1a Glucose Homeostasis

Question 1

What is significantly impaired when glucose concentration falls below normal levels?

Answer 1

Cerebral function

Question 2

What bodily system is glucose particularly important for?

Answer 2

The functioning of the central nervous system

Question 3

What is hypoglycemia?

Answer 3

Blood glucose concentration levels fall below a normal levels

Question 4

What can happen is blood glucose Concentration falls below 2mmol/L

Answer 4

Unconsciousness, coma and ultimately death

Question 5

What does persistent hyperglycemia result in?

Answer 5

Diabetes mellitus type II

Question 6

What hormones act against hypoglycemia? - 4

Answer 6

Glucagon
Cortisol
Growth hormone
Catecholamines

Question 7

What is the most prevalent form of diabetes?

Answer 7

Type 2 diabetes mellitus

Question 8

What are the three types of diabetes

Answer 8

Type 1 DM
Type 2 DM
maturity onset diabetes of the young

Question 9

state the cell types found in the pancreas - 2

Answer 9

Islets of Langerhans
Exocrine acinar cells

Question 10

What is meant by the pancreas having retroperitoneal structure?

Answer 10

Has a peritoneum on the anterior side only

Question 11

What are the small clumps of cells in the pancreas called?

Answer 11

Islets of Langerhans

Question 12

What are exocrine acinar cells?

Answer 12

Cells that generate exocrine secretions

Question 13

What are the three types of islet cells?

Answer 13

alpha, beta and delta cells

Question 14

What are the alpha cells involved with?

Answer 14

Glucagon secretion

Question 15

What are the beta cells in the islets of langerhans involved with?

Answer 15

Insulin secretion

Question 16

What are the delta cells in the islet of langerhans involved with?

Answer 16

Somatostatin secretion

Question 17

What do the gap junctions between the cells of the islets of Langerhans allow?

Answer 17

They allow small molecules to pass directly between cells - paracrine communication

Question 18

What is the purpose of the tight junctions between the cells of the islets of langerhans?

Answer 18

Create small intercellular spaces

Question 19

What effect does somatostatin have on the insulin and glucagon?

Answer 19

inhibitory

Question 20

What type of communication is found between the islet cells?

Answer 20

Paracrine communication

Question 21

What does insulin do?

Answer 21

Stimulates growth and development and reduces blood glucose

Question 22

What increased effect does insulin secreted from the beta cells have on the liver? - 5

Answer 22

Increased:
- Glycolysis
- Glycogenesis
- Glucose transport into cells via GLUT 4
- amino acid transport
- lipogenesis

Question 23

Where is GLUT 4 predominantly expressed?

Answer 23

Adipocytes and skeletal muscle

Question 24

When blood glucose is high, what is released?

Answer 24

Insulin from the beta cells as well as some glucagon from the alpha cells to ensure that hypoglycaemia doesn’t occur

Question 25

How does somatostatin affect the release of insulin from beta cells when there is a rise in blood glucose?

Answer 25

inhibits the release of insulin

Question 26

How does glucagon affect the release of insulin from beta cells when there is a rise in blood glucose?

Answer 26

stimulates release of insulin

Question 27

state the impact of insulin on:
amino acid transport
protein synthesis
lipogenesis?

Answer 27

Increases amino acid transport, protein synthesis and lipogenesis

Question 28

What is released when blood glucose levels are lowered?

Answer 28

Alpha cells release glucagon

Question 29

What affect does glucagon have? - 5

Answer 29

INCREASED:
- gluconeogenesis
- lipolysis
- blood glucose
- amino acid transport to the liver
- hepatic glycogenolysis

Question 30

Is GLUT 2 insulin sensitive?

Answer 30

No

Question 31

What is the main glucose sensor?

Answer 31

Glucokinase (hexokinase as IV)

Question 32

What is GLUT 2’s affinity for glucose, and what does this mean?

Answer 32

LOW affinity for glucose => moves glucose into liver cell in proportion to plasma glucose levels

Question 33

Does glucose 6 phosphate inhibit glucokinase?

Answer 33

No

Question 34

Why do glucose 6 phosphate levels give a good indication of glucose levels as well?

Answer 34

Glucose to glucose 6 phosphate is a continual conversion by glucokinase therefore the amount of glucose present is equal to glucose 6 phosphate

Question 35

What intrabodily changes lead to insulin release

Answer 35

The ATP produced from glycolysis inhibits the potassium ion channels, meaning K+ remains in the beta cells
therefore, there is an intracellular influx of Ca2+ which triggers the insulin to be released from the beta cells

Question 36

What is meant by a graded response of insulin production?

Answer 36

Insulin isn’t released in an all or nothing manner, continually released when needed and the amount released changes over time

Question 37

What is pro insulin cleaved into?

Answer 37

insulin and C-peptide

Question 38

What happens to C peptide levels after a big meal?

Answer 38

Increase

Question 39

What happen to someone’s C peptide levels when a person with type 1 diabetes eats a meal?

Answer 39

They are low - this is because C peptide levels are only a measure of endogenous insulin, and doesn’t include the insulin which they have injected following the meal

Question 40

What is the difference between oral and intravenous glucose in terms of plasma insulin production? And what is this effect called?

Answer 40

Oral is significantly higher - incretin effect

Question 41

Transcription of what gene produced Glucagon like peptide 1?

Answer 41

Pro-glucagon gene

Question 42

Where is glucagon like peptide found?

Answer 42

In the gut

Question 43

What is the effect of glucagon like peptide 1?

Answer 43

Stimulated insulin and suppresses glucagon

Question 44

What effect does glucagon like peptide1 do to us?

