2.2 Cochlear Physiology ll

Question 1

What is the take-home message of Davis’s battery (below) in your own words as much as possible. (6)

Answer 1

• based on electrical circuits around hair cells in the cochlea
• two energy pumps that are connected to each other one in the stria vascularis (right side of diagram) and one at the lateral wall of hair cells (left side of diagram)
• both pumps provide energy for transduction
• both channels are potassium channels
• channels are controlled by the bending of hairs
• channels are MET that have variable resistance and therefore can be adjusted

Question 2

What is the take-home message of Davis’s battery (below) in your own words as much as possible. (6)

Answer 2

• based on electrical circuits around hair cells in the cochlea
• two energy pumps that are connected to each other
  -one in the stria vascularis (right side of diagram) and one at the lateral wall of hair cells (left side of diagram)
• both pumps provide energy for transduction
• both channels are potassium channels
• channels are controlled by the bending of hairs
• channels are mechanical- electrical transduction (MET) - - channels that have variable resistance and therefore can be adjusted

Question 3

What did electrophysiology experiments teach us about transduction?

Answer 3

Transduction occurs at the level of the reticular lamina

Question 4

What is the tip-link theory (3)

Answer 4

1. Fine filaments called tip links connect the stereocilia to one another.
2. Mechanical deflection cause hair bundle to tense the tip links and opens ion channels
3. Transduction channels are located inside stereocilia and are controlled by the bending of the hairs

Question 5

What did radio-isotopes teach us about transduction?

Answer 5

That the transduction channels allow K+ to pass

Question 6

What kind of channels are involved in transduction?

Answer 6

The channels used in transduction are Mechanical-Electrical transduction channels (MET)

Question 7

How does the MET channel relate to K and other positive ions?

Answer 7

The MET current is carried by K however, MET channels are open to all positive ions

Question 8

Of the two factors that have to do with ion movement , which one drives K mainly?

Answer 8

K is mainly driven by voltage via the MET channels because the concentration difference is so small

Question 9

What are the two reasons for the driving of K?

Answer 9

• There is less disturbance of the intracellular environment due to the high concentration of K inside the HCs
• K also has a downhill movement which requires no energy and then reduces noise

Question 10

What is meant by the standing current?

Answer 10

A current without sound is a standing current.
(ex: when there is no sound, the MET are PARTIALLY open so there is still current)

Question 11

Describe the general steps of a standing current. (3)

Answer 11

1. When there is no stimulation, MET channels are open partially, at low level—baseline opening.
2. K moves from stria vascularis (SV) to SM, into hair cells (through transduction current)
3. Then K moves out to perilymph (via K channels at the lateral wall of HCs), or supporting cells (via gap-junction) and then back to SV.

One direction in cycle.

Question 12

Some times, the two voltage and concentration forces are in the opposite direction, the movement of ions is therefore determined by________________

Answer 12

the net force

Question 13

When is there a change to this standing current?

Answer 13

Response to sound appears to be a modulation of standing current (either increase or decrease). But the direction of the nerve changes.

Question 14

What is the voltage and concentration inside the SM?

Answer 14

Voltage= +80mV, concentration of K+ 140 mM

Question 15

What is the voltage and concentration in the hair cells?

Answer 15

Voltage= -60mv, concentration of K +137 mM

Question 16

What is the voltage and concentration in the ST?

Answer 16

Voltage= 0, concentration of K 0

Question 17

What are the three types of links across the stereocilia?

Answer 17

1) Row-to-row
2) Side-to-side
3) Tip-to-side

Question 18

Side-to-side and Row-to-row tip links are ________________________________________________________________

Answer 18

thicker and hold stereocilia together

Question 19

Tip-to-side control ____________________.

Answer 19

MET Channels

Question 20

What are the two possible functions of the links? (2)

Answer 20

Connect stereocilia together (the role of side-side, row-row links)
Control of transduction ion channels

Question 21

What is the most fragile structure of the cochlea to noise?

Answer 21

• Links among the Cilia are most fragile to noise
• Damage to the links causes the stereocilia disarrangement, reduction of transduction efficacy is expected.

Question 22

Describe the channel opening, tip links, cilia movement and neurotransmitter release in the following situation:

Standing Current

Answer 22

Standing Current - ion channel partially open (baseline opening) when quiet.

