Lecture 19: Endocrine pancreas

Question 1

Describe the pancreas’ function

Answer 1

Pancreas is an organ in the digestive and endocrine system. It also acts as an exocrine and endocrine gland.

Question 2

Describe the anatomy of the pancreas

Answer 2

Pancreas made up of exocrine acinar cells and endocrine islets of Langerhans.

Former secretes digestive enzymes.
Latter consists of mainly α, β & δ cells which.

Question 3

Describe the structure & function of pancreatic exocrine tissue.

Answer 3

Acini: grape-like acinar cells that secrete digestive enzymes.

Ductal cells: branches that link the acini that secrete bicarbonate which buffers stomach gastric acid; creates optimum pH environment for the digestive enzymes.

Question 4

There are a number of different digestive enzymes that the body produces.

Name 3 digestive enzymes secreted by the pancreas.

Answer 4

Proteases: trypsin + chymotrypsin

Pancreatic lipase: digest TAGs

Pancreatic amylase: digest starch –> glucose

Question 5

Why doesn’t trypsin and chymotrypsin digest the pancreas itself?

Answer 5

Trypsin and chymotrypsin are stored as pro-enzymes (trypsinogen and chymotrypsinogen) instead of its active form so that prevents the pancreas digesting itself.

Question 6

Aside from pro-enzymes, what other methods control the pancreas the activity of trypsin & chymotrypsin?

Answer 6

Acini secrete a trypsin inhibitor to prevent the enzyme from digesting the pancreas.

Enteropeptidases are SI enzymes that activate trypsinogen to trypsin by cleaving the proenzyme. This causes trypsin to do the same to chymotrypsinogen –> chymotrypsin.

Question 7

What are the 3 major endocrine cells of the islets of Langerhans and their secretions?

Answer 7

α - glucagon
β - insulin
δ - somatostatin

Question 8

What are the 3 minor endocrine cells of the islets of Langerhans and their secretions?

Answer 8

PP cells - PP (pancreatic peptides)
ε - ghrelin
G - gastin

Question 9

In a micrograph, what can you do to identify the cells of in an islet of Langerhans?

Answer 9

You can stain the islet of Langerhans with the cell secretions’ respected antibodies…

• α cell is stained with glucagon Ab.
• β cell is stained with insulin Ab etc…

Question 10

Compare and contrast insulin & glucagon.

Answer 10

Both are peptide hormones.
Both have a short half life.
Both affect liver processes.
Both act in response to plasma [glucose].

-I receptor = tyrosine kinase family
G receptor = GPCR family

-I dominates in fed state
G dominates in fasted state

-I causes anabolic reactions
G causes catabolic reactions

-I affects liver, MSK and adipose
G affects all of the above but MSK

-I causes decrease plasma [glucose]
G causes increase plasma [glucose]

-I has disulphide bonds
G doesn’t

-I secreted by β cells
G secreted by α cells

Question 11

Describe the structure of insulin and how the structure maintains stability.

Answer 11

Insulin is made from 1α & 1β chain connected by 2 inter- chain disulphide bonds.
There is 1 intra-chain disulphide bond within the α chain. All these bonds are between cysteine residues.

Insulin is stored as a hexamer which is held together by a Zn ion. This creates stability.

Question 12

Briefly give a description of insulin synthesis.

Answer 12

1. DNA in β cell transcribed.
2. mRNA is translated into peptide chain (preproinsulin)
3. Enzymes cleave the signal sequence (pre-) creating inactive proinsulin.
4. Proinsulin passes into golgi.
5. When needed, secretory vesicles (with proinsulin) bind to membrane.
6. Vesicle enzymes chop proinsulin into insulin and C-peptide.
7. Insulin and C-peptide get secreted into the bloodstream.

Question 13

Why is C-peptide clinically important?

Answer 13

C-peptide is a clinical marker for pancreatic insulin secretion. C-peptide remains in blood much longer than insulin so easily assayed for levels of pancreatic insulin secretion.

Question 14

Describe how the β cells are activated when in a fed state.

Answer 14

1. Fed state = high glucose levels
2. Glucose enters glycolysis, TCA cycle, Ox. phosph.
3. More ATP synthesised
4. More ATP closes K-ATP channel
5. Less K+ leave the cell
6. Cell potential difference increases = depolarisation
7. V-G Ca2+ channels open and influx into β cell
8. Influx of Ca2+ triggers exocytosis and insulin is secreted.

Question 15

Can you think of any factors that stimulate insulin secretin?

Answer 15

High plasma glucose
High plasma FA
High plasma AA

Too much glucagon (need balance)
Gastrin
Secretin
Adrenaline (at β receptor)

PARASYMPATHETIC SYSTEM

Question 16

Can you think of any factors that inhibit insulin secretion?

Answer 16

Low plasma glucose
Low plasma FA
Low plasma AA

Somatostatin
Leptin
Adrenaline (at α receptor)

SYMPATHETIC SYSTEM

Question 17

What does biphasic mean and how does it apply to insulin?

Answer 17

Biphasic means in 2 phases/ happens twice.

The initial insulin secretion is a quick burst that lasts 5-15mins.
The 2nd phase is a gradual increase in secretion that lasts as long as the plasma [glucose] remains >5mM.

Question 18

How much insulin is secreted when…

• plasma [glucose] <2.8mmol/L
• plasma [glucose] ~ 8mmol/L
• plasma [glucose] ~ 16mmol/L

Answer 18

No insulin when plasma [glucose]<2.8mM

Half-maximal insulin when plasma [glucose] ~8mM

Maximum response when plasma [glucose]~16mM

Question 19

How does insulin exert its effect on cells?

Answer 19

• Insulin binds to complementary tyrosine kinase receptor.
• Receptor autophosphorylates
• Signalling complexes are gathered and activated at the receptor (cell mem)
• Effects on metabolic pathways & glucose uptake

Question 20

Insulin acts on 3 main target tissues. Which tissues are they?

Answer 20

Liver, Adipose, MSK

Question 21

How does insulin affect the liver?

Answer 21

Activates…

• glycogenesis
• lipogenesis
• glycolysis

Inhibits…

• glycogenolysis
• lipolysis
• gluconeogenesis

Question 22

How does insulin affect the MSK?

Answer 22

Activates…

• Glucose uptake
• Lipogenesis
• Glycogenesis
• Glycolysis
• Protein synthesis
• AA transport

Inhibits…

• Lipolysis
• Protein catabolism

Question 23

How does insulin affect adipose tissue?

Answer 23

Activates…

• Glucose uptake
• Lipogenesis
• Glycolysis

Inhibits…
-Lipolysis

Question 24

How is glucagon synthesised?

Answer 24

1. DNA transcribed in α cell.
2. mRNA translated into peptide chain: preproglucagon.
3. Enzymes clease signal sequence (pre-) leaving proglucagon.
4. Proglucagon undergoes proteolytic processing.
5. When needed, secretory enzymes will chop off the pro- part, leaving glucagon.

Question 25

How is glucagon release controlled?

Answer 25

1. Fasted state = low plasma glucose
2. Less glucose into glycolysis…ox. phosph.
3. Less ATP syn.
4. Low ATP levels close the K-ATP channels.
5. Less K+ leaves α cell
6. Potential difference inside cell increases = depolarises
7. V-G Ca2+ channel open and influx into α cell.
8. Influx of Ca2+ triggers exocytosis via vesicles = glucagon secretion.

Question 26

How does glucagon exert its effect on cells?

Answer 26

• Target cells/tissues have complementary GPCR
• G protein activated
• Effector protein activated
• 2° messenger formation
• Effects on metabolic pathways & gene expression