Week 3 Pathology

Question 1

What are the 3 major effects of free radical attack on lipids, proteins and DNA?

Answer 1

1) Lipid peroxidation
2) DNA fragmentation
3) Protein crosslinking

Question 2

What does reversible and irreversible injury do to the plasma membrane?

Answer 2

Reversible injury: blebbing, loss of microvilli

Irreversible injury: disruption/lysis

Question 3

What does reversible and irreversible injury do to the mitochondria?

Answer 3

Reversible injury: modest swelling

Irreversible injury: massive swelling, leakage

Question 4

What does reversible and irreversible injury do to the endoplasmic reticulum?

Answer 4

Reversible injury: dilation with detachment of polysomes

Irreversible injury: extensive disruption and fragmentation

Question 5

What is karyolysis?

Answer 5

Loss of basophilia of DNA - DNAase activity (nuclei fading). Occurs in Necrosis.

Question 6

What is pyknosis?

Answer 6

Shrinkage of the nucleus, occurs in necrosis AND apoptosis

Question 7

What is karyorrhexis?

Answer 7

Fragmentation of a pyknotic (shrunken) nucleus, occurs in necrosis AND apoptosis

Question 8

What are the 6 main patterns of necrosis?

Answer 8

1) coagulative
2) liquefactive
3) gangrenous
4) caseous
5) fibrinoid
6) fat

Question 9

What happens in the cytoplasm in apoptosis?

Answer 9

1) Cell shrinkage
2) Formation of cytoplasmic blebs/apoptotic bodies
3) Mitochondria remain relatively intact

Question 10

What happens to the nucleus in apoptosis?

Answer 10

1) Chromatin condensation
2) Pyknosis
3) Nuclear remnants packaged into apoptotic bodies

Question 11

Which cell processes have ONLY pathologic causes?

Answer 11

necrosis and atrophy

Question 12

Extrinsic apoptosis is triggered by the ligands ______ or _________ that when bound to receptors triggers a cascade that eventually activates __________

Answer 12

Extrinsic apoptosis is triggered by the ligands Fasl or tumor necrosis factor (TNF) that when bound triggers a cascade that eventually activates caspases.

Question 13

Caspases function as __________ and __________

Answer 13

endonucleases (eat DNA) and proteases (eat protein)

Question 14

Intrinsic apoptosis from cell stress is caused by the leakage of __________ from the __________ that eventually triggers the caspases.

Answer 14

Intrinsic apoptosis is caused by the leakage of cytochrome C from the mitochondria that eventually triggers the caspases.

Question 15

Normally, _________ keeps cytochrome C inside the mitochondria but in intrinsic apoptosis, it is inhibited by _____, ______, _____, ______ when these are activated by the apoptotic signal _________.

Answer 15

Normally, Bcl2 keeps cytochrome C inside the mitochondria but in intrinsic apoptosis, it is inhibited by Bax, Bak, Bid, Bim when these are activated by the apoptotic signal P53.

Question 16

Ischemia is an example of _________ necrosis

Answer 16

coagulative

Question 17

TB is an example of __________ necrosis

Answer 17

caseous

Question 18

Peripheral vascular disease can cause ___________ necrosis

Answer 18

dry gangrene/coagulative

Question 19

Which type of necrosis preserves the architecture of the cell?

Answer 19

Coagulative - cell outline still there, no nucleus

Question 20

Damage to which organ would most likely cause fat saponification and fat necrosis?

Answer 20

Pancreas

Question 21

Bacterial abscesses and fungal infection is likely which type of necrosis?

Answer 21

Liquefactive necrosis

Question 22

Which type of necrosis is caused by leakage of proteinaceous material caused by damage to vessels (i.e. vasculitis)?

Answer 22

Fibrinoid necrosis

Question 23

Increase in size of the liver is most likely due to what process?

Answer 23

Hyperplasia

Question 24

GERD will likely result in which type of cell adaptation?

Answer 24

Metaplasia

Question 25

Increase in size of heart is likely due to what process?

Answer 25

Hypertrophy

Question 26

What is necrosis?

Answer 26

Morphologic changes causing enzymatic degradation of lethally injured cells. Occurs in living tissue and is accompanied by INFLAMMATION!!!

Question 27

What is apoposis?

Answer 27

Programmed cell death by a highly regulated cascade of enzymes that neatly package the cell for phagocytosis.
Does NOT incite inflammatory response!

Question 28

Lack of oxygen to a cell is _________ while lack of blood flow is _________?

