Pancreas & insulin

Question 1

Aantomy of pancreas & how it develoops!

Answer 1

Largest Gland in body!

develops embryologically as an outgrowth of the foregut

Question 2

Answer 2

Question 3

Describe the contents and structure of the pancreas

& functions of the pancreas

Answer 3

2 functions:

• ~ 1% endocrine tissue, 99% exocrine tissue

Exocrine: (acinar cells)

• produces digestive enzymes secreted directly into duodenum which forms the bulk of the gland
• Alkaline secretions through pancreatic duct into the duodenum

Endocrine: (Islets of Langerhans)

• hormone production

Question 4

Describe what each endocrine cell of the pancreas secretes.

Answer 4

Delta “dogs”>> dont care about aplha or beta.. they inhibit humans in general (universal inhbitor of hormones) ;P

1. Beta (β)-cells >> insulin
2. Alpha (α)-cells >> Glucagon
3. Delta (d)-cells >> somatostatin
4. PP (pancreatic polypeptide) cells>> PP
5. e cells>> Ghrelin
6. G cells >> gastrin
7. VIP (vasoactive intestinal peptide)

Question 5

what do beta cells secrete?

Answer 5

Question 6

• Major cell types in islets of langerhans?

Question 7

How many disulphide bonds are present in a molecule of the hormone insulin?

Answer 7

3

Question 8

Insulin structure (prcoess)

Answer 8

THe signal part “Pre” = ensures thes newly synthesizd protein enters the costernsl space of the ER

C-chain= connecting chain

Question 9

insuling strucutre

(final)

Answer 9

polypeptide (A and B chains) interlinked by disulfide bonds!

• (additional intra-chain disulfide bond w/in the A chain)*
• Insulin is a big peptide with an alpha helix structure*

Question 10

Synthesis of insulin (in the cell) and importance of C peptide

Answer 10

signal peptide is removed once it enter the ER, the remained prp-insulin folds and disulfide bonds form btw Cystine residues.

pro-insulin > Golgi & C-chain is cleaved off!

the final storage vesciles have equal amount of Cpeptides to insulin.

this makes the C peptide a good marker for measuring endogenous insulin release!

Question 11

how is insulin stored?

Answer 11

it is stored in the B-cell storage granules as crystalline- ZINC insulin molecules!

Question 12

how is insulin secreted?

Answer 12

glucose comes and attaches to GLUT 2 , it flips and glucose is released inside the cell (against its concentration gradient),

Glucose is converted to G-6-P by Glucokinase!, the phosphate group is so charged that it cannot pass through the membrane >> Glucose is now trapped!

More ATP produced from the metabolism of glucose results in inhibition of the ATP-sesnsitve potassium channels (KATP channels). >>Less positively charged potassium leaving the cell through K+ ATP channels results in depolarisation of the plasma membrane (i.e. makes the resting membrane potential less negative).

This depolarisation is sensed by voltage activated Ca+ channels which open allowing calcium to flow down its electrochemical gradient into the cell.

It is this influx of calcium ions into the β cell that activates the insulin containing vesicles causing them to fuse with the plasma membrane and release insulin.

Question 13

what controls insulin secretion?

what stimulates its secretion?

what inhibits it?

Question 14

actions of insulin

Answer 14

(favours storage)

Question 15

1/2 life of insulin?

Answer 15

5 mins there is no carrier (cuz theyre water soluble)

Question 16

insulin recepter strucutre!

Answer 16

tyrosine kinase

Question 17

which cells have GLUT 2 transporters?

Answer 17

Question 18

describe the K-atp cahnnels and their role in secreting insulin.

Answer 18

when ATP-K+ channels r closed>> no K+ leaves>> membranes become depolarised >>(-50mv)

another thing occurs….

Ca+ channels sense the change in voltage and the sensitive Ca+ channels open! and ca+ comes in! (bc ca is higher outside remeber?)

they’ll go and stimulate the vescies and release insulin bara!!

Question 19

if someone is glucokinase deficient, what happens?

Answer 19

they cannot secrete the insulin effectively!

this will lead to diabetes mellitus type 2 due to dysfunction of glucokinase!>> insulin isnt secreted from B cell!

**********

but this type of diabetes occurs in young ppl!

(remember type 2 ususlaly occurs in elderly)

MODY

(Maturitiy onset diabetes melliutis of young ppl)

Question 20

which drugs can inhibit the Atp -voltage gated K+ channels? why r they used

Answer 20

sulphonyl Ureas!

tolbutamiode

glycomide!

Meglitinides!

to treat diabetes type 2, blocks K+ channels > memebrane is more easily depolarized, more Ca2+ comes in>> more insulin released!….YAAAAY

Question 21

what r the natural antidiabetic hormones?

Answer 21

Incretins!

Question 22

what r the main target tissues for insulin?

Answer 22

-liver, skeletal msucle and adipose tissue!

Question 23

normal glucose amounts in body?

after a meal?

renal threshold?

Answer 23

Normally 3.3-6 mmol/L

After a meal 7-8 mmol/L

Renal threshold 10 mmol/L

• Pregnancy renal threshold↓
• Elderly renal threshold↑

Question 24

As C-peptide is released with insulin in equimolar amounts, i

ts level in plasma is a useful marker of endogenous insulin release.

Measurement of plasma C-peptide levels in patients receiving insulin can be used to monitor any endogenous insulin secretion.

Question 25

structure of Glucagon? secreted by what cells?

actions?

Answer 25

Alpha cells

opposite of INSULIN!

No disulphide bridges: =flexible structure

The major actions of glucagon are:

•  Increase glycogenolysis and decrease glycogenesis in liver.
•  Increase gluconeogenesis in liver.
•  Increase ketogenesis in liver.
•  Increase lipolysis in adipose tissue.

Question 26

what triggers GLucagon release?]

what inhibits it?

Answer 26

triggered>> a decrease in blood Glucose concentration!

inhibited>> by insulin and an increase in Blood glucose concentration

Question 27

Mechanism of action of GLucagon (which recepter type)?

Answer 27

G-protein coupled recepter

Question 28

Diagnosis of Diabetes mellitus

Answer 28

Diagnosis basis of venous plasma glucose concentration:

normal range 3.3-6mmol/L plasma glucose

fasting ≥ 7.0mM

random ≥ 11.1mM

Question 29

just review

Question 30

Answer 30

Question 31

Answer 31

Question 32

Answer 32

Question 33

Which term is used to describe the excretion of glucose in urine?

Answer 33

Glucosuria (sometimes called glycosuria)

Question 34

which GLUT transporter is in the brain?

Answer 34

GLUT 3