Chemical Senses-Von

Question 1

About how many olfactory cells do dogs have?

Answer 1

1 billion or more

Question 2

Which is longer: the olfactory nerves or the olfactory tract?

Answer 2

the olfactory tract is much longer

the olfactory nerve is short, comes from the olfactory bulb & pierces thru the cribriform plate.

Question 3

T/F It is easy to rupture olfactory nerves.

Answer 3

True. It is…if that happens you could get leakage of CSF into the olfactory cavity. It can look like nasal secretions, but really it is CSF & then you have to be concerned about bacteria that can get into the brain.

Question 4

Past the cribriform plate there are receptor cells. What do these look like?

Answer 4

these are bipolar cells. They have cilia extending into the mucus. They have olfactory knobs near the cilia.

Question 5

What makes the mucus past the cribriform plate? What is its fcn?

Answer 5

the Bowman’s gland

mucus has a protective function, immunoglobulins are found there…

Question 6

T/F the cilia are actively motile in the nose.

Answer 6

False. They just extend into the mucus.

Question 7

Which cell types are found in the olfactory epithelium?

Answer 7

stem cells, basal cells, receptor cells, supporting cells, Bowman’s glands

Question 8

Are the axons of the olfactory nerves myelinated?

Answer 8

No. They are unmyelinated, b/c they are short & they don’t need to be.

Question 9

How do you stimulate the olfactory receptor cells?

Answer 9

the odorants bind to the cilia on the olfactory receptor cells.
they will NOT bind to the body of the receptor. This causes polarization.

Question 10

What percent of mammalian genes are devoted to odorant receptors?

Answer 10

3-5 percent

Note: these odorant receptors on cilia are transmembrane.

Question 11

Describe what happens when an odorant binds a transmembrane receptor on the cilia of a receptor cell.

Answer 11

Odorant molecule binds receptor protein.
G protein activated.
Golf has GTP bound & activates adenylate cyclase.
ATP–>cAMP
cAMP activates the Na+/Ca++ channel. Na+ & Ca++ flow thru.
Ca++ binds CAM and activates the Ca++ gated Cl- channel.
Cl- leaves the cell.
Ca++ also activates the Na+/Ca++ exchanger.

Question 12

What’s the deal behind combinatorial receptor codes for odors?

Answer 12

have maybe 100 odorant receptors that are specific to different types of odors.
can distinguish b/w like 10,000 odors b/c different combinations of activation–>different odors.

Question 13

What are the layers of the olfactory bulb?

Answer 13

Glomeruli (closest to the cribriform plate)
External Plexiform Layer
Mitral Cell Layer
Granule Cell Layer

Question 14

What do you find in the glomeruli of the olfactory bulb?

Answer 14

a small cluster of nerve fibers from the olfactory nerve, filae
here they synapse with dendrites of mitral cells and tufted cells

Question 15

Where do you find dendrites in the layers of the olfactory bulb?

Answer 15

dendrites are found in the mitral cell layer

they end up synapsing with filae in the glomeruli of the olfactory bulb

Question 16

What are the interneurons that are found in the retina?

Answer 16

horizontal cell
amacrine cell
**these connect receptor, bipolar, & ganglion cells

Question 17

What are the interneurons that are found in the olfactory bulb?

Answer 17

periglomerular & granule cells

**these connect receptor & mitral cells

Question 18

What do the periglomerular cells connect?

Answer 18

they are found in the olfactory bulb & they connect the glomeruli!

Question 19

Where do the mitral & tufted cells extend?

Answer 19

they project into the olfactory cortex

Question 20

T/F The mitral cells synapse in the thalamus before extending into the olfactory cortex.

Answer 20

False. They are second order neurons & they don’t synapse in the thalamus, but go directly to the olfactory cortex.

Question 21

When the olfactory projections go to the cortex, where do they go?

Answer 21

they go the uncus (a part of the pyriform cortex)

there are also projection to another part of the pyriform, the amygdala.

Question 22

The pyriform cortex is a medial projection of which lobe?

Answer 22

the temporal lobe.

Question 23

T/F Olfactory bulb projects directly into the cortex.

Answer 23

True.

Question 24

T/F Olfactory sensitivity decreases with age.

Answer 24

True.

Question 25

What is anosmia? Which syndrome is this seen in?

Answer 25

loss of smell

Kallmann syndrome

Question 26

Aside from anosmia, what else is seen in Kallmann syndrome?

Answer 26

this is a genetic condition which consists of not starting puberty.
Includes hypogonadism.

Question 27

What is hyposmia?

Answer 27

reduction in smell

Question 28

What are some possible causes of hyposmia?

Answer 28

viral
sinus infection
head trauma
decreases with age
alteration in pregnancy
smoking

Question 29

What are the 3 CN that mediate taste? Where do they synapse?

Answer 29

CN 7, 9, 10
they synapse in the gustatory nucleus in the nucleus solitariis tract.
they also synapse in the ventral posterior medial nucleus of the thalamus.

Question 30

The lateral geniculate nucleus is a part of the ______ pathway. The medial geniculate nucleus is a part of the _____ pathway.

Answer 30

Lateral Geniculate Nucleus: visual pathway

Medial Geniculate Nucleus: auditory pathway

Question 31

The part of the cortex that receives tongue info is medial/lateral relative to other structures.

Answer 31

It is pretty lateral.

Question 32

The gustatory fibers project to 2 places after they are found in the thalamus at the VPM. What are these 2 places?

