Diabetes

Question 1

what are the 2 glands of the pancreas and what are their functions?

Answer 1

1. EXOCRINE - secrete digestive enzymes into intestine
2. ENDOCRINE - secrete hormones by Islets of Langerhans

Question 2

what type of cell is important for hormone secretion in the pancreas?

Answer 2

islets of Langerhans

Question 3

what 3 types of cells make up the islets of langerhans?

Answer 3

1. Alpha cells
2. Beta cells
3. Delta cells

Question 4

what do alpha cells secrete?

Answer 4

glucagon

Question 5

what do beta cells secrete?

Answer 5

1. insulin
2. C-peptide
3. amylin

Question 6

what do delta cells secrete?

Answer 6

somatostatin

Question 7

who discovered insulin?

Answer 7

Charles Best and Frederick Banting

Question 8

how did Best and Banting discover insulin?

Answer 8

• tested pancreatic extracts in dogs without pancreas to see if they could reduce blood glucose levels
• found an extract that lowered glucose levels in dogs without pancreas and person with T1D
• the extract contained insulin

Question 9

how is insulin produced? (4)

Answer 9

1. preproinsulin is translated
2. in ER, cleaved to proinsulin (containing C peptide, A + B chains)
3. In golgi, cleaved to individual C peptide, A chain, and B chain
4. A chain and B chain connected by disulfide bridges released as insulin from pancreas by secretory vesicles

Question 10

describe the structure of insulin

Answer 10

A chain and B chain joined by disulfide bridges

Question 11

what is the main stimulator of insulin?

Answer 11

glucose

Question 12

glucose stimulation causes the release of which 3 molecules?

Answer 12

1. insulin
2. C peptide
3. amylin

Question 13

how does glucose stimulate the release of insulin/C peptide/amyline? (8)

Answer 13

1. glucose enters pancreatic cell via GLUT2
2. glucose metabolized by pancreatic cell
3. increased ATP/ADP ratio
4. K+ channel inhibited
5. membrane depolarizes
6. V-gated Ca2+ channel opens
7. Ca2+ influx
8. Insulin, C peptide, amyline released

Question 14

what receptor allows for glucose-induced insulin secretion?

Answer 14

GLP-1

Question 15

what type of receptor is GLP-1?

Answer 15

GPCR

Question 16

how does glucose stimulate the transcription of preproinsulin? (10)

Answer 16

1. glucose enters pancreatic cell via GLUT2
2. glucose metabolized by pancreatic cell
3. increased ATP
4. GLP-1 activates adenylyl cyclase to use ATP
5. makes cAMP
6. activates PKA
7. activates CREB to increase transcription
8. increased preproinsulin transcription
9. preproinsulin chopped up in golgi
10. increased Ca2+ causes release of insulin, C peptide, and amylin

Question 17

what is insulin complexed with?

Answer 17

Zn2+

Question 18

what types of structures does insulin aggregate into?

Answer 18

dimers and hexamers

Question 19

what is the role of amylin?

Answer 19

slows gastric emptying and promotes satiety to prevent blood glucose control

Question 20

what is the role of C peptide?

Answer 20

no established biological action, mostly excreted in urine

Question 21

is insulin, C peptide, or amylin produced in greater quantities?

Answer 21

insulin

Question 22

where is insulin secreted?

Answer 22

portal blood flow first, then muscle and adipose

Question 23

what are the 4 main roles of insulin?

Answer 23

1. glucose transport
2. glycogen synthesis
3. lipid synthesis
4. protein synthesis

Question 24

what is the mechanism of insulin?

Answer 24

1. binds insulin receptor (tyrosine kinase)
2. tyrosine and IRS (scaffolding protein) get phosphorylated
3. IRS binds effector proteins
4. P13K binds to stimulate PKC and Akt
5. increases glucose transport, glycogen synthesis, lipid synthesis, protein synthesis

Question 25

what type of protein is Akt?

Answer 25

protein kinase B

Question 26

what are the 2 roles of Akt?

Answer 26

1. allows translocation of folded GLUT4 in a vesicle to the cell membrane
2. inhibits GSK-3 activity to prevent phosphorylation of glycogen synthase, therefore activating it to store glucose as glycogen

Question 27

what is the role of G6P?

Answer 27

allosteric activator of glycogen synthase and UDP-glucose –> allows glycogen production

Question 28

what is the role of G6P?

