Cell Signaling

Question 1

What are the four reasons we need cell signalling?

Answer 1

1. To process information
2. For self preservation
3. For voluntary movement
4. For homeostasis

Question 2

What is meant by self-preservation?

Answer 2

The activation of the reflex arc to protect ourself from danger

Question 3

What are the two systems which provide the main lines of communication?

Answer 3

Nerve fibers of the central and peripheral nervous system

Blood vessels of the cardiovascular system

Question 4

What line of communication is used for a rapid, instantaneous response?

Answer 4

The nerve fibres of the CNS and PNS

Question 5

What line of communication is slower and more versatile?

Answer 5

The blood vessel system

Question 6

What is meant by intercellular signalling?

Answer 6

Signalling between cells

Question 7

What is meant by intracellular signalling?

Answer 7

Signalling within a cell

Question 8

What are the four methods of signalling?

Answer 8

1. Autocrine
2. Endocrine
3. Paracrine
4. Communication between membrane attached proteins

Question 9

What is meant by endocrine communication?

Answer 9

When the hormone travels in the blood vessel and acts on a distant target cell

Question 10

How does glucagon act as an example of endocrine signalling?

Answer 10

Glucagon is released by the alpha cells of the Islets of Langerhans, and then transported in the blood to act on the liver, to stimulate glyconeogenesis and glycogenolysis to make more glycogen and glucose

Question 11

How does insulin provide an example of endocrine communication?

Answer 11

Insulin produced by the pancreas acts on muscle and adipose tissue

Question 12

How does adrenaline provide an example of endocrine communication?

Answer 12

Produced by the adrenal glands and travels in the blood to act on many body systems like the lungs and trachea

Question 13

What type of communication is shown in response to hypoglycaemia?

Answer 13

Endocrine

Question 14

What type of communication is shown in response to hyperglycemia? and why

Answer 14

Paracrine and Endocrine - when blood glucose levels are too high, insulin is released which inhibits the secretion of glucagon from the alpha islet cells
Endocrine effects on the liver ie reduced glycogenolysis

Question 15

What is meant by paracrine communication?

Answer 15

When the home that is released acts on the adjacent cell

Question 16

How does the pancreas show paracrine communication?

Answer 16

Insulin produced by the Beta cells acts on the ALpha cells of the islet of langerhans to inhibit glucagon production

Question 17

Describe how nitric oxide acts in a paracrine manner

Answer 17

Nitric Oxide produced by the endothelium in blood vessels, acts on the smooth muscle to vasodilate the vessels

Question 18

What is meant by membrane attached protein comunication?

Answer 18

When plasma proteins in the membrane of two different cells interact

Question 19

Describe an immunological example of membrane-attached protein communication

Answer 19

An APC detects blood borne virus
Digests it and presents its antigens on MHC
A circulating T cell then interacts with the MHC through T cell receptors

Question 20

What is meant by autocrine communicaiton?

Answer 20

When a hormone acts on the same cell that produced it

Question 21

How do T cells display autocrine forms of communication?

Answer 21

When T cells become activated they express IL-2 receptors, as well as release IL-2 which mediates cytokine release

Question 22

Describe how neurotransmission occurs?

Answer 22

1. Acton potential arrives at the synapse due to an influx of sodium ions into the pre-synaptic bouton
2. This triggers the opening of voltage gated calcium channels, allowing an influx of Ca2+ into the neurone
3. Ca2+ binds to vesicles containing NT
4. The NT vesicles then move to the cell membrane and are released into the synapse through exocytosis
5. They then bind to receptors n the post-synaptic neurone

Question 23

What are the four distinct categories of receptors which exist?

Answer 23

1. Ligand Gated Ion channel receptors
2. G Protein coupled receptors
3. Enzyme-linked receptors
4. Intracellular receptors

Question 24

How do ionotrophic receptors work?

Answer 24

When an appropriate ligand binds to the ligand-binding domain on the external surface of the protein the pore opens due to a conformational change, allowing ions to move in or out

Question 25

How is the direction of the movement of ions through ionotrophic receptors determined?

Answer 25

Through concentration gradients

Question 26

What is an example of an ionotrophic receptor?

Answer 26

Acetylcholine binds to Nicotinic ACh receptors on skeletal muscle resulting in muscle contraction

Question 27

What is the ligand for NMDA receptors?

Answer 27

Glutamate

Question 28

What is the ligand for GABA alpha receptors?

Answer 28

GABA

Question 29

What are G-coupled receptors also known as?

