Endocrine functions of pancreas and diabetes mellitus

Question 1

What does the Acini tissue secrete?

Answer 1

Digestive juices in the duodenum

Question 2

What are the two major tissue types of the pancreas?

Answer 2

Acini and islets of Langerhans

Question 3

What does the Islets of Langerhans secrte?

Answer 3

pancreatic hormones

Question 4

What hormones are secreted by the pancreas?

Answer 4

insulin, glucagon, somatostatin, pancreatic polypeptide, amylin and ghrelin

Question 5

What are the five cell types of the pancreas and how much of the pancreas do they make up?

Answer 5

Alpha cells – 25%

Beta cells – 70%

Delta cells – less than 5%

PP cells (F cells) - trace amounts

Epsilon cells

Question 6

What do alpha cells secrete?

Answer 6

Glucagon

Question 7

What do beta cells secrete?

Answer 7

isnulin and amylin

Question 8

What do delta cells secrete?

Answer 8

somatostatin

Question 9

What do PP or F cells secrete?

Answer 9

Pancreatic Polypeptide (PP)

Question 10

what does epsilon cells secrete?

Answer 10

Ghrelin

Question 11

Where are bet cells more abundant?

Answer 11

in the centre of the islet.

Question 12

Where are alpha and delta cells most abundant?

Answer 12

in the periphery of the pancreas

Question 13

can cels within an islet influence the secretion of other cells?

Answer 13

yes

Question 14

How does cells within an islet communicate?

Answer 14

Via gap junctions

Question 15

How does hormones produced by alpha, beta and delta cells regulate each-other’s secretion?

Answer 15

paracrine and cell-cell interactions

Question 16

What does insulin secreted from B cells inhibit?

Answer 16

glucagon secretion

Question 17

What does glucagon activate?

Answer 17

Insulin and somatostatin secretion

Question 18

what does somatostatin inhibit?

Answer 18

Glucagon secretion

Question 19

What does Ghrelin inhibit?

Answer 19

Insulin secretion

Question 20

What is the biosynthesis of insulin?

Answer 20

PrePro Insulin  Proinsulin  Insulin and C peptide

Question 21

What does the amount of C peptide give?

Answer 21

measure of Beta function

Question 22

What are the two polypeptide chains (A and B) of insulin linked by?

Answer 22

Disulfide linkages

Question 23

How is glucose transported into beta cells?

Answer 23

via facilitated diffusion using the GLUT 2

Question 24

What increases insulin secretion?

Answer 24

Increased blood glucose

Increased blood AA and FFA

GI hormones

Glucagon, GH and cortisol

Beta adrenergic stimulation

Sulfonyluera drugs

Question 25

What decreases insulin secretion

Answer 25

Decreased blood glucose

Fasting

Somatostatin

Alpha adrenergic activity

Leptin

K + depletion

Question 26

What is the structure of the insulin receptor?

Answer 26

glycoprotein

Heterotetramer with a a and beta subunit complex

Question 27

What subunit of the glycoprotein binds to insulin?

Answer 27

a subunit

Question 28

What is the mechanism of action for insulin?

Answer 28

Insulin binds to a subunit on outside of cell –> autophosphorylates portions of b sub units within the cell. –> activation of tyrosine kinase –> phosphorylates insulin-receptor substrates –> signal activates cascade of kinases (Ras-MAPK) to stimulate gene transcription, protein synthesis and mitotic activity.

Question 29

What does the autophosphorylation of B subunits of in glyoprotein activate?

Answer 29

a local tyrosine kinase that phosphorylates enzymes

Question 30

Where is the Glut 4 transporter mostly expressed?

Answer 30

Adipocytes and muscle cells

Question 31

What is the Glut 4 transporter?

Answer 31

a glucose transporter that has a high affinity for glucose and transports it down the concentration gradient.

Question 32

What are the actions of insulin on protein metabolism?

Answer 32

Increased amino acid uptake

Promotion of protein synthesis

Inhibition of protein degradation

Question 33

What are the impacts of insulin on protein metabolism just in the liver?

Answer 33

inhibits the breakdown of amino acids to form glucose

Question 34

How does insulin impact carbohydrate metabolism in adipocyte tissue and muscle cells?

Answer 34

Increases carrier mediated uptake of glucose into skeletal muscle and adipose tissue

increases glycolysis

Question 35

How does insulin effect carbohydrate metabolsim?

Answer 35

Increased carrier mediated uptake of glucose into skeletal muscle and adipose tissue

Increased glycogenesis in muscle and liver

Increases glycolysis in adipose and muscle

Decreased gluconeogenesis

Decreased glycogenolysis

Question 36

How does insulin impact fat metabolism in adipose tissue?

Answer 36

increases storage of triglycerides via inducing lipoprotein lipase

Increases storage of fatty acids

Question 37

How does insulin impact fat metabolism in the liver?