Question 23

Describe the channel opening, tip links, cilia movement and neurotransmitter release in the following situation:

Depolarization (4)

Answer 23

Opening increases,
cilia bend laterally
Tip Links stretched Opening
Inside cells become less negative
Excitation

Question 24

Describe the channel opening, tip links, cilia movement and neurotransmitter release in the following situation:

Hyperpolarization

Answer 24

Opening decreases,
Cilia bend medially
Tip links close/compress
Cell even more negative than before
Suppressed

Question 25

Where are the two roles of the Calcium seen?

Answer 25

Neurotransmitter release in the hair cells and opening of calcium sensitive K channels at the lateral wall to contribute to repolarization.

Question 26

Describe the overall 8 steps of transduction:

Answer 26

k influx from MET channel
depolarization
Ca influx
repolarization
hyperpolarization
repolarization
repeat

Question 27

The lateral bending of OHC (depolarization) cause their size to_____________

Answer 27

shorten

Question 28

What protein has a role in the shape change for OHC?

Answer 28

Prestine

Question 29

What is transmission?

Answer 29

The electrical biochemical release of a neurotransmitter to create an action potential in the spiral ganglion neuron.

Question 30

What is a spontaneous action potential (as it relates to transduction in this case)?

Answer 30

Spontaneous action potentials are the baseline release of a neurotransmitter to result in an action potential.

Question 31

What increases the chance of Aps?

Answer 31

Stereocilia being bent laterally.

Question 32

Based on the three steps of signal processing in the cochlea, please respond: Conduction involves ____________________________________________________________________________________________

Answer 32

Conduction involves the change in signal processing from: mechanical to hydrolic mechanical -> macro -> micromechanics

Question 33

Based on the three steps of signal processing in the cochlea, please respond: Transduction involves ____________________________________________________________________________________________

Answer 33

Transduction involves the change in the signal processing from: mechanical to electrical

Question 34

Based on the three steps of signal processing in the cochlea, please respond: Transmission involves ____________________________________________________________________________________________

Answer 34

Transmission involves the change in the signal processing from: Electrical (receptor potential)-biochemical (neurotransmitter release) to action potential of SGN

Question 35

What can the role of the OHC be summarized as?

Answer 35

MECHANICAL AMPLIFIER - INTERNAL HEARING AID

Question 36

What are two traits of the healthy cochlea that was not identified by Bekesy?

Answer 36

Lower threshold (the lowest sound level to evoke response better frequency selectivity

Question 37

What are the two sensitivities affected by the active mechanism of hearing?

Answer 37

sensitivity to sound & frequency selectivity

Question 38

What is the role of the OHC in Frequency selectivity?

Answer 38

OHC amplify soft sound so the cochlea can perceive, and OHC increases frequency selectivity

Question 39

What are the three main evidences that show the OHC role in amplification?

Answer 39

Motility of OHCs
Lesion studies—OHC lesion poor tuning and poor sensitivity
Otoacoustic Emissions: ear can produce sound, this shows OHC function: generating mechanical force

Question 40

Describe the the fast Motility of OHC:

Answer 40

Fast body motility responds to voltage change - in vitro studies

Question 41

Describe the negative impacts of lesions on OHC:

Answer 41

Lesions on OHC indicates poor tuning and poor sensitivity

Question 42

Describe the relationship between Otoacoustic emission and OHC:

Answer 42

ear can produce sound, this shows OHC function: generating mechanical force

Question 43

What are the two types of OHC motility? Which type is seen in amphibians and not mammals?

Answer 43

hair bumble motility in amphibians and fast OHC motility in mammals

Question 44

How fast is the fast OHC body motility? What is it proportional to?

Answer 44

flows up to 20Hz and is proportional to membrane potential changes

Question 45

How much does the length change?

Answer 45

the length changes up to 5%, 1-5um

Question 46

What protein is responsible for the change in the shape of the outer hair cell?

Answer 46

prestin

Question 47

What are the stages of signal processing in the OHC shape change?

Answer 47

The signal is from mechanical to electrical and then mechanical.

Question 48

What are the stages of signal processing in the OHC shape change?

Answer 48

The signal is from mechanical to electrical and then mechanical.

Question 49

The cochlea is more sensitive to sound than the
vestibular apparatus because:

Answer 49

The special accessory structures effectively
convert the sound to stimulate hair cells in
cochlea than in the vestibuli.

Question 50

Compared to inner hair cells, outer hair
cells are:

Question 51

Which cell type provides support to
OHCs?

Answer 51

Dieter’s cells

Question 52

Electrical polarization means that there is:

Answer 52

a voltage difference between extra and intra cellular spaces.