Answer 29

7-TRANSMEMBRANE RECEPTORS

Question 30

In resting state what does the G protein complex consist of?

Answer 30

The Ga subunit, a GBγ subunit and an associated GDP molecule

Question 31

Describe how G couples receptors work?

Answer 31

1. G protein complex binds to G coupled receptor which is embedded in the cell membrane
2. The GDP is phosphorylated and swapped with GTP
3. The G protein complex dissociates into two complexes - the Beta γ subunit and the Alpha subunit, each bind to their respective target proteins
4. GTP is dephosphorlyated to GDP, causing the alpha subunit to dissociate again

Question 32

What is stimulated to convert ATP to cAMP?

Answer 32

AC - Adenylyl cyclase

Question 33

What is cAMP?

Answer 33

Cyclic Adenosine monophosphate

Question 34

What does cAMP activate?

Answer 34

Protein kinase A

Question 35

Which g protein linked receptor activates AC?

Answer 35

G s protein linked receptor

Question 36

Which g protein linked receptor inactivates AC?

Answer 36

Gi protein linked receptor

Question 37

What is an example of a G protein linked receptor which stimulates adenylyl cyclase?

Answer 37

B1 - adrenergic receptor

Question 38

What is an example of a G protein linked receptor which inacitaves adenylyl cyclase?

Answer 38

M2 - muscarinic receptor

Question 39

What is the downstream effect of Gq protein?

Answer 39

Activates AT-1 angiotensin receptor due to Protein kinase C being activated

Question 40

How do enzyme linked receptors work?

Answer 40

1. Ligand binds to receptor
2. This results in clustering
3. The clustering activates enzyme activity
4. The enzymes which are activated then phosphorylate the the receptor which leads to the binding of signalling proteins in the cytoplasmic domain
5. These signalling proteins recruit other signalling proteins and a signal is generated within the cell.
6. The signal is terminated when a phosphatase dephosphorylates the receptor.

Question 41

What enzyme is activated when insulin binds to the insulin receptor?

Answer 41

Tyrosine kinase

Question 42

What enzyme is activated when ANP and BNP bind o the NPR1 receptor?

Answer 42

Guanylyl Cyclase

Question 43

What enzyme is activated when TGR Beta binds to TGF B receptors?

Answer 43

Ser/Thr kinase

Question 44

What is the physiological effect of Set/Thr kinase activation?

Answer 44

Apoptosis

Question 45

What is the physiological effect of activation of Tyrosine kinase?

Answer 45

Glucose uptake and lipid metabolism

Question 46

What is the physiological effect of activation of guanylyl cyclase?

Answer 46

Vasodilation and reduction in blood pressure

Question 47

Where are type 1 intracellular receptors located?

Answer 47

Within the cytosolic compartment

Question 48

Where are type 2 intracellular receptors located?

Answer 48

In the nucleus

Question 49

What chaperone molecules are type 1 intracellular receptors normally associated with?

Answer 49

hat shock proteins

Question 50

How do type 1 intracellular receptors work?

Answer 50

1. Hormone enters through membrane
2. Binds to receptor, HSP is kicked off
3. 2 hormone bound receptors form a homodimer
4. Homodimer translocates to the nucleus and binds to DNA

Question 51

How do type 2 intracellular receptors work?

Answer 51

The hormone ligand binds straight to the DNA in the nucleus

Question 52

What is an example of a type 1 intracellular receptor?

Answer 52

Glucocorticoid receptor

Question 53

What ligands binds to the glucocorticoid receptor?

Answer 53

Cortisol and corticosterone

Question 54

Physiological effect of cortisol binding to glucocorticoid receptor?

Answer 54

Reduced immune response and increased gluconeogenesis

Question 55

What is an example of a type 2 intracellular receptor?

Answer 55

Thyroid hormone receptor

Question 56

What is the associated ligand for the thyroid hormone receptor?

Answer 56

Thyroxine and triiodothyronine

Question 57

With type II intracellular receptors, what causes the direct transcriptional regulation?

Answer 57

Activated hormone-receptor complex

Question 58

What is a homodimer?

Answer 58

When two identical hormone receptor complexes join

Question 59

Intracellular receptors are essentially what?

Answer 59

Transcription factors

Question 60

Why do steroid hormones extert their actions on intracellular receptors?

Answer 60

They are membrane permeable

Question 61

When the hormone binds to the receptor, what dissociates?

Answer 61

The heat shock protein

Question 62

What is a ligand?

Answer 62

A molecule that binds to a receptor to exert a specific effect