L13: Drug treatment of diabetes

Question 1

How is insulin released from beta cells when blood glucose levels rise?

Answer 1

1) glucose enters the beta cells by a transporter molecule
2) glucose gets metabolised by the mitochondria inside the beta cells
3) ATP levels rise inside
4) ATP binds to ATP-sensitive potassium channels which block potassium from leaving the cell
4) this causes depolarisation
5) depolarisation triggers voltage-gated calcium channels to open
6) calcium influx occur
7) calcium promotes enzymes such as DAG to process and package insulin into vesicles
8) calcium also causes exocytosis of vesicles containing insulin
9) insulin is released

Question 2

In a non-diabetic patient when is insulin released?

Answer 2

Insulin is released during the 1st and 2nd phase

Question 3

In a type 1 diabetic patient when is insulin released?

Answer 3

Insulin is an autoimmune disease so beta cells are destroyed and insulin is never released. This means that 1st and 2nd phase do not occur.

Question 4

In a type 2 diabetic patient, when is insulin released?

Answer 4

Insulin is only released during the 2nd phase. 1st phase does not occur.

Question 5

Where are insulin receptors found?

Answer 5

On liver, muscle and fat membrane

Question 6

How many insulin molecules have to bind to insulin receptors to activate it ?

Answer 6

2 insulin molecules because the receptor is a dimer.

Question 7

What is a dimer?

Answer 7

The receptor is made of 2 components: alpha and beta subunits.

Question 8

What is the alpha subunit

Answer 8

The binding site for insulin

Question 9

What is the beta subunit

Answer 9

Intracellular portion that has the tyrosine kinase domain

Question 10

What happens when insulin binds to insulin receptors?

Answer 10

1) two insulin molecules bind to the alpha subunit
2) the tyrosine kinase is activated in the beta subunit
3) tyrosine kinase is an enzyme which causes the phosphorylation of IRS proteins
4) this triggers second messenger pathway that lead to other enzyme activation for transcription of genes for the expression of GLUT-4
5) GLUT-4 is a transporter molecule of glucose that allows glucose uptake. The expression of GLUT-4 therefore increases glucose uptake
6) glucose is taken up and metabolised by the mitochondria
7) glycogen synthesis increases

Question 11

What is type 1 diabetes

Answer 11

An autoimmune disease that causes the loss of beta cells completely so that they cannot produce insulin

Question 12

What is the treatment for type 1 diabetes?

Answer 12

Diet, insulin injections, and metformin (only if BMI is greater than 25)

Question 13

What is insulin

Answer 13

A peptide

Question 14

How is insulin administered to a patient

Answer 14

Intravenous injection

Question 15

What is achieved with the treatment

Answer 15

Hba1C less than 42mmol/mol

Question 16

What are the types of insulin

Answer 16

• short acting

- long acting

Question 17

Why does insulin act short

Answer 17

Because it is soluble

Question 18

Why does insulin act long

Answer 18

Insulin molecules can associate with each other to from complexes and this delays insulin from going into the blood quick

Question 19

What is type 2 diabetes

Answer 19

This is when you get insulin resistance due to the dysfunction of IRS proteins that link to insulin receptors by association of beta subunits.

Question 20

What is the treatment for type 2 diabetes

Answer 20

Diet, excercise, drugs and may need insulin

Question 21

What is metformin

Answer 21

A drug mainly to treat type 2 diabetes

Question 22

What is the mechanism of metformin

Answer 22

This drugs requires insulin to work

It acts on tissues of liver and muscle to promote muscle uptake

Question 23

How does metformin act on the liver

Answer 23

• gluconeogenesis decreases

- this is due to activation of AMP activated protein kinase which decrease gene expression

Question 24

What are the side effects of metformin

Answer 24

• no hypoglycaemia
• no increase in appetite
• lactic acidosis

Question 25

what is sulphonylurea

Answer 25

A drug type to treat diabetes

Question 26

Give example of sulphonylurea drugs

Answer 26

• tolmutamide
• gilbenclamide
• gliclazide

Question 27

What is the mechanism of sulphonylureas

Answer 27

1) sulphonylurea drugs bind to ATP- sensitive potassium channels
2) an example of an ATP-sensitive potassium channel is SU receptors
3) this causes the blockage of pottasium and causes depolarisation
3) depolarisation triggers the release of insulin vesicles by exocytosis
4) tissues also become sensitive to insulin

Question 28

Which sulphonylurea drug has the longest half life

Answer 28

Glibencalmide

Question 29

Which sulphonylurea drug has the shortest half life?

Answer 29

Tolmutamide

Question 30

What is an SUR

Answer 30

An example of ATP-sensitive potassium channel

Question 31

What is an SUR modulator

Answer 31

A drug type that has the same actions as sulphonylurea (binds to SU) to cause the release of insulin

Question 32

What is the difference of SUR modulator from sulphonylureas

Answer 32

SUR modulators do no have the same moiety as sulphonylureas

Question 33

What are the effects of SUR modulators

Answer 33

• hypoglycaemia
• stimulate appetite
• contraindicated in pregnancy/ breastfeeding as the dug can pass to the infant.

Question 34

Give an example of SUR modulator

Answer 34

Repaglinide

Question 35

What is thiazolidinediones

Answer 35

A type of drug to treat diabetes

Question 36

What is the mechanism of thizaolidinediones

Answer 36

• Binds to transcription factors which affect gene expression (similar to metformin)
• Primary action: increases fatty acid uptake (lipogenesis) in adipose tissue
• secondary action: decreases plasma fatty acid and increase glucose uptake

Question 37

What are the side effects of thiazolidinediones

Answer 37

• liver toxicity

- heart failure by fluid retention

Question 38

What are incretins?

Answer 38

Gi hormones which increase insulin release when you eat

Question 39

What is dipeptidyl peptidase-4 ?

Answer 39

An enzyme that breaks down incretins

Question 40

What are the drugs called that are based on incretin action

Answer 40

• gliptins

- exenatide

Question 41

How does gliptins work?

Answer 41

Inhibit dipeptidyl peptidase-4 so incretins are not brocken down and insulin is released

Question 42

How does exenatide work

Answer 42

Exenatide act as incretin agonist which will bind to receptors on the beta cells

Question 43

Give an example of incretin

Answer 43

GLP-1

Question 44

What is an acarbose ?

Answer 44

A drug that that inhibits the enzyme alpha glucosidase which decreases carbohydrate absorption from the gut

Question 45

What are SGLT2 inhibitors

Answer 45

A drug that inhibits sodium- glucose transporter 2 in the kidney at the proximal convoluted tubule

Question 46

Mechanism of SGLT2 inhibitors

Answer 46

Bind to SGLT2 and cause loss of glucose and sodium in the urine

Question 47

What are the side effects of SGLT2 inhibtors

Answer 47

• ketoacidosis

- peripheral vascular disease

Question 48

Give an two examples of incretin based drugs

Answer 48

• gliptins (enzyme inhbitor)

- exenatide (agonist)

Question 49

Give an example of incretin

Answer 49

GLP-1

Question 50

Examples of sulphonylureas

Answer 50

• tolbutamide
• glibencalmide
• Gliclazide

Question 51

What is an acarbose

Answer 51

It is an alpha glucosidase (enzyme) inhibitor which decreases the uptake of carbohydrate

Question 52

Give an example of SGLT2 inhibitors

Answer 52

Canaglifozin

Question 53

Give an example of a SUR modulator

Answer 53

Repaglinide