Lecture 18 Sensory Systems - Taste & Olfaction

Question 1

What are the chemical senses?
How are they detected?

Answer 1

Taste & smell

Through sensations from interactions between air & fluid chemical molecules and chemoreceptors

Question 2

Describe the gustatory pathway

Answer 2

Cranial nerves - tongue (facial nerve, glossopharyngeal nerve, vagus nerve) -> medulla oblongata (brain stem) -> thalamus -> gustatory cortex (insula & frontal cortex) - - -> amygdala

Gustatory cortex - conscious perception of taste.
Frontal cortex - further processing of taste, relay to amygdala
Amygdala & hypothalamus - emotional qualities of taste
Hippocampus - taste memory

Question 3

What are the three cranial nerves?

Where are they each positioned on the tongue?

Answer 3

Facial nerve (VIII), glossopharyngeal nerve (IX), vagus nerve (X),

VIII - ant. 2/3 tongue
IX - post 1.3 tongue
V - behind tongue

Question 4

Papillae

Answer 4

• Fungiform (most front regions), foliate (back corner regions), vallate (very back of tongue)
• contain taste buds - contain taste receptors

Question 5

Taste buds

*Location, shape, components and their functions *

Answer 5

• location: invaginations/ folds between papillae
• gustatory epithelial cells (taste cells) - form onion shape, sloth off and replenished 1-2 weeks
• basal epithelial cells - replace taste cells.
• taste pore - flood by tastants dissolved in saliva, apical tongue surface
• gustatory hairs - chemoreceptors to detect tastants, tip of taste cells.
• surrounded by stratified squamous epithelium
• sensory neurons -> taste fibres of cranial nerve -> cranial nerve

Question 6

5 primary taste sensations

How can they be tasted

Gustatory cortex

Answer 6

Salty - Na+
Sweet - sugar (glucose,fructose)
Bitter - alkaloids (in nicotine, medicine, caffeine)
Sour - citrus fruits
Umami - meaty taste (by aspartic acid & glutamic acid)

“Tasted” - dissolved molecules in saliva flood taste pore and bind to chemoreceptors

Different areas activated - taste receptors of taste sensation

Question 7

Taste receptor proteins

Answer 7

Tastants bind to
On microvilli of taste cell apical surface

Ion channels - direction transduction pathways
- Salty - ENaC (epithelium Na channel)
- Sour - ASIC2 (Acid sensitive ion channel )

GPCR - indirect transduction pathways via 2nd messenger signalling system
- Bitter - T2R - 1 GPCR
- Umami - T1R1 & T1R3 - 2GPCR
- Sour - T1R2 & T1R2. - 2GPCR

Question 8

Basic taste transduction pathway
1. Ion channel
2. GPCR

Answer 8

1. (A) sour: H+ ion block K+ channels -> K+ cannot leave cell (+ ion build up)
   (B) Salty: Na+ enter Na+ ion channel (more positive ions)

• depolarisation - Ca2+ voltage gated channels open - Ca2+ influx - neurotransmitter release

2. Tastant bind to receptor - conformational change - activate G protein - PLC activate - PLC catalyses conversion PIP2 -> IP3 (2nd messenger) - IP3 - activate TRPM5 Ca2+ channels to release Ca2+ / intracellular stores release Ca2 +

Question 9

Ageusia

Answer 9

Loss of taste functions

Risk factors - food poisoning, appetite & weight loss, malnutrition
Very rare - complete taste loss

Possible causes of long term aguesia - taste pathways tumours, taste bud developments absence (hereditary condition), severe brain injury

Question 10

Olfaction (smell)

Answer 10

Nose -> olfactory bulb (upper part of nose)-> olfactory cortex

Only sense no go through thalamus

Humans - detect ~ 200000 different substances, weak compared to dog and rat ->small olfactory epithelium

Trigger nice/unpleasant response

Important in other species - communication through pheromones

Question 11

Neural coding of brain

Why can smell trigger memory or emotion of a person, place or event?

Answer 11

Pyriform cortex (olfactory cortex) located near amygdala (emotions) & hippocampus (memory).

Smell info can go to brain regions associated with memory and emotion without going through thalamus

Question 12

Pathway for processing smell information

Other regions associated with smell

Answer 12

Nerve endings (chemoreceptors) -> detect odourants in nasal cavity & send info to olfactory bulb -> olfactory cortex (pyriform cortex)

Olfactory receptors -> [olfactory nerve(I)] -> olfactory bulb -> [olfactory tract] -> olfactory cortex (pyriform cortex) -> amygdala(emotions)-> hippocampus (memory) & hypothalamus (emotions)

thalamus - smell info sent later on

Question 13

Olfactory bulb has glomeruli. What are they?

Answer 13

Specific regions olfactory sensory neurons synapse onto

Each receives input from olfactory receptor neurons that express one olfactory receptor type

Different odourants -> different activity signals in glomeruli.
Activation of glomeruli -> limited to one/two glomeruli

More odourant conc -> higher individual glomerulus activity

Question 14

Where are the olfactory receptors localised?

How are odourants detected and send to the brain?

What is the cribriform plate?

What is a characteristic of odourant receptors ?

Answer 14

Upper nasal cavity

Odourants bind to chemoreceptors -> olfactory receptor cells activated and send electrical signals -> glomeruli axons (cribriform plate) carry electrical signals. -> Signals passed by converged axons -> signals relayed to higher brain regions

Cribriform plate -> meshy, holey bone that axons fit through

Each receptor specialised -> one or few specific odorant molecules

Question 15

Describe odorant transduction

Answer 15

GPCR via 2nd messenger system using adenylyl Cyclades

Odourant molecules bind to receptor protein(olfactory cell cilium) -> adenylyl cyclase dissociates from receptor -> cAMP converted from ATP -> Ca2+ & Na+ influx -> membrane depolarisation -> action potential

Question 16

What is anosmia?

Answer 16

Loss of smell.
Transient anosmia experienced when got cold
Sustained olfactory loss -> decreased appetite, weight loss, malnutrition
Aging, disease, traumatic head injury, congenital, acquired during a chronic sinus infection

Olfactory sensitivity decline as you age