Block 3 Lecture 2 -- Cell Death

Question 1

What are the 2 categories of aging theories?

Answer 1

1) biologically programmed

2) Accumulation of Errors / Damage

Question 2

What is the programmed senescence theory?

Answer 2

genetics regulate program

• • Hayflicks limits
• • Telomerase theory
• • based on salmon spawning producing massing steroid release leading to death

Question 3

What is Hayflicks limits?

Answer 3

fibroblasts die after 50 divisions

Question 4

What are the biologically programmed theories?

Answer 4

1) programmed senescence
2) immune senescence
3) endocrine senescence

Question 5

What is the endocrine senescence theory?

Answer 5

decreased HP-ovarian fx leads to sexual senescence and hormone decreases, along with less responsive organs
– more difficult to maintain homeostasis

Question 6

What is the immune senescence theory?

Answer 6

change in immune system leads to infection disease

• • fewer Th
• • thymic involution
• • more autoimmune diseases

Question 7

What is the Rate of Living Theory?

Answer 7

greater basal O2 metabolism = shorter lifespan

– supported by caloric restriction studies

Question 8

What is the Failure of Neurogenesis theory?

Answer 8

based on finding that neurogenesis required throughout life in some parts of brain

• • hippocampus
• • olfactory bulb
• • crucial for synaptic plasticity (learning, memory)

Question 9

What theory of aging has the best evidence?

Answer 9

free radical theory

Question 10

What are the Damage theories?

Answer 10

1) free radical
2) failure of endogenous repair
3) failure of neurogenesis
4) environmental exposures
5) rate of living
6) wear and tear

Question 11

What is the failure of endogenous repair mechanisms theory?

Answer 11

environmental exposures neutralized by neurotrophins, DNA repair, etc.

• • neurotrophins turned off during CNS development
• • turned on after trauma/toxicity

Question 12

What is the free radical theory?

Answer 12

slow persistent accumulating DNA/protein/lipid damage

– mitochondrial death switch

Question 13

What is nuclear compaction?

Answer 13

process that occurs in apoptosis

• • chromatin condensation
• • DNA cleavage
• • formation of apoptotic bodies

Question 14

Why is apoptosis better?

Answer 14

plasma membrane stays intact

– minimal inflammatory response

Question 15

What substances induce necrosis?

Answer 15

trauma, toxins, hypoxia
Ca overload, oxidative stress
– cellular swelling causes rupture of all membranes

Question 16

What causes secondary brain damage?

Answer 16

microglia scavenging remainders of cell death

– apoptosis and necrosis

Question 17

What defends against ROS?

Answer 17

enzymes
– SOD, GSH peroxidase, catalase
antioxidants
– GSH, polyphenols, Vit. E + C

Question 18

Why are neurons especially vulnerable to ROS?

Answer 18

1) high demand
- - many cells, long axons
2) little capacity to make/store energy
3) metabolic demands increase with age

Question 19

SOD:

Answer 19

O2. (superoxide) – H2O2

Question 20

Fe catalyzes:

Answer 20

H2O2 – OH. (hydroxyl radical)

the fenton reaction

Question 21

GSH Peroxidase catalyzes:

Answer 21

H2O2 – H2O

Question 22

Catalase catalyzes:

Answer 22

H2O2 – H2O + O2

Question 23

What disease has an SOD mutation?

Answer 23

ALS

Question 24

O2. + NO. (from Arg) –

Answer 24

ONOO- (peroxynitrite)

Question 25

What substances mediate cellular damage due to ROS?

Answer 25

OH. (Hydroxyl radical)

ONOO- (peroxynitrite)

Question 26

Where does iron accumulate?

Answer 26

nigrostriatal pathway (PD)

Question 27

Why is ATP required to prevent excitotoxicity?

Answer 27

EAATs require ATP

Question 28

When does Glu (Ca Overload) Excitotoxicity occur and what is the overall result?

Answer 28

after ischemia or TBI

• • delayed inflammation
• • prolonged apoptosis

Question 29

Why is Ca overload bad?

Answer 29

1) enzyme (-ase) activation
2) NOS makes NO
NO + AA = OH. (ROS)

Question 30

What are the Ca-buffering systems?

Answer 30

1) ATP-dependent Ca uptake pumps (ER, mito)
2) cytosolic Ca sensors (calmodulin)
3) cytosolic Ca binding proteins (calbindin)

Question 31

What are the phases of excitotoxicity in stroke?

Answer 31

1) Glu causes NMDAr agonism, Ca influx
2) increased ACh agonises a7 nAChR, Ca influx
3) can’t buffer Ca (no ATP)

Question 32

Injury produces…

Answer 32

inhibitory growth molecules (spinal cord won’t heal!)

Question 33

MoA of memantine:

Answer 33

NMDAr antagonist

• • no neuroprotective evidence, although PCP and ketamine do work for this
• • no cognitive dysfunction as in PCP/ketamine
• • decrease Ca influx (?)

Question 34

What pharmacological agents can be used for neuroprotection?

Answer 34

1) NMDAr antagonist
2) a7 nAChR antagonists
3) CCBs
4) anti-oxidants
5) COX-1 NSAIDs
6) neurotrophic factors

Question 35

What algae is a big DHA producer?

Answer 35

crypthecodinium cohnii

Question 36

DHA treatment has what effect on brain inflammation after TBI?

Answer 36

reduces, mainly in post-injury administration

Question 37

What is the MOA of w-3 FAs?

Answer 37

antioxidant

GPCR modulator