Answer 28

Hypoxia and Ischemia

Question 29

Name some mechanisms of cell injury.

Answer 29

1. Decreased ATP
2. Mitochondrial damage
3. Ca2+ entering mitochondria
4. Increase reactive oxygen species (AKA free radicals)
5. Membrane damage
6. Protein misfolding

Question 30

Describe the apoptotic intrinsic pathway

Answer 30

P53 arrests the cell cycle and activates Bax, Bak, Bim and Bid (simultaneously inactivating BCL-2 and BCL-X).
Bax, Bak, Bim and Bid borrow themselves into the mitochondria promoting the release of cytochrome-C and pro-apoptotic proteins.
This initiates caspases to be released breaking down the cytoskeleton and chewing up the DNA for packaging into phagocytes.

Question 31

Describe the apoptotic extrinsic pathway

Answer 31

Every cell has death receptors. When the death receptors are initiated by a ligand (FAS or TNF) that provokes adapter proteins to initiate caspases to be released breaking down the cytoskeleton and chewing up the DNA for packaging into phagocytes.

Question 32

When would you see coagulative necrosis? What do you see microscopically?

Answer 32

See this in infarcts in any tissue (except brain)
Due to loss of blood
Gross: tissue is firm
Micro: Cell outlines are preserved (cells look ghostly), and everything looks red

Question 33

When would you see liquefactive necrosis? What do you see microscopically?

Answer 33

See this in infections and, for some unknown reason, in brain infarcts
Due to lots of neutrophils around releasing their toxic contents, “liquefying” the tissue
Gross: tissue is liquidy and creamy yellow (pus)
Micro: lots of neutrophils and cell debris

Question 34

When would you see caseous necrosis? What do you see microscopically?

Answer 34

See this in tuberculosis
Due to the body trying to wall off and kill the bug with macrophages
Gross: White, soft, cheesy-looking (“caseous”) material
Micro: fragmented cells and debris surrounded by a collar of lymphocytes and macrophages (granuloma)

Question 35

When would you see fat necrosis? What do you see microscopically?

Answer 35

See this in acute pancreatitis
Damaged cells release lipases, which split the triglyceride esters within fat cells
Gross: chalky, white areas from the combination of the newly-formed free fatty acids with calcium (saponification)
Micro: shadowy outlines of dead fat cells; sometimes there is a bluish cast from the calcium deposits, which are basophilic

Question 36

When would you see fibrinoid necrosis? What do you see microscopically?

Answer 36

See this in immune reactions in vessels
Immune complexes (antigen-antibody complexes) and fibrin are deposited in vessel walls
Gross: changes too small to see grossly
Micro: vessel walls are thickened and pinkish-red (called “fibrinoid” because the deposits look like fibrin deposits)

Question 37

When would you see gangrenous necrosis? What do you see microscopically?

Answer 37

See this when an entire limb loses blood supply and dies (usually the lower leg)
This isn’t really a different kind of necrosis, but people use the term clinically so it’s worth knowing about
Gross: skin looks black and dead; underlying tissue is in varying stages of decomposition
Micro: initially there is coagulative necrosis from the loss of blood supply (this stage is called “dry gangrene”); if bacterial infection is superimposed, there is liquefactive necrosis (this stage is called “wet gangrene”)

Question 38

Describe hypertrophy and what it is caused by.

Answer 38

Hypertrophy is an increase in cell SIZE which will lead to increase in tissue SIZE.
Either pathological (hypertrophic cardial myophathy) or physiologic (muscle building).
Caused by increase in 1) proteins, 2) cellular activity, 3) metabolic induction

Question 39

Describe hyperplasia and what it is caused by.

Answer 39

Hyperplasia is an increase in the NUMBER of cells which causes increase in tissue size.
Either pathological (BPH) or physiologic (breast enlargement due to hormones).
Caused by increase in 1) proteins, 2) cellular activity, 3) metabolic induction

Question 40

Describe atrophy, what it is caused by, and how it is mediated.

Answer 40

Atrophy is a DECREASE in cell SIZE and NUMBER which causes decrease in tissue size.
Only PATHOLOGICAL!
Cause by denervation and age and decreases in: 1) nutrients 2) hormone stimulation
Mediated by autophagy to degrade affected tissue via ubiquitin-proteasome pathway.

Question 41

Describe metaplasia and what it is caused by.

Answer 41

Metaplasia is a CHANGE is cell type due to adverse stimuli. It is REVERSIBLE! 
Either pathological (epithelia change in trachea due to smoking) or physiological (transformation zone of cervix).