis?

Answer 12

1. Pyknosis (shrinkage)
2. Karyorrhexis (fragmentation)
3. Karyolysis

Question 13

What do reversibly injured cells look like under the electron microscope?

Answer 13

• Swelling of cell and organelles as no Na/K pump
• Blebs
• Detachment of ribosomes from ER
• Clumped chromatin due to lowered pH

Question 14

What do irreversibly injured cells look like under an electron microscop?

Answer 14

Same as reversible injury plus:

• Myelin figures (damaged membranes)
• Lysis of ER
• Large densities in mitochondria
• Nuclear changes

Question 15

How can you diagnose cell death looking at EM microscope?

Answer 15

Dye exclusion therapy, those that don’t take up the dye are still alive as they have good membrane integrity

Question 16

What is

• oncosis?
• necrosis?
• apoptosis?

Answer 16

Oncosis - Cell death with swelling, spectrum of changes that occur prior to cell death in cells injured by hypoxia

Necrosis - In a living organism, the morphological changes that occur some time after death. It is an appearance, not a type of cell death

Apoptosis - Cell death with shrinkage. Induced by intracellular program that activates enzymes that degrade itself

Question 17

What are the different types of necrosis?

Answer 17

Main:

• Liquefactive (colliquitive)
• Coagulative

Special:

• Fat
• Caseous

Question 18

Why are there two main types of necrosis?

Answer 18

Question 19

What does coagulative necrosis look like under the microscope?

Answer 19

• Solid clump of dead tissue
• Ghost outline of cells

Accute inflammatory response

PROTEIN DENATURATION GREATER THAN PROTEIN DEGRADATION

Question 20

What does liquefactive necrosis look like?

Answer 20

• Lots of dead neutrophils
• Degradation greater than denaturation
• No clear visible structure

Question 21

What does caseous necrosis look like?

Answer 21

• Amorphus debris
• Associated with infections like TB
• Cheese like

Question 22

What does fat necrosis look like?

Answer 22

• Release of free FA that react with calcium forming chalky deposit. Mostly seen in pancreatitis as lipases are released that will break down adipose tissue in pancreas
• Can occur in breast due to trauma and can be misdiagnosed as breast cancer by patient

Question 24

What is gangrene, and what does it mean to be wet, dry and gas?

Answer 24

Gangrene = Necrosis visible to naked eye

Dry = necrosis modified by exposure to air and drying, coagulative

Wet = necrosis modified by infection, liquefactive

Gas = wet gangrene with anaerobic bacteria that produce palpable bubbles of gas

Question 25

What is the issue with wet gangrene?

Answer 25

More likely to lead to sepsis

Question 26

What is an infarction and an infarct?

Answer 26

**Infarction =** necrosis caused by reduction in arterial blood flow, can lead to gangrene. Cause of necrosis **Infarct =** area of necrotic tissue due to loss of arterial blood supply. Ischemic necrosis. Lesion due to infarction

Question 27

What are the common causes of infarction?

Answer 27

- Embolism: detached from thrombosis and blocks distant site - Thrombosis - Twisted bowels and testicles - Compression, e.g tumour

Question 28

What is the only solid organ that doesn’t have coagulative necrosis?

Answer 28

The brain

Question 29

Why are some infarcts white?

Answer 29

- Mainly in solid organs that have good stromal support - Occlusion of end artery that is sole source of blood - Little haemorrhage from adjacent tissue, death of all downstream tissue - Heart, spleen and kidney, wedge shaped

Question 30

Why are some infarcts red?

Answer 30

- Mainly in loose tissue, poor stromal support allowing bleeding - Mainly due to dual blood supply, e.g lung - Not enough blood for reperfusion and save with dual blood supply but bleeds onto dead tissue - Can be due to reperfusion, e.g after stroke, in area too far gone

Question 31

What issues can leaky membranes cause systemically?

Answer 31

- Local inflammation and irritation - Toxic effects on body e. g myoglobin, K, enzymes

Question 32

What is tumour lysis syndrome?

Answer 32

Complication with cancer treatment where a lot of cancer cells lyse at once and release large amounts of toxic molecules, e.g increase in K levels quickly

Question 33

What do you give a patient with high potassium levels?

Answer 33

Calcium gluconate to prevent cardiac arrhythmia

Question 34

What is the difference between necrosis and apoptosis?

