Communication

Question 1

4 reasons for cell signalling?

Answer 1

• To process information
• For self preservation
• For voluntary movement
• For homeostasis

Question 2

4 steps to neurotransmission?

Answer 2

1. Propagation of action potential (AP) in pre-synaptic neurone- Na+ influx and K+ outflux to depolarise membrane
2. Neurotransmitter (NT) release from vesicles- AP opens voltage-gated Ca2+ channels at presynaptic terminal which causes vesicle exocytosis
3. Activation of postsynaptic receptors- NT binds to receptors on post-synaptic membrane and receptors modulate post-synaptic activity
4. Signal can be transmitted by a variety of different types of receptor

Question 3

Endocrine communication and example

Answer 3

Hormone acts on a distant target cell. E.g glucago targeting liver cells

Question 4

Paracrine communication and example

Answer 4

Hormone acts on adjacent cells. E.g insluin inhibiting glucagon secretion

Question 5

Membrane receptor communication and example

Answer 5

APC presenting MHC class II molecules on surface and binding to circulating T-lymphocyte

Question 6

Autocrine communication and example

Answer 6

Signalling when molecule acts on same cell. E.g T-cell secreting IL-2 to bind to IL-2 receptors on itself

Question 7

Chemical messages or molecules?

Answer 7

Ligands

Question 8

Ligand-gated ion channel receptors (ionotropic receptors)?

Answer 8

1. Ligand binds to receptor protein
2. Conformation change of channel protein opens pore in membrane
3. Ions move in or out of the cell according to concentration gradient

Question 9

G protein-coupled receptors?

Answer 9

1. At rest, the G protein complex consists of a Ga subunit, a GBy subunit and an associated GDP molecule close to the receptor
2. Ligand binding causes the complex to associate with the receptor resulting in the GDP molecule being phosphorylated to a GTP molecule
3. Ga subunit dissociates from the Gby subunit
4. Ga and Gby act as second messengers
5. When the ligand dissociates from the receptor, internal GTPase on the Ga subunit hydrolyses GTP to GDP
6. Ga and Gby subunits re-associate and are once again available to the receptor

Question 10

Enzyme-linked receptors?

Answer 10

1. Ligand binding results in receptors clustering
2. Enzyme activity activated in cytoplasmic domain
3. Enzymes phosphorylate receptor
4. Phosphorylation leads to binding of signalling proteins to the cytoplasmic domain
5. Other signalling proteins recruited and signal in cell generated
6. Signal terminated when a phosphatase dephosphorylates the receptor

Question 11

Intracellular Receptors?

Answer 11

Essentially transcription factors controlled by membrane permeable steroid hormones

Question 12

Two types of intracellular receptors?

Answer 12

• Type I: located in cytosol. Hormone binds to receptor, hsp dissociates so complex can form a homodimer and translocate to the nucleus
• Type 2: located in nucleus and are often bound to DNA. Binding of hormone ligand results in direct transcriptional regulation by activated complex

Question 13

Example of ligand-gated receptor?

Answer 13

GABAa

Question 14

Example of G protein-coupled receptor?

Answer 14

B1 adrenergic

Question 15

Example of enzyme-linked receptor?

Answer 15

NPR1

Question 16

Example of intracellular receptor

Answer 16

TRa