Neurodegeneration

Question 1

Necrotic Morphological Changes

Answer 1

Swelling, irregular membrane, then lysis and internal contents spill into EC space. Immune response causes inflammation which can be bad in NS

Question 2

Excitotoxic Death (yielding 2 end results)

Answer 2

Initiated by stroke/necrosis, huge glut/Ca release. Act on neighboring NMDA Rs/Ca channels, leading to a huge influx of Ca. Mt release ROS and react w/ NO to produce peroxinitrites (very bad), and Ca activates lytic enzymes

Question 3

Apoptosis Morphological Changes

Answer 3

Shriking/clumping, membrane bubbles off, get black whole, finally everything disperses as apoptotic bodies

Question 4

Why We Don’t See Apoptosis in Adult Brains

Answer 4

Releases ATP as “find me” signal to macs/microglia, then 2nd “eat me” signal as phosphatidyl serine (normally on inside of membrane, flips it out)

Question 5

Ischemic Core and Penumbra

Answer 5

Center of attack - necrotic and unsalvageable vs. Surrounding area - necrotic and apoptotic, what we’re trying to protect

Question 6

Gross Changes from Traumatic Brain Injury

Answer 6

Huge ventricles and tissue atrophy

Question 7

Tau Protein

Answer 7

Associated w/ MTs, gives them rigidity. Hyperphosphorylation destabilizes MTs, causing neuron to collapse into tangles

Question 8

4 Stages of CTE Showing Tauopathy

Answer 8

Little subcortical pockets -> pockets growing -> a lot in cortex/cerebellum -> entire brain pretty much

Question 9

Geographical Progression of Tau Deposition in AD

Answer 9

Starts in entorhinal cortex/hippocampus -> spreads to frontal cortex -> whole brain

Question 10

Trans-Synaptic Spread of Tau Pathology

Answer 10

Seems that abnormal prot going through synapses: entorhinal cortex projects to frontal

Question 11

3 Depositions: AD, Huntington’s, Parkinson’s

Answer 11

Amyloid-Beta Prot, Huntingtin, and alpha-Synuclein

Question 12

2 Processing Pathways for Amyloid Precursor Protein (APP)

Answer 12

Alpha-secretase, producing a soluble fragment and small IC frag. Healthy
Beta-secretase - problematic one. Cleaved into ABeta frag, which is then cleaved by huge gamma-secretase complex into either ABeta40 or 42. 42 version causes problems

Question 13

ApoE

Answer 13

Degrades ABeta stuff - ApoE2 or 3 is fine, ApoE4 can’t and so at higher risk for CTE/AD

Question 14

Globular Intermediates of Proteins

Answer 14

Most toxic, damage synapses and how you get severe disease w/out deposits

Question 15

2 Protein Degradation Pathways (major point)

Answer 15

Proteasome - ubiquitination. Abnormal prot might plug
Autophagy - goes wrong in Huntington’s
So deg diseases have problems w/ trashing prots

Question 16

Diff b/w PrP and PrPsc

Answer 16

Morphological: Alpha helix vs. beta sheet

Question 17

PrP Function

Answer 17

At synapse, binds ABeta-prot oligomers (40 or 42)