S10) The Endocrine Pancreas

Question 1

Describe the two functions of the pancreas

Answer 1

• Produces digestive enzymes (exocrine action ~99%)
• Hormone production (endocrine action ~1%)

Question 2

Important polypeptide hormones are secreted by the pancreas.

Identify them

Answer 2

• Insulin
• Glucagon
• Somatostatin
• Pancreatic polypeptide
• Ghrelin
• Gastrin
• Vasoactive intestinal peptide

Question 3

Identify the seven main cell types in pancreatic islets

Answer 3

• β cells – Insulin
• α cells – Glucagon
• d cells – Somatostatin
• PP cells – Pancreatic polypeptide
• e cells – Ghrelin
• G cells – Gastrin
• VIP

Question 4

Describe the role of insulin and glucagon

Answer 4

Insulin & Glucagon – regulation of metabolism of carbohydrates, proteins, and fats

Question 5

Both insulin and glucagon are controllers of plasma glucose.

Describe their respective functions

Answer 5

• Insulin – lowers blood glucose levels
• Glucagon – raises blood glucose levels

Question 6

Compare and contrast the metabolic actions of insulin and glucagon in terms of the following:

• Onset
• Target tissues
• Affected metabolism
• Actions

Answer 6

Question 7

Describe how the measured plasma glucose concentration may vary

Answer 7

• Normally: 3.3-6 mmol/L
• After a meal: 7-8 mmol/L
• Renal threshold: 10 mmol/L (≥ glycosuria)

Question 8

Describe the shared properties of insulin and glucagon in terms of the following:

• Solubility
• Transport
• Half life
• Receptors
• Inactivation

Answer 8

• Solubility – water soluble hormones
• Transport – transported dissolved in plasma
• T_½ – 5 mins (short)
• Receptors – cell surface receptors on target cells
• Inactivation – receptor-hormone complex can be internalised

Question 9

Insulin is the hormone of energy storage.

In light of this, state four of its unique properties

Answer 9

Insulin favours energy storage:

• Anabolic
• Anti-gluconeogenic
• Anti-lipolytic
• Anti-ketogenic

Question 10

Describe the structure of insulin

Answer 10

• Insulin is a large polypeptide with an alpha helix structure
• It is composed of 2 un-branched peptide chains, connected by 2 disulphide bridges for stability

Question 11

Outline the synthesis and secretory pathway of insulin

Answer 11

Question 12

Explain the metabolic regulation of K_ATP channels and insulin secretion

Answer 12

Question 13

Insulin binds to the insulin receptor on cell surfaces.

Describe the properties of the insulin receptor

Answer 13

Insulin receptor is a dimer, connected together by a single di-sulphide bond:

• α-chain on exterior of the cell membrane
• β-chain spans the cell membrane in a single segment

Question 14

How does insulin increase glucose uptake into target cells and glycogen synthesis?

Answer 14

Insertion of Glut 4 channel

Question 15

Describe the effects of insulin-uptake on metabolism in the following tissue locations:

• Liver
• Muscles
• Adipose tissue

Answer 15

• Liver – increases glycogen synthesis and inhibits breakdown of amino acids
• Muscles – increase uptake of amino acids promoting protein synthesis
• Adipose tissue – increases the storage of triglycerides and inhibits breakdown of fatty acids

Question 16

Glucagon is the hormone of energy mobilisation.

In light of this, state four of its unique properties

Answer 16

Glucagon favours energy mobilisation:

• Catabolic
• Gluconeogenic
• Lipolytic
• Ketogenic

Question 17

Describe the structure of glucagon

Answer 17

• 29 amino acids in 1 polypeptide chain
• No disulphide bridges i.e. flexible structure

Question 18

Glucagon is secreted due to low glucose levels in α-cells.

In 5 steps, outline in synthesis and secretory pathway

Answer 18

⇒ Synthesised in rER

⇒ Transported to Golgi

⇒ Packaged in granules

⇒ Storage granules move to cell surface (margination)

⇒ Exocytosis – fusion of vesicle membrane with plasma membrane with the release of the vesicle contents

Question 19

Describe the effects of glucagon-uptake on metabolism in the following tissue locations:

• Liver
• Adipose tissue

Answer 19

• Liver – increases the rate of glycogenolysis and stimulates pathway for gluconeogenesis from amino acids
• Adipose tissue – stimulates lipolysis to increase plasma fatty acid

Question 20

Describe the net effects of glucagon and insulin on carbohydrate metabolism as well as their relative speed

Answer 20

Question 21

Describe the net effects of glucagon and insulin on lipid metabolism as well as their relative speed

Answer 21

Question 22

Describe the net effects of glucagon and insulin on amino acid metabolism as well as their relative speed

Answer 22

Question 23

What happens when insulin and glucagon levels are abnormal?

Answer 23

• Insulin:

I. High – hypoglycaemia

II. Low – hyperglycaemia (diabetes mellitus)

• Glucagon:

I. High – worsens diabetes

II. Low – may contribute to hypoglycaemia

Question 24

Diabetes Mellitus is a group of metabolic disorders resulting from abnormal insulin levels.

What is it characterised by?

Answer 24

• Chronic hyperglycaemia
• Long-term clinical complications
• Elevated glucose levels in urine

Question 25

How is Diabetes Mellitus diagnosed?

Answer 25

**Diagnosis is based on venous plasma glucose concentration:** - Fasting ≥ 7.0mM - Random ≥ 11.1mM

Question 26

What is the cause of Diabetes in Type I Diabetes Mellitus?

Answer 26

**Type I** – absolute insulin deficiency due to the autoimmune destruction of Pancreatic β- cells

Question 27

What is insulin deficiency?

Answer 27

**Insulin deficiency** is the failure to secrete adequate amounts of insulin from β-cells

Question 28

What are the two types of insulin deficiency?

Answer 28

- **Absolute** – destruction of pancreatic β- cells - **Relative** – abnormally slow/small secretory response of β-cells

Question 29

What change occurs in K_ATP channels in relative insulin deficiency?

Answer 29

Question 30

What is the cause of Diabetes in Type II Diabetes Mellitus?

Answer 30

**Type 2** – normal insulin secretion but relative peripheral insulin resistance

Question 31

What are the three possible manifestations of insulin resistance

Answer 31

- **Defective insulin receptor mechanism** – change in receptor number and/or affinity - **Defective post-receptor events** – tissues become insensitive to insulin - **Excessive glucagon secretion**

Question 32

Insulin resistance involves the main sites of glucose utilisation showing decreased response to normal circulating concentrations of insulin What are the causes of this?

Answer 32

**Results from combination of:** - Genetic factors - Environmental factors *e.g. obesity, sedentary lifestyle*

Question 33

Explain how insulin resistance present before 12+ years leads to the onset of hyperglycaemia and development of overt Type II Diabetes

Answer 33

- **Initially**: β-cells compensate by increasing insulin production – maintains normal blood glucose - **Eventually**: β-cells unable to maintain increased insulin production – impaired glucose tolerance - **Finally**: β-cell dysfunction leads to relative insulin deficiency – overt Type II Diabetes