8 - Alcohol

Question 1

yeast

Answer 1

• fast generation time
• dried for storage (rehydrated)
• genomes fully sequenced
• model organisms

Question 2

fermentation mechanism

Answer 2

1. glucose undergoes glycolysis to produce 2 pyruvate molecules
2. 2 pyruvate molecules undergoes decarboxylation to produce 2 acetaldehyde molecules
3. 2 acetaldehyde molecules undergoes aldehyde dehydrogenase to produce 2 ethanol

Question 3

fermentation

Answer 3

• 15% ethanol is toxic

- distillation decreases concentration of alcohol to 40%+

Question 4

molecules

Answer 4

• anthocyanine
• terpenes
• tannins
• polyphenols
• vitamins

Question 5

alchohol use

Answer 5

1. abstinence
2. moderate
3. binge drinker
4. heavy (alcoholic)

Question 6

absorption

Answer 6

• mostly in the intestine
• some in the stomach
• slows down metabolism in stomach

Question 7

blood alcohol content (BAC)

Answer 7

ethanol (in grams) / 100 ml blood

Question 8

acute effects

Answer 8

• biphasic
• increased sociability
• decreased anxiety

Question 9

physiological effects

Answer 9

• vasdilation
• increased gastric/salivary secretions
• loss of stomach mucosal lining

Question 10

spins

Answer 10

• ethanol permeates endolymph and cupula
• cupula becomes more dense than endolymph as ethanol exits, therefore it is not stabilized when lying down
• sensory fibres activated, brain interprets lying down as motion

Question 11

neuronal activity

Answer 11

• slowed
• affected NTs: GABA, Glu, DA
• anxiolytic effects

Question 12

anxiolytic effects

Answer 12

• effects from the amygdala
• drowsiness
• dizziness
• lowered BP

Question 13

ethanol reinforcement

Answer 13

• decreases glutamate release in GABAergic neurons
• increases opioiod release in GABAergic neurons
• increase DA release due to GABA being inhibited

Question 14

metabolism

Answer 14

• 90% metabolized in liver
• 5% metabolized in other parts of the body
• 3% metabolized in stomach
• 2% excreted unchanged (breath, urine, skin)
• genetic background influences acetaldehyde levels, effects, vulnerability to addiction (Asians have lower ALDH variant, therefore they will feel the effects of ethanol more)

Question 15

kinetics

Answer 15

zero order kinetics (only a certain amount metabolized in an hour)

Question 16

driving

Answer 16

• exhaled 1/2100
• provincial suspension: 0.05% (0.05g in 100ml)
• federal criminal DUI: 0.08 (0.08g in 100ml)
• 0.4-0.5% is lethal

Question 17

poisoning

Answer 17

• antifreeze
• methanol
• hand sanitizer
• isopropanol

Question 18

treating methanol poisoning

Answer 18

• administer ethanol

- administer fomepizol

Question 19

ethanol administration against methanol

Answer 19

• out-competes methanol for enzymes, reducing formaldehyde production
• methanol excreted unchanged by kidneys

Question 20

fomepizole administration against methanol

Answer 20

• competitive inhibitor of ADH
• prevents build-up of toxic metabolites
• more expensive

Question 21

early studies

Answer 21

• 19th century: lipid theory from Meyer-Overton
• 1980s: ethanol inhibit soluble enzyme
• ethanol increases VTA DA firing
• invitro: 10-200 mM of ethanol increaes spontaneous VTA firing
• ethanol must be applied in VTA, not NAc

Question 22

mechanism of ethanol action

Answer 22

• sedative-effects
• asphyxiation at lethal doses due to alck of activity in autonomic centers
• lower levels, GABA-A activity increases
• higher levels, iGlu-NMDA recep. and voltage-gated calcium channels are inhibited

Question 23

projections

Answer 23

• Glu and GABA are important for reinforcement

Question 24

input projections

Answer 24

• Glu is projected from PFC
• Glu is projected from RN
• GABA is projected from NAc

Question 25

GABA-A receptors

Answer 25

• heteropentameric receptors
• Cys-loop ligand-gated channel superfamily
• 19 genes, therefore 19 subunits
• ethanol potentiates after activation
• mIPSCs (small currents) from hyperpolarization

Question 26

NMDA receptors

Answer 26

• heterotetramic receptors
• ionotropic Glu family
• subunit composition affects fxn
• NR1/2C is less sensitive than NR1/2A/E
• inhibited at high doses, therefore additive effects with GABA results in depressed electrical activity

Question 27

VTA DA neruons

Answer 27

• VTA also received proejctions from opioid-ergic input from arcuate nucleus of hypo.
• endrophin released at high doses of ethanol, predisposed to alcohol abuse