Insulin secretion and intermediary metabolism

Question 1

What does diabetes mellitus effect

Answer 1

Both lifestyle and lifespan

Question 2

What is diabetes mellitus the most common cause of

Answer 2

Eyesight loss and renal replacement therapy

Question 3

What is the most important function of the pancreas

Answer 3

It’s glucostat function. That is, determining the right amount of insulin to secrete into the bloodstream based on blood glucose levels.

Question 4

What are patients most worries about when it comes to administering insulin

Answer 4

Hypoglycaemia if too much insulin is injected. Patients are worried about this as they can be unsure of how much insulin that they should inject

Question 5

What molecules can result in an increase in blood glucose concentration

Answer 5

GLUCAGON
CATECHOLAMINES
SOMATOTROPHIN
CORTISOL

Question 6

Which hormone results in a decrease in blood glucose concentration

Answer 6

Insulin

Question 7

What is the importance of this counter-regulation

Answer 7

Without it, we would not be able to survive, as we would not be able to maintain blood glucose levels within the normal and optimal range to function

Question 8

What is T1DM defined as

Answer 8

T1DM is defined as elevated glucose where insulin is required to prevent ketoacidosis

Question 9

What is T2DM defined as

Answer 9

T2DM is more common and is a considerable health burden. It is defined in terms of glucose but is also related to hypertension and dyslipidaemia
It is a disease of intermediary metabolism

Question 10

List the three types of diabetes in order of their prevalence

Answer 10

T2DM, MOD, NIDDM
T1DM, IDDM, DY
MODY

Question 11

Describe MODY

Answer 11

Patients do not need insulin to prevent ketoacidosis.
Developed when young- like type 1.
Allowed us to understand the pathophysiology of type 2.

Question 12

Is the elevation of blood glucose responsible for the damage caused in diabetes mellitus

Answer 12

Not necessarily

Question 13

Can TIDM and T2DM be caused by different underlying mechanisms

Answer 13

Yes

Question 14

What is the role of medicine in DM

Answer 14

We treat to help symptoms, complications (morbidity) and mortality

Question 15

What does modern medicine struggle to do in terms of treating DM

Answer 15

Medicine struggles to prevent the long-term complications.

Question 16

What is meant by diet

Answer 16

Altering nutrition. It is something all humans should think about. Total calories and the type of calories that you consume

Question 17

What is important in treating and preventing DM

Answer 17

Diet

Question 18

When does hypoglycaemia occur

Answer 18

Hypoglycaemia occurs when there is imbalance between diet, exercise and insulin

Question 19

Why can’t insulin be given as a tablet

Answer 19

it is digested by gastric acid in the stomach

Question 20

What is capillary glucose monitoring

Answer 20

Needle used to measure glucose in a blood capillary. People complain about this as it is painful. However the homeostatic loop is not complete, we need to match this with the required quantity of insulin

Question 21

Describe the role of insulin pumps

Answer 21

Insulin pumps- give insulin 24 hours a day. However they don’t solve diabetes on their own as we still need to measure blood glucose to decide the quantity of blood glucose to give.

Question 22

If you are pregnant, how many times should you inject insulin a day

Answer 22

7

Question 23

What does the severity of hypoglycaemia depend on

Answer 23

It depends on the individual and their ability to utilise other respiratory substrates.

Question 24

Why is glucose important

Answer 24

Glucose is a very important energy substrate, particularly for the CNS which relies on it almost entirely under normal conditions.
If the blood glucose concentration falls much below normal levels of 4-5 mM (hypoglycaemia), then brain function is increasingly impaired.
Below a blood glucose concentration of 2mM unconsciousness, coma and ultimately death can result
Hormones released by stressors stimulate an increase in blood glucose concentration in order to provide this essential substrate to all tissues in times of an emergency (fight or flight response).

Question 25

Describe the two regions of cells found in the pancreas

Answer 25

Most of pancreas (98%) is associated
with exocrine secretions via duct to small
intestine
Small clumps of cells within pancreatic
tissue (remaining 2%) are called islets of Langerhans- role in endocrine function of pancreas

Question 26

Describe the anatomical location of the pancreas

Answer 26

The pancreas is found in the abdomen and is closely associated with the small intestine.

Question 27

Describe the innervation of the pancreas

Answer 27

The innervation is autonomic, with sympathetic and parasympathetic supplies.

Question 28

What is the most common cell type found in the islets of Langerhans

Answer 28

Beta cells

Question 29

How are many beta cells linked to their neighbours

Answer 29

By gap junctions in the abutting cell membranes, allowing for cross-talk between them by means of small molecules moving between the cells for instance. Furthermore, there are also dynamic tight junctions which can link nearby cells to each other.

Question 30

What are the basic roles of the gap junctions and tight junctions

Answer 30

Gap junctions allow small
 molecules to pass directly
 between cells
Tight junctions form small
 intercellular spaces- they also prevent the loss of hormones

Question 31

How can tight junctions also have a bearing on intercellular communication

Answer 31

Tight junctions trap small volumes of ECF between the cells.
If one cell type is stimulated and releases a small quantity of hormone into the general circulation, that same small quantity released into the trapped volume of extracellular fluid could reach much higher concentrations which might effect those nearby cells. These are examples of the different paracrine activity between cells

Question 32

Which hormone do delta cells produce

Answer 32

Somatostatin

Question 33

What effect does somatostatin have on insulin and glucagon release

Answer 33

It inhibits both the release of glucagon and insulin- it is described as an all purpose negative hormone

Question 34

What is the other metabolic action of insulin

Answer 34

It stimulates growth and development

Question 35

Describe the different stimuli for beta cells to secrete insulin

Answer 35

Increased blood glucose- stimulatory
Somatostatin- inhibitory
Certain amino acids- stimulatory
Alpha receptors (sympathetic activity)- inhibitory
Beta receptors (parasympathetic activity)- stimulatory
Certain gastrointestinal hormones- Stimulatory
Glucagon- stimulatory

Question 36

Why is it important that sympathetic activity decreases insulin secretion

Answer 36

It keeps glucose in blood for use in emergency situations (fight or flight)

Question 37

What are the consequences of having G.I hormones that stimulate insulin release

Answer 37

Insulin is released as we eat.