Answer 32

gustatory cortex aka frontal operculum

insula gustatory cortex

Question 33

Which part of the tongue does CN7 contribute to taste?

Answer 33

the anterior 2/3 of the tongue-taste buds

Question 34

Which part of the tongue does CN9 contribute to taste?

Answer 34

posterior 1/3 of the tongue-taste buds

Question 35

Which part of the tongue does CN10 contribute to taste?

Answer 35

taste buds of the epiglottis

Question 36

Taste seems to be an emotional experience b/c the insula communicates with which 2 structures? These also communicate w/ the thalamus.

Answer 36

hypothalamus

amygdala

Question 37

What is the rough distribution of flavors around the tongue?

Answer 37

bitter on the back
sour & salty on the sides
salt near front
sweet near front

Question 38

What are the 3 types of taste buds?

Answer 38

Circumvallate papillae
Fungiform papillae
Foliate Papillae

Question 39

Describe the structure & location of circumvallate papillae?

Answer 39

there are trenches on both sides w/ taste buds on either side
they are mainly in the back of the tongue
innervated by CN9

Question 40

Describe the structure & location of fungiform papillae?

Answer 40

these have their taste buds on the top
CN7
more near the front of the tongue

Question 41

Describe the structure & location of foliate papillae?

Answer 41

these are on the back & the side
have serous glands associated with it
taste buds are in its sides/trenches
CN9

Question 42

How many taste cells does each bud have? How often do they need to be replaced?

Answer 42

50-150 taste cells

replaced every 2 weeks

Question 43

Which cells in the taste buds replace the old taste cells?

Answer 43

the basal cells replace them!

Question 44

Do receptor cells have their own axons?

Answer 44

no, they synapse with CN nerves

Question 45

Describe the structure of the taste pores of the taste buds?

Answer 45

they have microvilli that extend into the open space

Question 46

Which part of the taste bud makes up the apical domain? Basal domain?

Answer 46

The taste pore with its microvilli makes up the apical domain. The basal domain is the body of the taste bud. then you have your gustatory afferent axons.

Question 47

What special things happen at the apical domain of the taste bud?

Answer 47

There are ion channels & G-coupled receptors that respond to certain flavors. This activates second messengers & causes a cascade effect.

Question 48

What special things happen at the basal domain of the taste bud?

Answer 48

The TRPM5 channel opens up.
Na+ channel opens up to let Na+ in.
K+ channel opens up to let K+ out.
Ca++ channel opens up to let Ca++ in.

Question 49

What happens after the TRPM5 & other channels are opened in the taste bud?

Answer 49

then Ca++ enters in the cell from the outside & from the ER.
this allows synaptic vesicles with NT to be released from the taste bud.

Question 50

Once the synaptic vesicles with NT are released from the taste bud…what happens next?

Answer 50

they are released
they then activate the primary neurons w/ gustatory afferent axons.
This AP sends info to the ganglion & to the nucleus solitarii tract.

Question 51

What types of flavors affect the ion channels in the apical domain?

Answer 51

salt

sour

Question 52

What types of flavors affect the G protein coupled receptors on the apical domain?

Answer 52

sweet
bitter
umami
**this activates 2nd messengers!

Question 53

What types of NT are released from taste buds?

Answer 53

ATP
Serotonin
GABA

Question 54

What is Ageusia?

Answer 54

loss of taste

Question 55

What is hypogeusia?

Answer 55

reduction of taste

Question 56

What are possible causes of loss of taste?

Answer 56

smoking
Cystic Fibrosis
Bell's Palsy
Oropharyngeal tumors
Chemotherapy-prevents necessary turnover of taste buds

Question 57

What is cacogeusia?

Answer 57

extremely unpleasant taste

Question 58

What can cause cacogeusia?

Answer 58

schizophrenia & other psychiatric disorders

Question 59

What are some chemosensitive structures that are innervated by the trigeminal nerve?

Answer 59

nose
cornea
tongue
teeth

Question 60

What is the function of chemosensitive structures?

Answer 60

alert to harmful stimuli & initiate their removal

Question 61

T/F There are some receptor cells in the tongue that resemble taste receptors that are innervated by the trigeminal nerve.

Answer 61

True.

Question 62

The ciliary nerves & ethmoid nerves both come off of the opthalmic division of the trigeminal nerve. What do they innervate?

Answer 62

ciliary nerves–>cornea

ethmoid nerves–>nose

Question 63

What does this mean: General rule–>3 neurons to the cortex?

Answer 63

usu you have a receptor that may be specialized.
Then there are 3 neurons & you get to the cortex.
1. Bipolar or Ganglion Cell–>Sensory nucleus
2. Sensory Nucleus–Thalamus
3. Thalamus—>Cortex

Question 64

What is an exception to the 3 neurons to the cortex rule?

Answer 64

Olfaction.

Question 65

Ascending projections of cochlear nuclei: ____________ prior to thalamus.

Answer 65

goes to the superior olivary nucleus before it goes to the thalamus.

Question 66

What does MSO stand for? What does this structure help you do? This can detect differences in inter aural time of ______ microseconds.

Answer 66

medial superior olive
helps you to position yourself based on what you hear. Tell which ear the sound is closer to.
10 microseconds!

Question 67

What is the order of events of hearing something closer to your left side?

Answer 67

1. Left ear hears sound.
2. AP begins traveling toward MSO
3. Right ear hears sound.
4. AP begins traveling toward MSO
5. APs converge on MSO. This is most strong if they converge at the same time.