Answer 44

Increases feeling of fullness

Question 45

Why does GLP1 have a short half life?

Answer 45

Rapidly degraded by enzymes dipeptidyl peptidase 4

Question 46

What is GLP1 used in the treatment of?

Answer 46

Diabetes mellitus

Question 47

What is meant by the first phase insulin release?

Answer 47

This is following a meal, when a diabetics insulin levels do increase slightly, but much less than a healthy individuals, and stay elevated

Question 48

How does the insulin receptor work?

Answer 48

1. Insulin binds to alpha subunit
2. Causes a confirmation change in the tyrosine kinase domain of the beta sun unit
3. This causes the movement of GLUT 4 from intracellular space to cell membrane so glucose can be absorbed

Question 49

What part of the insulin receptor does insulin initially bind to?

Answer 49

Extracellular domain - alpha subunit

Question 50

What percentage of the pancreas gland is involved in exocrine secretions?

Answer 50

98%

Question 51

Where may you find insulin receptors?

Answer 51

Liver, muscle and fat

Question 52

What is the incretin effect?

Answer 52

When the production of plasma insulin is greater following giving oral glucose to patients rather than IV

Question 53

impact of insulin on lipolysis

Answer 53

decreases

Question 54

why do we see an increase in amino acid transport to the liver by glucagon?

Answer 54

amino acid metabolites are used as substrates in gluconeogenesis to produce glucose

Question 55

How do PNS activity affect the secretion of insulin when there is a rise in blood glucose?

Answer 55

stimulates the release of insulin

Question 56

How do SNS activity affect the secretion of insulin when there is a rise in blood glucose?

Answer 56

inhibits secretion of insulin via alpha cells

Question 57

relationship between insulin and glucagon

Answer 57

insulin inhibits glucagon release

Question 58

is GLUT-4 insulin sensitive and what is its glucose affinity?

Answer 58

YES, and has high glucose affinity

Question 59

link between insulin and GLUT-4

Answer 59

insulin stimulates the uptake of glucose by GLUT-4

Question 60

what does glucokinase serve as in beta-cells?

Answer 60

a glucose sensor

Question 61

What is the main difference in the actions of hexokinase I and hexokinase IV?

Answer 61

Hexokinase IV is not subject to -ve feedback from Glucose-6-P

Question 62

Describe the process by which insulin is released from the beta cells after blood glucose increases?

Answer 62

1. Glucose transported into beta cell by GLUT-2 (which is NOT insulin sensitive and has a low glucose affinity)
2. Glucose in the cell undergoes glycolysis by Glucokinase (hexokinase IV) to produce ATP (Rate-Limiting Step)
3. ATP inhibits the K+ efflux pump so K+ remains intracellularly and builds up in the cell, this relative increase leads to **membrane depolarisation
4. This opens Ca2+ voltage gated channels leading to Ca2+ influx which promotes secretion of stored insulin in beta cell

Question 63

In what form is insulin stored in the body

Answer 63

proinsulin

Question 64

Why is measuring endogenous c-peptide a good indicator for insulin?

Answer 64

c-peptide can be stable for up to half an hour when samples sent to lab

Question 65

A person with Type 1 diabetes mellitus eats a Big Mac meal, do you expect their C-Peptide levels to be high or low?

Answer 65

low

Question 66

What is the gastrointestinal incretin effect?

Answer 66

GI hormones enhance insulin secretion so when glucose is ingested orally there’s higher plasma insulin in oral vs IV even though plasma glucose is the same

Question 67

What is Glucagon like peptide-1 (GLP-1)?

Answer 67

gut hormone

Question 68

What is GLP-1 secreted in response to?

Answer 68

Secreted in response to nutrients in gut

Question 69

What effects does GLP-1 have on the INSULIN secreted by the islets of langerhans?

Answer 69

stimulates insulin

Question 70

What effects does GLP-1 have on the GLUCAGON secreted by the islets of langerhans?

Answer 70

suppresses glucagon

Question 71

link between GLP-1 and Type II diabetes

Answer 71

T2 diabetics have low GLP-1

Question 72

link between GLP-1 and Type II diabetes

Answer 72

T2 diabetics have low GLP-1

Question 73

How does the insulin receptor work when insulin binds? (3)

Answer 73

1. Insulin binds to the extracellular domain of insulin receptor at the alpha subunit
2. This causes a conformational change in the tyrosine kinase domains of the beta-subunits
3. This enables GLUT4 transport from intracellular into the membrane

Question 74

What is the first phase insulin release (FPIR) in normal people vs those with T2DM?

Answer 74

normal people => marked increase in insulin after IV glucose challenge and then blood gluc goes down and thus so does insulin

T2DM this response is blunted so it’s not just that our cells are resistant to insulin, but also beta cells can’t produce enough insulin to counteract glucose load after working hard for a long time

Question 75

What is the first phase insulin release (FPIR) in normal people vs those with T2DM?

Answer 75

normal people => marked increase in insulin after IV glucose challenge and then blood gluc goes down and thus so does insulin

T2DM this response is blunted so it’s not just that our cells are resistant to insulin, but also beta cells can’t produce enough insulin to counteract glucose load after working hard for a long time

Question 76

What is the first phase insulin release (FPIR) in normal people vs those with T2DM?

Answer 76

normal people => marked increase in insulin after IV glucose challenge and then blood gluc goes down and thus so does insulin

T2DM this response is blunted so it’s not just that our cells are resistant to insulin, but also beta cells can’t produce enough insulin to counteract glucose load after working hard for a long time