Question 38

What does having mixed meals mean

Answer 38

As foods often contain amino acids and glucose- insulin secretion is amplified.

Question 39

Describe the metabolic action of insulin that result in a decrease in blood glucose concentration

Answer 39

Decreased lipolysis
Increased lipogenesis
Increased amino acid 
transport and increased
protein synthesis
Increased glycogenesis
Increased glycolysis
Increased glucose transport into cells via GLUT4

Question 40

Describe the different stimuli for alpha cells to secrete glucagon

Answer 40

Decreased blood glucose concentration- stimulatory
Certain amino acids- stimulatory
G.I hormones- stimulatory
Insulin- inhibitory
Somatostatin- inhibitory
Sympathetic and parasympathetic activity- both stimulatory

Question 41

What are the metabolic actions of glucagon that act to increase blood glucose concentration

Answer 41

Increased amino acid
transport into liver– increased gluconeogenesis
Increased lipolysis– increased gluconeogenesis
Increased hepatic glycogenolysis

Question 42

What is the basic function of glucokinase (hexokinase IV)

Answer 42

It is the glucose sensor

Question 43

Why is it important that beta cells have GLUT-2 receptor and not GLUT-4

Answer 43

Beta cell also has a role in glucose sensing through glucokinase. Thus we need glucose to enter through GLUT-2, as insulin increases glucose transport into cells via GLUT-4 , and hence would distort the true glucose readings

Question 44

Describe how glucokinase leads to the release of insulin

Answer 44

Glucose —- G6P (Glucokinase) Rate determining step

G6P — Other metabolic pathways — insulin secretion and release

Question 45

Why is it important that glucokinase has rate limitations

Answer 45

Only appropriate amount of insulin is produced.

Question 46

Describe the importance of the C-peptide

Answer 46

C-peptide is produced in equimolar amounts to insulin, but has a much longer half life. This allows it to be measured more easily than insulin to determine the activity of the pancreas and the levels of insulin in the blood.

Question 47

What steps lead to the release of insulin

Answer 47

Glucose enters beta cell via GLUT-2.
Glucose— G6P (glucokinase)
Glycolysis to generate pyruvate- 2ATP.
Insulin synthesis- packaged and stored in secretory granules.
More ATP produced when pyruvate enters Krebs cycle
Stimulation of cell
ATP binds to and closes K+ channels in membrane.
Build up of K+
Depolarisation of cell membrane
VGCCs open
Ca2+ influx
Movement of vesicles towards membrane
Release of insulin into bloodstream by exocytosis.

Question 48

Is insulin released all the time

Answer 48

Yes, there is a continual basal release of insulin, with a stimulus-directed release of insulin superimposed upon it. When the beta cells are stimulated, there is a biphasic pattern release of insulin- primary and secondary.

Question 49

How was the gastrointestinal ‘incretin effect’ proved

Answer 49

For same quantity of glucose consumed as given intravenously. More insulin was released in response to the ingested glucose. This difference is ascribed to the activity of incretins, secretion of which is increased in response to the presence of food in the gastrointestinal tract.
The incretin effect thus refers to the difference in the magnitude of insulin secretion seen after glucose is ingested, compared with that seen after an isoglycemic IV infusiom

Question 50

Describe glucagon-like-peptide 1

Answer 50

Gut hormone
Secreted in response to nutrients in gut
Transcription product of proglucagon gene, mostly from L cell.
Stimulates insulin, suppresses glucagon
Increases satiety
Short half life due to rapid degredation from enzyme dipeptidyl peptidase-4 (DPPG-4 inhibitor)- drugs can increase half-life

Has to be injected

Only one needed- not x4 of insulin

Can control weight even when pancreas is damaged- T2DM

Question 51

Describe the two phases of insulin release in healthy patients

Answer 51

Initial sharp release of insulin over period of 10 minutes. It is likely that this phase is due to the release of pre-synthesised, rapidly available insulin stored in granules close to the membrane.
A second release is followed, which plateaus around 2-3 hours later
Movement of granules to cell membrane followed by release of insulin, together with the synthesis of new insulin

Question 52

What is different in pre-diabetes and DM

Answer 52

No stored insulin to cope with meal- lack of FPIR.

Question 53

Describe the insulin receptor

Answer 53

Belongs to the tyrosine kinase family. 
Extracellular domain (alpha subunit) to which the ligand binds.
Transmembrane domain (beta subunits)
Intracellular domain- which includes the tyrosine kinase catalytic site.

Question 54

What causes the activation of the tyrosine kinase

Answer 54

Auto- and cross- phosphorylation of tyrosines in the intracellular domain.

Question 55

Does the insulin receptors function in T2DM

Answer 55

Yes, except in rare cases