The Chemical Senses

Question 1

What are the chemical senses our body detects?

Answer 1

• taste
• smell
• CO2/O2 levels
• chemical irritants
• acidity

Question 2

What is the role of chemoreceptors in the body?

Answer 2

Chemoreceptors - CO₂/O₂, in arteries of the neck measure CO₂/O₂ levels in our blood
E.g. during altitude (hypoxia), chemoreceptors activated to drive oxygenated blood into the body

Question 3

How does the body protect us against chemical irritants?

Answer 3

Nerve endings in skin / mucous membranes warn us of chemical irritants

Question 4

How does the body warn us of acidity?

Answer 4

Sensory nerve endings in our muscles respond to acidity; burning feeling that comes with exercise and O₂ debt

Question 5

How do we develop taste preferences?

Answer 5

Some of our taste preferences are inborn / innate
Humans innately enjoy sweet flavours and avoid bitter flavours - this is evolutionary (avoids toxins, distinguishes food sources)

However our experiences can strongly modify our innate preferences = we can learn to tolerate or enjoy the bitterness of some substances (e.g. coffee)

Question 6

What are the 5 basic tastes?

Answer 6

The 5 basic tastes:

• Sweet
• Sour
• Bitter
• Salt
• Umami (monosodium glutamate)

Question 7

How do we perceive flavour?

Answer 7

Flavour is perceived due to the mixture of the tastes, the texture and smell

Question 8

What organ is responsible for taste?

Answer 8

Taste is primarily a function of the tongue

Question 9

How does the palate of the mouth aid taste?

Answer 9

Palate - the roof of mouth separating oral and nasal cavities - taste buds present in palate

Question 10

Describe the role of the epiglottis in taste

Answer 10

Epiglottis - leaf shaped cartilage laryngeal inlet upon swallowing - taste buds present in epiglottis

Question 11

What role does the nasal cavity play in taste perception?

Answer 11

Pharynx and Nasal cavity - odours pass via pharynx to the nasal cavity to be detected by olfactory receptors

Question 12

Which flavours are detected by the tongue?

Answer 12

All areas of the tongue can detect all flavours, but certain flavours are recognised better in specific areas.

Question 13

What aids the tongue in perceiving taste?

Answer 13

Tongue contains papillae in different shapes across its surface;

• Fungiform are mushroom shaped
• Foliate papillae are ridge shaped
• Vallate papillae are pimple shaped

Question 14

How do papillae aid taste perception?

Answer 14

Taste buds are embedded into the papillae
Taste core is the chemically sensitive end within a taste bud.

The taste core contains taste cells that connect and synapse with gustatory afferent axons which transmit taste info to the brain

Question 15

How does the tongue differentiate between the five flavours?

Answer 15

Taste receptor cells express different types of taste receptors - most taste receptor cells respond primarily (or even exclusively) to one of the five basic tastes
The five different tastes are transduced via different mechanisms

Question 16

What are the different transduction mechanisms of the gustatory info?

Answer 16

• Ion Channel Mechanisms

- GPCR Mechanisms via T1 and T2 Taste Receptors

Question 17

Which tastes are transducted via ion channel mechanism?

Answer 17

Ion Channel Mechanisms

• Saltiness
• Sourness

Question 18

Outline the ion channel mechanism for saltiness transduction

Answer 18

1. Na+ passes through Na+ selective channels, down its
   concentration gradient
2. This depolarises the taste cell, activating voltage-gated
   Ca2+channels (VGCCs)
3. Vesicular release of neurotransmitter is elicited, and
   gustatory afferents activated
4. Special Na+ selective channel (amiloride sensitive) used
   to detect low concentrations of salt – insensitive to
   voltage and generally stays open.

Question 19

What factor determine saltiness?

Answer 19

Prototypical salty chemical is table salt (NaCl) - taste of salt is mostly the taste of the cation Na+.

Question 20

What determines sourness?

Answer 20

Protons (H+) determine acidity and sourness

Question 21

Describe the transduction of sourness

Answer 21

1. H+ can pass through the same Na+ selective channels
   that mediate saltiness, down its concentration gradient
2. H+ also blocks K+ selective channels
3. Both these actions depolarise the taste cell, activating
   voltage-gated Ca2+ channels (VGCCs)
4. Vesicular release of neurotransmitter is elicited, and
   gustatory afferents activated

Question 22

Which tastes use GPCR transduction mechanisms?

Answer 22

GPCR Mechanisms via T1 and T2 Taste Receptors

• Bitterness
• Sweetness
• Umami

Question 23

Whcihc receptor proteins are responsible for the GPCR transduction mechanisms?

Answer 23

Transduction processes underlying bitter, sweet and umami tastes rely on two families of related taste receptor proteins – T1Rs and T2Rs.

Question 24

Describe the structure of T1Rs and T2Rs receptors

Answer 24

T1Rs and T2Rs are G-protein coupled receptors (GPCRs) and are Gq coupled – evidence suggests that they form dimers.

Question 25

Which receptors detect sweet tastes?

Answer 25

Sweetness is detected by a dimer receptor formed from T1R2+T1R3, which is Gq coupled

Question 26

What receptor detects bitterness?

Answer 26

Bitter substances are detected by approximately 25 T2Rs, which are Gq coupled

Question 27

How are umami flavours detected?