Answer 28

allosteric activator of glycogen synthase and UDP-glucose –> allows glycogen production

Question 29

what is the role of G6P?

Answer 29

allosteric activator of glycogen synthase and UDP-glucose –> allows glycogen production

Question 30

why do we store glucose as glycogen?

Answer 30

insulin allows glycogen production so glucose levels don’t get too high

Question 31

how do glucose and insulin levels change after a meal?

Answer 31

glucose increases quickly, then insulin increases

this causes glucose to decrease, so insulin also decreases

Question 32

T1D
- what is it caused by?
- how is insulin affected?

Answer 32

caused by a T-cell mediated immune response that destroys BETA CELLS

irreversible, complete/major insulin deficiency

Question 33

why does exogenous insulin help with T1D?

Answer 33

T1D only involves an inability to produce insulin, so tissue responsiveness is not affected and exogenous insulin can still work

Question 34

T2D
- what is it caused by? what does this impact (3)?

Answer 34

caused by genetic and metabolic defects that impact:
1. glucose metabolism
2. insulin secretion
3. insulin action in tissues

Question 35

T2D
- how is insulin affected?

Answer 35

decreased responsiveness/sensitivity to insulin at the tissue

Question 36

describe the progression of T2D (4)

Answer 36

progresses from:
1. Impaired glucose tolerance
2. insulin-independent T2D
3. insulin-requiring T2D
4. leads to hyperglycemia and other symptoms

Question 37

describe glucose and insulin levels in T1D

Answer 37

glucose levels stay high, insulin levels very low

Question 38

describe glucose and insulin levels in T2D?

Answer 38

glucose levels stay high, insulin secretion delayed

Question 39

describe glycogen in T1D

Answer 39

not enough glycogen store, body has trouble using glucose

Question 40

what is common for T1D and T2D? (2)

Answer 40

• glucose accumulates
• increased lipid metabolism

Question 41

why is increased lipid metabolism bad?

Answer 41

releases ketone bodies, leading to complications

Question 42

how can you test for diabetes?

Answer 42

look at glycohemoglobin which stays in blood for a long time –> can determine the average level of glucose that was in the blood over the past few months

Question 43

what is glycohemoglobin?

Answer 43

Hb glycated with lots of glucose

Question 44

what are 3 types of treatments of T1D?

Answer 44

1. medical nutrition counselling, exercise
2. insulin
3. drugs to control insulin resistance

Question 45

what happens if you inject insulin directly into the blood?

Answer 45

insulin in blood rises slowly, and it is difficult to reach baseline –> after injection, must wait some time before a meal

doesn’t allow for good control of insulin levels!

Question 46

why is it difficult for injected insulin to reach baseline?

Answer 46

insulin is injected in subcu environment as a hexamer and it must dissociate to a monomer in the blood to have an effect

the insulin is not given directly in portal vein like natural insulin

Question 47

how do some insulin analogs have activity more quickly?

Answer 47

AA are modified to change the dimer/hexamer so it can dissociate into monomer more quickly, i.e. have more activity

Question 48

describe 4 different types of insulin analogs

Answer 48

1. attached to lipid so it can bind albumin and last longer in blood
2. precipitates in subcu space
3. complexes/multi-hexamers that take a long time to dissociate
4. some dissociate very quickly

Question 49

what is metformin used for?

Answer 49

initial choice for hyperglycemia and T2D

Question 50

how does metformin treat hyperglycemia? (2)

Answer 50

• inhibits gluconeogenesis to decrease hepatic glucose output
• increases insulin-mediated glucose utilization in periphery

Question 51

what are 2 additional functions of metformin?

Answer 51

1. decreases food intake and body weight
2. may affect composition of gut microbiota

Question 52

what is the mechanism of metformin?

Answer 52

mechanism not completely understood, but it is a small molecule that is likely to have interactions with other proteins –> multiple pathways likely involved

Question 53

what is an example of an amylin analog?

Answer 53

pramlintide

Question 54

what are the 4 functions of amylin analogs/pramlintide?

Answer 54

1. slows gastric emptying –> promotes satiety
2. inhibits glucagon secretion from alpha cells
3. reduces liver gluconeogenesis and glycogenolysis
4. improves insulin sensitivity in peripheral tissues

Question 55

how do amylin analogs/pramlintide inhibit glucagon secretion?

Answer 55

via hypothalamic cells

Question 56

which types of diabetes are amylin analogs/pramlintide used for?

