Normal Physiology

Question 1

What stimulates insulin release?

Answer 1

Secretion is mediated by glucose entry into beta cells via GLUT-2 transporters

Question 2

What are the endocrine cells of the pancreas?

Answer 2

Islets of langerhans

Question 3

What are the main cells of the islets of langerhans?

Answer 3

• Alpha - secrete Glucagon
• Beta - Secrete insulin
• Delta - Secrete somatostatin
• F cells - secrete pancreatic polypeptide

Question 4

What do alpha cells of the islets of langerhans secrete?

Answer 4

Glucagon

Question 5

What do beta cells of the islets of langerhands secrete?

Answer 5

Insulin

Question 6

What do delta cells of the islets on langerhans secrete?

Answer 6

Somatostatin

Question 7

What is insulin initially synthesised as?

Answer 7

Preproinsulin

Question 8

Where is preproinsulin converted to proinsulin?

Answer 8

Endoplasmic reticulum - packaged into vesicles

Question 9

What are the products of the cleavage process of proinsulin?

Answer 9

Insulin and C-peptide

Question 10

What is the physiology behind insulin release?

Answer 10

Increased glucose entry via GLUT-2 transporters. This increases ATP production in Beta cells, and causes ATP dependent K⁺ transporters to close, leading to a build up of K⁺ within the cell.

This depolarises the cells and opens voltage dependent Ca²⁺, which causes a large Ca²⁺ influx. The Ca²⁺ signals exocytosis and release of insulin

Question 11

What is the direct action of insulin on glucose metabolism?

Answer 11

Insulin stimulates the mobilization of GLUT-4, which reside in the cytoplasm of unstimulated cells, in insulin receptive cells. GLUT4 migrates to the membrane and is then able to transport glucose into the cell. When insulin stimulation stops, the GLUT-4 transporters return to the cytoplasmic pool.

Question 12

Which glucose transporter is insulin dependent?

Answer 12

GLUT-4

Question 13

Which glucose transporters are not insulin dependent?

Answer 13

GLUT-1, GLUT-2 and GLUT-3

Question 14

What are examples of tissues which have insulin dependent glucose receptors in them?

Answer 14

• Muscle
• Fat

Question 15

Where are GLUT-3 transporters found?

Answer 15

Brain neurones and placenta

Question 16

What effect does insulin have on the liver in a fed state?

Answer 16

Insulin activates hexokinase, which lowers glucose concentration in the hepatocyte, creating a concentration gradient into the cell. This is then converted to glycogen

Question 17

What are the main stimuli for the release of insulin?

Answer 17

1. Increased [BG]
2. Increased [amino acids]
3. Glucagon - insulin required to take up glucose created via gluconeogenesis stimulated by glucagon
4. Incretin hormones - gastrin, secretin, CCK, GLP-1, GIP.
5. Vagal nerve activity

Question 18

Where are incretin hormones released from?

Answer 18

Released by ileum and jejunem in response to nutrients

Question 19

Why is response to IV glucose response less than response to oral glucose?

Answer 19

Due to incretin hormones, effects of insulin and vagal activity - ­ insulin by both direct effect on b cells and vagal stimulation of b cells, plus incretin effects

With IV glucose, only insulin is released.

Question 20

What stimuli decrease the release of insulin?

Answer 20

1. Low [BG]
2. Somatostatin
3. Sympathetic a2 effects
4. Stress - exercise and hypoxia

Question 21

What are the main effects of insulin?

Answer 21

1. Glucose entry into cells
2. Glycogenolysis in liver and muscle
3. Amino acid uptake
4. Increases Protein Synthesis/Inhibits proteolysis
5. Increases Fat synthesis
6. Inhibits gluconeogenesis in the liver
7. K⁺ entry into cells

Question 22

What is glucagon?

Answer 22

Linear peptide hormone produced by a-cells of the pancreatic islet cells. Preproglucagon is cleaved to form glucagon and major proglucagon fragment (MPGF).

Question 23

What are the actions of glucagon?

Answer 23

Increased glycogenolysis/gluconeogenesis

Question 24

What stimulates the release of glucagon?

Answer 24

• Low [BG]
• High [amino acids]
• Sympathetic innervation and epinephrine, b2 effect
• Parasympathetic nerves
• Cortisol
• Stress - exercise, infection
• Some GI hormones - CCK and gastrin

Question 25

What stimuli inhibit the release of glucagon?

Answer 25

• Glucose
• Free fatty acids (FFA) and ketones
• Insulin
• Somatostatin

Question 26

What are the actions of epinephrine on glucose metabolism?

Answer 26

• Muscle glycogenolysis
• Liver glycogenolysis
• Gluconeogenesis
• Lipolysis

Question 27

What are the actions of Cortisol?

Answer 27

• Increased gluconeogenesis
• Inhibition of glucose uptake
• Lipolysis
• Protein catabolism

Question 28

What are the main actions of GH in relation to glucose metabolism?

Answer 28

• Gluconeogenesis
• Inhibition of glucose uptake
• Lipolysis

Question 29

What is the action of somatostatin?

Answer 29

Strongly suppresses the release of both insulin and glucagon in a paracrine fashion.

Question 30

What does an increase in plasma amino acids result in?

Answer 30

Increased release of insulin, glucagon and somatostatin

Question 31

What is the response to increased plasma glucose levels?

Answer 31

Insulin and somatostatin secretion

Question 32

What happens to glucose metabolism during exercise?

Answer 32

• Increased glucose into skeletal muscle
• Increased insulin sensitivity of muscle

Question 33

What hormones predominate the fasted state?

Answer 33

Glucagon