4. Calcium

Question 1

Describe the transmitter release pathway.

Answer 1

1. Ca2+ enters through voltage gated calcium channels.
2. Ca2+ binds to SYNAPTOTAGMIN on a vesicle and brings the vesicle to the plasma membrane.
3. These band to a SNARE COMPLEX to form a FUSION PORE.
4. Neurotransmitter released.

Question 2

What are the advantages and disadvantages of a large inward gradient for Ca2+?

Answer 2

The inward calcium gradient [Ca2+] is 1-2mM to 100nM.

ADVANTAGES
Little movements in Ca2+ cause large changes in [Ca2+]i  so Ca2+ is used to regulate many processes e.g.
- Fertilisation
- Proliferation
- Secretion

DISADVANTAGES
Ca2+ overload leads to cell death due to loss of regulation.

Question 3

Give the FOUR ways that the Ca2+ gradient is SET and MAINTAINED?

Answer 3

1. MEMBRANE IMPERMEABILITY (channels usually closed)
2. EXPULSION
   a) Plasma Membrane Ca2+ ATPase (1Ca out: 1H in)
   - requires CALMODULIN to bring Ca2+
   b) Na+ Ca2+ Exchanger (1 Ca out: 3Na in)
3. Ca2+ BUFFERS (ATP and Ca2+ binding proteins)
   - slow Ca2+ diffusion this reduces its effects across the cell
   - TRIGGER PROTEINS also bind Ca2+ to alter their function
4. INTRACELLULAR STORES
   a) Rapidly releasable (ER or SR)
   b) Non Rapidly releasable (Mitochondria)

Question 4

What are Microdomains?

Answer 4

Microdomains are regions where Ca2+ concentration is in excess of the rest of the cell such as around an open Ca2+ channel.

Question 5

Give the THREE ways intracellular calcium concentration is altered.

Answer 5

1. INFLUX across plasma membrane
   a) Voltage Operated Ca2+ Channels
   b) Receptor Operated Ca2+ Channels (e.g. glutamate receptors)
2. RAPIDLY RELEASABLE STORES (ER or SR)
   - SERCA imports Ca2+
   - Calsequestrin binds Ca2+ in SR
   - Ca2+ leaves SR via release channels
3. NON RAPIDLY RELEASABLE STORES (mitochondria)
   - Uniporter imports Ca2+

Question 6

What are the FOUR functions of mitochondrial Ca2+ buffering?

Answer 6

1. Ca2+ buffering is a PROTECTIIVE mechanism occurring when Ca2+ concentrations are too high.
2. The Ca2+ stimulates METABOLISM in mitochondria.
3. Ca2+ is also involved in SIGNALLING at microdomains.
4. The mitochondria are involved in APOPTOSIS as they release their stored Ca2+

Question 7

What are the advantages and disadvantages of a large inward gradient for Ca2+?

Answer 7

The inward calcium gradient [Ca2+] is 1-2mM to 100nM.

ADVANTAGES
Little movements in Ca2+ cause large changes in [Ca2+]i  so Ca2+ is used to regulate many processes e.g.
- Fertilisation
- Proliferation
- Secretion

DISADVANTAGES
Ca2+ overload leads to cell death due to loss of regulation.

Question 8

Give the FOUR ways that the Ca2+ gradient is SET and MAINTAINED?

Answer 8

1. MEMBRANE IMPERMEABILITY (channels usually closed)
2. EXPULSION
   a) Plasma Membrane Ca2+ ATPase (1Ca out: 1H in)
   - requires CALMODULIN to bring Ca2+
   b) Na+ Ca2+ Exchanger (1 Ca out: 3Na in)
3. Ca2+ BUFFERS (ATP and Ca2+ binding proteins)
   - slow Ca2+ diffusion this reduces its effects across the cell
   - TRIGGER PROTEINS also bind Ca2+ to alter their function
4. INTRACELLULAR STORES
   a) Rapidly releasable (ER or SR)
   b) Non Rapidly releasable (Mitochondria)

Question 9

What are Microdomains?

Answer 9

Microdomains are regions where Ca2+ concentration is in excess of the rest of the cell such as around an open Ca2+ channel.

Question 10

Give the THREE ways intracellular calcium concentration is altered.

Answer 10

1. INFLUX across plasma membrane
   a) Voltage Operated Ca2+ Channels
   b) Receptor Operated Ca2+ Channels (e.g. glutamate receptors)
2. RAPIDLY RELEASABLE STORES (ER or SR)
   - SERCA imports Ca2+
   - Calsequestrin binds Ca2+ in SR
   - Ca2+ leaves SR via release channels
3. NON RAPIDLY RELEASABLE STORES (mitochondria)
   - Uniporter imports Ca2+

Question 11

What are the FOUR functions of mitochondrial Ca2+ buffering?

Answer 11

1. Ca2+ buffering is a PROTECTIIVE mechanism occurring when Ca2+ concentrations are too high.
2. The Ca2+ stimulates METABOLISM in mitochondria.
3. Ca2+ is also involved in SIGNALLING at microdomains.
4. The mitochondria are involved in APOPTOSIS as they release their stored Ca2+

Question 12

Give THREE forms of calcium release channels on the SR and how each works.

Answer 12

1. IP3 RECEPTOR (responds to IP3 once a Gaq GPCR is activated)
2. Ryanodine 2 Receptor - CALCIUM INDUCED CALCIUM RELEASE
3. Ryanodine 1 Receptor - CONFORMATIONAL COUPLING with VOCC (i.e. forms connection between SR and transverse tubule)

Question 13

Which THREE transporters or channels cause the rise in cytosolic Ca2+ which induces contraction of cardiac myocytes?

Answer 13

1. VOLTAGE OPERATED Ca2+ CHANNELS
   (open in response to depolarisation and allow a small amount of Ca2+ to enter from the ECM)
2. RYANODINE 2 RECEPTORS
   (Calcium induced calcium release - some Ca2+ from VOCCs bind causing massive release of Ca2+ from SR)

3. Na+ Ca2+ EXCHANGER (Reversed)
(Depolarisation causes NCX reversal leading to more Ca2+ influx)
Although reverts to normal when:
a) Repolarisation is underway
b) Ca2+ concentration increases

Question 14

Ca2+ is toxic if it remains high for too long therefore the basal state must be restored. What THREE ways is this done by?

Answer 14

1. TERMINATION of signal
2. REMOVAL of Ca2+ from the cell (via PMCA and NCX)
3. STORE REFILLING

Question 15

What is capacitative Ca2+ entry?

Answer 15

CAPACITATIVE CHANNELS in the plasma membrane (or store operated Ca2+ entry channels) are activated when Ca2+ is depleted from the stores.

This results in intake if Ca2+ from outside of the cell and SERCA pumps it into the SR.