Answer 56

T1D and T2D

Question 57

how are amylin analogs/pramlintide administered?

Answer 57

subcu injection before major meal

Question 58

what are incretins?

Answer 58

hormones released from endocrine cells in SI epithelium

Question 59

what are 2 examples of incretins?

Answer 59

1. Glucose-dependent Insulinotropic Polypeptide (GIP)
2. Glucagon-Like Peptide (GLP)

Question 60

where do incretins bind? what are the 4 functions?

Answer 60

incretins bind GPCR in pancreas, adipose, brain

1. promotes glucose-dependent INSULIN SECRETION from beta cells
2. impairs glucagon secretion from alpha cells
3. GLP-1 delays gastric emptying and promotes satiety
4. increases thermogenesis and lipolysis in adipose tissue

Question 61

how does incretin increase thermogenesis and lipolysis in adipose tissue?

Answer 61

by releasing ATRIAL NATRIURETIC PEPTIDE

Question 62

what is the general function of incretins?

Answer 62

better glucose control and weight loss

Question 63

what breaks down endogenous incretins?

Answer 63

DIPEPTIDYL PEPTIDASE-IV (DPP-IV)

Question 64

What is the role of GLP-1 receptor agonists?

Answer 64

to bind the GLP-1 receptor and allow increased insulin transcription

Question 65

what is the role of insulin secretagogues? what do they depend on?

Answer 65

allow for increased insulin secretion

they depend on functioning pancreatic beta cell

Question 66

what are 3 examples of insulin secretagogues? 2 examples of incretin analogs?

Answer 66

1. incretin analogs
2. gliptins
3. sulfonylureas meglitinides

INCRETIN ANALOGS
- Exenatide
- Semaglutide

Question 67

what do gliptins do?

Answer 67

inhibit DPP-IV to increase T1/2 of endogenous incretins

Question 68

what do sulfonylureas meglitinides do?

Answer 68

mimics the increased ATP/ADP ratio and inhibits the K+ channel

Question 69

what is the difference btwn the half lives of endogenous GLP-1 and GLP-1 analogs?

Answer 69

endogenous GLP-1 –> T1/2 = a few minutes

GLP-1 analogs –> T1/2 = hours - days

Question 70

what is Exendin 4/Exenatide?

Answer 70

toxin found in Glia monster saliva

Question 71

how does Exendin 4/Exenatide differ from GLP-1?

Answer 71

GLP-1 is broken down quickly by DPP-IV

Exendin 4/Exenatide has different AA where DPP-IV acts so it is broken down more slowly

Question 72

what are 2 types of Semaglutide?

Answer 72

1. Ozempic
2. Wegovy

Question 73

what is Semaglutide?

Answer 73

has a different DPP-IV binding site than GLP-1 so it is broken down less quickly

AND has lipid so it can bind albumin and stay longer in bloodstream

Question 74

how is semaglutide administered?

Answer 74

injected 1x a week

Question 75

Semaglutide for weight loss

Answer 75

may be effective for:
- obesity w/o diabetes
- overweight w/ weight-related comorbitidy + w/o diabetes

Question 76

what is a type of Gliflozin?

Answer 76

Canagliflozin

Question 77

what is the mechanism of gliflozin?

Answer 77

inhibits Na+/glucose cotransporter (SGLT2) in the kidneys

Question 78

what does SGLT2 do normally?

Answer 78

causes reabsorption of glucose back to circulation so glucose is not lost in urine

Question 79

what do gliflozins do to glucose, urine volume, and plasma volume?

Answer 79

high glucose in renal tubules induces osmotic diuresis so there is less Na+ reabsorption and more glucose is lost in urine

increases urine volume, decreases plasma volume

Question 80

what is a risk of gliflozins?

Answer 80

increased UTI and genital infection

Question 81

what are 2 examples of alpha-glucosidase inhibitors?

Answer 81

1. acarbose
2. miglitol

Question 82

what do alpha-glucosidase inhibitors do?

Answer 82

competitively inhibit alpha-glucosidase enzymes that degrade starch into glucose –> therefore less glucose absorbed in GIT after meal

Question 83

why are alpha-glucosidase inhibitors typically not used alone? (2)

Answer 83

less effective and there are side effects

Question 84

what are 2 side effects of alpha-glucosidase inhibitors?

Answer 84

1. starch goes to colon and gets fermented + degraded by microbiota –> diarrhea, abdominal pain, flatulence
2. contraindicated if IBS