Gustation

Question 1

What are the 2 roles for gustation?

Answer 1

• evaluating the nutritional content of food
• preventing the ingestion of toxic compounds

Question 2

Where are taste buds located on the tongue?

Answer 2

on top of papillae

Question 3

What are the 4 different types of papillae? Which ones have taste buds?

Answer 3

• fungiform (taste buds)
• circumvillate (taste buds)
• foliate (taste buds)
• filiform (NO taste buds)

Question 4

Describe the shape/size of fungiform papillae. Do they have taste buds on them? Where are they located on the tongue?

Answer 4

• large bumps
• taste buds
• located at tip of tongue

Question 5

Describe the shape/size of circumvillate papillae. Do they have taste buds on them? Where are they located on the tongue?

Answer 5

• dome-shaped bumps
• taste buds
• forms a V at back of tongue

Question 6

Do foliate papillae have taste buds on them? Where are they located on the tongue?

Answer 6

• taste buds
• located at base of tongue

Question 7

Describe the shape/size of filiform papillae. Do they have taste buds on them?

Answer 7

• small bumps
• no taste buds

Question 8

TRUE or FALSE: the distribution map for different tastes is all the same because each taste bud can have all different taste receptors

Answer 8

TRUE

Question 9

What are the tastes that we can detect?

Answer 9

• bitter
• salty
• sweet
• umami
• sour

Question 10

What kinds of food are considered umami?

Answer 10

foods rich with glutamates like MSG

Question 11

How many cells does each taste bud have?

Answer 11

50-150 cells of 4 types

Question 12

How often is the taste bud receptor turnover?

Answer 12

5-10 days

Question 13

Which types of taste bud cells are taste receptors? basal cells?

Answer 13

• I, II, III = taste receptors
• IV = basal (develop into new taste receptors)

Question 14

How many types of taste bud cells are there?

Answer 14

4 (I-IV)

Question 15

According to the slides, which type of taste receptor cell is responsible for salty taste? sour taste? sweet taste? umami taste? bitter taste? water?

Answer 15

• salty = type I
• sour + water= type III
• sweet + umami + bitter = type II

Question 16

According to the notes, what is the mechanism for type I cells?

Answer 16

1. Na+ from salty food enters through a Na+ channel
2. resulting depolarization opens V-gated Ca2+ channels
3. influx of Ca2+ causes NT release

Question 17

Provide an example that demonstrates how insensitive type I cells are.

Answer 17

saliva is normally 10 mM NaCl, but for food to taste salty, need >50 mM NaCl

Question 18

What is the mechanism for type III cells?

Answer 18

1. protons pass through a TRPP3 channel conjoined with a polycystic kidney disease family protein (PKD1L3)
2. weak acids also pass through lipid membrane
3. H+ ions close K+ channels –> cell depolarization
4. open V-gated Na+ channels –> AP
5. V-gated Ca2+ channels open
6. 5HT released

Question 19

What is the general mechanism for type II cells?

Answer 19

1. GPCR senses sweet/umami/bitter
2. GDP –> GTP-alpha
3. PLC cleaves PIP2 to IP3
4. IP3 binds to Ca2+ channel; Ca2+ influx
5. TRPM5 channel opens
6. Na++ influx depolarizes the cell
7. APs generated

Question 20

Which taste receptor proteins make up the sweet type II receptor? Describe the structure. What do they detect?

Answer 20

• heterodimer of T1R2 and T1R3
• sugars: glucose, fructose, sucrose, aspartame

Question 21

Which taste receptor proteins make up the umami type II receptor? Describe the structure. What do they detect?

Answer 21

• heterodimer of T1R1 and T1R3
• detect L-glutamate and other L-amino acids

Question 22

Which taste receptor proteins make up the bitter type II receptor? Describe the structure. What do they detect?

Answer 22

-dimers of 2 taste receptor proteins from the T2R family

Question 23

How is ATP released when we detect sweet, umami, and bitter?

Answer 23

• Ca2+ that flows in from the type II receptor GPCR not only opens TRPM5 channels, but it also…
• opens Panx1 channels, releasing ATP into the extracellular space

Question 24

TRUE or FALSE: type I and II taste receptors are ionotropic, whereas type III is metabotropic

Answer 24

FALSE: type I and III = ionotropic; type II = metabotropic

Question 25

Explain how type II and type III afferents influence each other.

Answer 25

• ATP released by type II can bind to P2Y receptors (metabotropic) on type II and III cells and P2X receptors (ionotropic) on afferents
• P2X opening allows influx of Na+ and Ca2+

Question 26

TRUE or FALSE: there are no bitter taste receptors

Answer 26

FALSE: there are no spicy taste receptors

Question 27

Where do spicy stimuli bind? What kind of receptors are these?

Answer 27

• bind to free nerve endings
• thermoreceptors in the tongue, mouth, airway

Question 28

What kind of channels are found on thermoreceptors?

Answer 28

TRP channels in free nerve endings in the tongue and mouth

Question 29

What are TRP channels sensitive to?

Answer 29

temperature

Question 30

How many transmembrane units make up TRP channels?

Answer 30

6

Question 31

What temperature range do warm fibers detect? cold fibers? What is the main TRP channel associated with these fibers?

Answer 31

• warm fibers = above 25 degrees C, TRPV1
• cold fibers = below 25 degrees C, TRPM8; below 17 degrees C, TRPA1

Question 32

WHat activates TRPV1?

Answer 32

capsaicin

Question 33

What acitvates TRPM8?

Answer 33

menthol

Question 34

What activates TRPA1?

Answer 34

wasabi and cinnamon

Question 35

What behaviours does activation of TRPA1 elicit?

Answer 35

tears, airway resistance, cough

Question 36

Explain why wasabi gives a hot sensation even though it activates TRPA1 (which is associated with cold fibers).

Answer 36

TRPA1 is often co-expressed with TRPV1 (associated with hot fibers)

Question 37

Which cranial nerves convey taste from the tongue to the brainstem? Which parts of the tongue does each nerve innervate?

Answer 37

• facial VII: anterior 2/3 of tongue
• glossopharyngeal IX: posterior 1/3 of tongue
• vagus X: free nerve endings (spicy)

Question 38

To which nucleus in the brainstem do the cranial nerves in the tongue travel? Where does it travel from here?

Answer 38

NTS –> VPM of thalamus –> insular cortex –> primary gustatory cortex

Question 39

Which area of the cortex is involved in perception arising from interoceptors (e.g. full bladder, stomach upset)?

Answer 39

insular cortex

Question 40

In which area of the cortex is th gustatory cortex found?

Answer 40

insular cortex

Question 41

When is the insula activated?

Answer 41

during pain and disgust

Question 42

Where does the insula have reciprocal communications?

Answer 42

• secondary somatosensory cortex (S2)
• amygdala

(hint: food is emotional)

Question 43

Which part of the cortex is associated with value and reward in terms of gustation?

Answer 43

orbitorfrontal cortex

Question 44

Which part of the brain is associated with regulating food intake?

Answer 44

lateral hypothalamus

Question 45

TRUE or FALSE: olfactory and gustatory integration occurs in the hypothalamus

Answer 45

FALSE: in the insular cortex