3.6.4.2 Control of blood glucose concentration

Question 1

Describe the second messenger model (for glucagon or adrenaline)

Answer 1

• (hormone is 1st messanger)
• binds to specific complementary receptor on target cell (hormone receptor complex)
• this activates an intracellular enzyme (adenyl cyclate)
• which produces the second messenger, cAMP, from ATP
• this causes a series of redox reactions that result in the activation of a protein kinase that activates another enzyme
• which converts glycogen to glucose (glycogenolysis)

Question 2

What is glycogenolysis?

Answer 2

• Hydrolysis of glycogen into glucose
• in liver and muscles

Question 3

What is gluconeogenesis?

Answer 3

Creation of new glucose from amino acids and glycerol

Question 4

What is glycogenesis?

Answer 4

Creation of glycogen

Question 5

Where is insulin produced?

Answer 5

• Beta cells of islets of Langerhans
• in pancreas

Question 6

Where is glucagon produced?

Answer 6

• alpha cells of islets of Langerhans
• pancreas

Question 7

Describe type 1 diabetes

Answer 7

• pancreas doesn’t make enough insulin - insulin dependent
• starts in childhood
• develops quickly, obvious symptoms

Question 8

Describe type 2 diabetes

Answer 8

• insulin independent
• body cells not responsive ro insulin/insufficient insulin supply from pancreas
• starts later in life
• can be caused by poor diet
• develops slowly, less severe symptoms

Question 9

How can type 1 diabetes be treated?

Answer 9

• controlled by insulin injections
• control diet / sugar intake
• which are matched to glucose intake so blood glucose levels are monitored with biosensors

Question 10

How can type 2 diabetes be treated?

Answer 10

• regulating carbohydrates in diet and matching to excersise
• drugs which stimulate insulin production/ suplimented with insulin injections
• drugs that slow rate of blood glucose absorption from intestine

Question 11

Effects of insulin

Answer 11

• more insulin binds to receptors on target cells and activates enzymes
• inclusion of glucose transport channel proteins into membrane
• causes increased rate of glucose uptake by channel proteins
• increased cellular respiration rate
• glycogenesis (enzymes activated)
• increased conversion of glucose to glycogen
• increased conversion of glucose to fats (enzymes activated)

Question 12

Effects of glucagon

Answer 12

• attaches to receptors on target cells and activates enzymes
• glycogenolysis
• increased conversion of glycogen to glucose
• gluconeogenesis
• amino acids and glycerol converted to glucose

Question 13

Effects of adrenaline

Answer 13

• Activates liver enzymes
• glycogen converted to glucose
• enzymes inhibiting conversion of glucose to glycogen

Question 14

What is a hormone?

Answer 14

• chemical messenger
• secreted by glands
• carried in blood
• acts on target cells with complementary receptors
• widespread, long lasting effects

Question 15

Which hormones do and don’t use second messenger model?

Answer 15

• steroid hormones, lipid soluble, diffuse across phospholipid bilayer of cell surface membrane and enter cell, no need for 2nd messenger
• peptide hormones, water soluble, can’t diffuse across phospholipid bilayer of cell surface membrane, needs 2nd messenger

Question 16

What is a risk of high blood glucose concentration?

Answer 16

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