Answer 27

Umami is detected by a dimer receptor formed from T1R1 + T1R3, which is also Gq coupled

Question 28

Describe the Gq transduction pathway activated by T1Rs and T2Rs

Answer 28

1. PLC converts PIP₂ to IP₃ [and DAG]
2. IP₃ intracellularly activates a type of Na+ ion channel,
   and releases Ca2+ from the endoplasmic reticulum
3. Both these actions depolarise the taste cell, activating
   voltage-gated Ca2+ channels (VGCCs)
4. Vesicular release of ATP is elicited, and gustatory
   afferents

Question 29

How do we differentiate between bitter and sweet tastes?

Answer 29

Taste cells express either bitter or sweet receptors - not both; we don’t get confused between bitter and sweet tastes

Bitter and sweet taste cells connect to different gustatory axons

Question 30

How is umami differentiated form sweetness?

Answer 30

The same signal transduction mechanism as bitterness and sweetness occurs
Shares T1R3 protein with sweetness – other T1R subunit determines specificity to sweetness or umami.

Taste cells express either bitter, sweet or umami receptors.

In turn, bitter, sweet and umami taste cells connect to different gustatory axons

Question 31

Where does gustatory info go?

Answer 31

The flow of taste info to the CNS occurs via several cranial nerves from different taste bud regions

Question 32

Outline the flow of gustatory info from the mouth to the brain

Answer 32

1. CNVII (ant. tongue)
   CNIX (post. tongue)
   CNX (epiglottis)
2. These nerves send gustatory info to the Gustatory
   nucleus in the medulla
3. The message is passed onto the thalamus (ventral
   posterior medial nucleus)
4. Message taken to gustatory cortex

Question 33

Is smell (olfaction) innate or learned?

Answer 33

Similarly to taste, some of our smell preferences are inborn (or “innate”).

Our experience can strongly modify our innate preferences (e.g. smoking, professional perfumers)

Question 34

What are pheromones?

Answer 34

Pheromones are olfactory stimuli used for chemical communication between individuals.

Question 35

What is the significance of pheromones?

Answer 35

In some animals, pheromones are important signals for reproductive behaviours, marking territories and indicating aggression or submission.

However, the importance in humans is unclear

Question 36

Where do we smell from?

Answer 36

We do not smell with our nose – we smell with a small, thin sheet of cells high up in the nasal cavity called the olfactory epithelium

Question 37

What is the olfactory epithelium?

Answer 37

A specialised epithellial tissue inside the nasal cavity that is involved in smell

Question 38

Where does olfactory transduction occur?

Answer 38

Olfactory receptor cells are the site of transduction – genuine neurons unlike taste receptor cells

Question 39

What is the role of olfactory supporting cells?

Answer 39

The supporting cells function is similar to glial cells, and they help produce mucus

Question 40

What is the function of olfactory basal cells?

Answer 40

Basal cells are immature olfactory receptor cells – source of new olfactory receptor cells.

Question 41

Outline the olfactory transduction mechanism

Answer 41

1. Odorant molecules bind to odorant receptor proteins on
   the cilia
2. Olfactory-specific Gₒₗբ G-protein is activated
3. Adenylyl cyclase activation increases cAMP formation
4. cAMP-activated channels open, allowing Na+ and Ca2+
   influx
5. Ca2+ activated chloride channels open enabling Cl-
   efflux depolarisation

Question 42

How does an action potential travel along the receptor cell dendrite?

Answer 42

Dendrite propagates receptor potential triggers a series of action potentials within the olfactory receptor cell soma.

Question 43

What structures form the olfactory receptor neuron?

Answer 43

Cilia and Odorants
Dendrite
Olfactory cell body
Olfactory nerve axon

Question 44

What occurs at the receptor cell odorant?

Answer 44

Odorants at end of neuron, generate a slow receptor potential in the cilia

Question 45

How does olfactory info travel to the brain?

Answer 45

Action potentials propagate continuously along the olfactory nerve axon to the brain

Question 46

Outline the transduction of nerve input from the olfactory receptor cells to the brain

Answer 46

1, Receptor potential generated in cilia
2. Converted into action potentials which is passed on
through dendrites to the cell soma
3. Passed on via olfactory nerve axons to the brain

Question 47

What is the olfactory bulb?

Answer 47

A structure located in the forebrain that receives neural input by cells in the nasal cavity.

The axons of olfactory receptor cells extend directly into the olfactory bulb, where information about odours is processed

Question 48

How are specific smells recognised?

Answer 48

Olfactory receptor cells expressing the same receptor proteins project to the same glomeruli in the olfactory bulb.

Signals are relayed in the glomeruli and transmitted to higher regions of the brain.

Question 49

Where are the olfactory signals relayed in the brain?

Answer 49

The message can then be forwarded to the following brain regions:
Frontal cortex perceives smell

Hippocampus aids odour memory

Hypothalamus and amygdala involved in motivation and emotional aspects of smell

Question 50

What is the significance of population coding in gustation and olfaction?

Answer 50

In population coding, the responses of a large number of broadly tuned neurons are used to specify the properties of a particular stimulus (e.g. taste, smell).

Question 51

Explain how population coding enables distinction of different taste and smells

Answer 51

Gustatory and olfactory receptor cells may express only one specific receptor protein.

However, gustatory and olfactory axons and the neurons they activate in the brain respond more broadly.
Only with a large population of neurons, with different response patterns, can the brain then distinguish between specific tastes and smells…

Question 52

How can the brain distinguish a citrus smell using population coding?

Answer 52

When presented with a citrus smell, none of the three receptor cells can individually distinguish it from the other odours.

However, the brain can distinguish the citrus smell through the combination of responses from all three cells.

It is estimated that humans can discriminate at least one trillion different combinations of odour stimuli.

Question 53

How are we able to determine various smells and tastes?

Answer 53

Temporal and spatial population coding is used to discern sensory signals