Answer 34

Apoptosis is controlled and necrosis caused by bad event that was uncontrollable. Apoptosis only single cell death but necrosis has had large area of death

Question 35

What does apoptosis look like under the microscope?

Answer 35

Question 36

What does accumulated cholesterol look like under the microscope?

Answer 36

Cholesterol clefts, needle spaces

Question 37

What is the process of apoptosis?

Answer 37

**Initiation:** intrinsic or extrinsic that activates caspases that cleave DNA and proteins of cytoskeleton **Execution** **Degradation and Phagocytosis:** Apoptic bodies express proteins on surface so recognised by phagocytes

Question 38

How is the intrinsic pathway of apoptosis carried out?

Answer 38

- Integrating signal comes from within the cell, e.g DNA damage, removal of growth hormone. - P53 protein is activated and this results in mitochondrial membrane being leaky - cytochrome C is released from mitochondria, activating caspases

Question 39

How is the extrinsic process of apoptosis carried out?

Answer 39

- Initiated by extracellular signals. - One signal is TNFalpha released by T killer cells. - Binds to death receptor on cell membrane, activating caspases and downstream degradation

Question 40

What are the differences between apoptosis and oncosis?

Answer 40

- Budding in apoptosis but blebbing in oncosis - Inflammation in oncosis but not in apoptosis

Question 41

What are the main groups of intracellular accumulations?

Answer 41

- Water and electrolytes - Lipids (TAG and cholesterol) - Proteins e.g alpha1-antitrypsin and Mallory’s hyaline in alcoholic liver - Pigments - Carbohydrates

Question 42

When does fluid accumulate in cells?

Answer 42

Hydropic swelling when energy supplies cut off. Na floods into cell and so does water. Can cause coning in brain

Question 43

When do lipids accumulate in cells? **(steatosis)**

Answer 43

In liver - Alcohol - Diabetes Mellitus - Obesity - Toxins

Question 44

What do accumulated proteins look like?

Answer 44

Eosinophilic droplets or aggregations in cytoplasm.

Question 45

When do exogenous pigments accumulate in cells?

Answer 45

**Carbon/Coal Dust/Soot:** phagocytosed by macrophages leading to anthracosis and blackened peribronchial lymph nodes. Harmless till leads to fibrosis and pneumoconiosis **Tattoos:** phagocytosed in dermis and left there

Question 46

What is haemosiderosis?

Answer 46

- Haemosiderin stores iron in cells and is brown as derived from Hb - Forms when local excess of iron e.g bruise - When systemic overload of iron, haemosiderin deposited in lots of organs - Seen in haemolytic anaemia, hereditary haemochromatosis and blood transfusions NO TISSUE DAMAGE

Question 47

What is hereditary haemochromatosis?

Answer 47

- Increase absorption of Fe from the diet - Iron deposited in heart, pancreas, liver, skin and endocrine organs. - Associated with scarring in pancreas and liver and heart dysfunction - Bronze diabetes - Treat by repeated bleeding

Question 48

What does jaundice look like and what is it caused by?

Answer 48

- Accumulation of bilirubin, bright yellow - If bile flow is obstructed or overwhelmed, bilirubin in blood rises and jaundice results - Deposited in tissues extracellularly or in macrophages

Question 49

Why does dystrophic calcification occur?

Answer 49

- Localised, more common in area of dying tissue, aging heart valves, atherosclerotic plaques, tuberculus lymph nodes and malignancies - No abnormality in metabolism or serum calcium concentrations. Local change favours nucleation of hydroxyapatite crystals

Question 50

Why does metastatic calcification occur?

Answer 50

- Hypercalcaemia due to disturbances in calcium metabolism. Body-wide. - Can be asymptomatic or lethal - Can regress if cause of hypercalcaemia is cured

Question 51

What causes hypercalcaemia?

Answer 51

- Increase secretion of PTH - Destruction of bone tissue

Question 52

Do cells live forever?

Answer 52

- After a certain number of divisions they reach replicative senescence relating to the length of their chromosomes - When telomeres reach critical length the cell no longer divides

Question 53

How do stem cells ‘live forever’?

Answer 53

- They contain an enzyme called telomerase that maintains the original length of the telomeres. - Cancer cells can produce telomerase so they can continually replicate