Answer 37

Inhibits breakdown of fatty acids into ketones

Increases synthesis of triglycerides, cholesterol and very-low-density lipoproteins.

Question 38

What are some other (non metabolic) actions of insulin?

Answer 38

Required for growth (with GH) (diabetes in children = failure to grow)

Direct effect on hypothalamic satiety

Increases K uptake = temporary relief of hyperkalaemia

Increases sodium retention by kidney

Question 39

What are the consequences of glucagon in insulin deficiency?

Answer 39

insulin contributes signficantly to hyperglycaemia and ketosis

Question 40

What is the origin of glucagon?

Answer 40

alpha cells of islets of langerhans

Question 41

what is the structure of glucagon?

Answer 41

hyperglycaemic hormone, single polypeptide

Question 42

what stimulates release of glucagon?

Answer 42

hypoglycaemia

Question 43

What is the primary and lesser target for Glucagon?

Answer 43

Primary target= liver

Lesser target = adipose tissue

Question 44

What are the main actions of insulin?

Answer 44

Acts to OPPOSE insulin

Increases blood glucose

increased glycogenolysis

increases gluconeogenesis

Increases lipolysis

Question 45

what factors increase glucagon secretion?

Answer 45

Decreased BGL

Amino acids

Acetyl Choline

Catecholamines

Question 46

What factors decrease glucagon secretion?

Answer 46

Fatty acids

Insulin

Somatostatin

Question 47

What is the impact of glucagon on fat metabolism?

Answer 47

Inhibits storage of triglycerides

Activates adipose cell lipase

Increased fatty acids available for other tissues (ketogenic)

Question 48

What is the impact of glucagon on carbohydrate metabolism?

Answer 48

Increases gluconeogenesis (increased uptake of amino acids)

Increased glycogenolysis

Breakdown of liver glycogen

Question 49

What does a high concentration of Glucagon do?

Answer 49

enhances strength of heart

increases blood flow into some tissues

increased bile secretion

inhibits gastric secretion

Question 50

What is the mechanism of action of Glucagon?

Answer 50

Glucagon activates G protein –> AC –> increased concentration of cAMP –> activates PKA –> phosphorylates multiple enzymes –> activates glycogen phosphorylase –> increased glycogenolysis

Question 51

What happens when PKA deactivates glycogen synthase?

Answer 51

decreased glycogen synthesis

Question 52

Where does somatostatin come from?

Answer 52

delta cells

Question 53

What does somatostatin inhibit?

Answer 53

insulin, glucagon and pancreatic polypeptide secretion

Question 54

what are some actions of somatostatin (apart from inhibition)

Answer 54

prolongation of gastric emptying time,

decreased exocrine pancreas secretion, gastric motility and gastric secretion

Question 55

Where is pancreatic polypeptide secreted from?

Answer 55

F cells or PP cells

Question 56

What does Pancreatic Polypeptide inhibit?

Answer 56

insulin and somatostatin secretion.

Question 57

What is Amylin? (structure)

Answer 57

islet amyloid polypeptide

37 AA

co-secreted with insulin from pancretic beta cells

Question 58

When co-secreted from beta cells with insulin, what does Amylin do?

Answer 58

decreases glucagon release, decreased body weight (inhibition of food intake) and decreases gastric emptying

Question 59

How does Amylin affect blood glucose concentration?

Answer 59

decreases glucagon release (decreases blood glucose via inhibition of hepatic glucose production)

Question 60

What are incretins?

Answer 60

Digestive tract hormones that increase insulin secretion from beta cells

Question 61

What are the two major incretins?

Answer 61

Glucagon-like peptide and Glucose-dependant insulinotropic polypeptide (PIC).

Question 62

What releases gastroinstetsinal peptides (GLP-1 and GIP), insulin and amylin?

Answer 62

ingestion of food

Question 63

Where is GLP1 produced?

Answer 63

L cells of small intestine

Question 64

What is the main action of GLP-1?

Answer 64

stimulation of glucose-dependant insulin release from pancreatic islets

Question 65

What happens to GLP-1 in type 2 diabetes?

Answer 65

impaired insulin response to GLP-1 = reduction in postprandial GLP-1 secretion

Question 66

What is the action of GIP in the fasting state (hypoglycemia)?

Answer 66

enhances glucagon activity

Question 67

what is GIP stimulated by?

Answer 67

glucose, fat and protein ingestion

Question 67

What is the action of GIP in hyperglycemia?

Answer 67

potentiates (increases) glucose-induced insulin secretion

Question 68

what is the normal blood glucose range for fasting and random?

Answer 68

fasting = 3.0 - 6.9 mmol/L
random = 3.0-8.0mmol/L

Question 69

When is Growth hormone in blood glucose regulation and what does it do?

Answer 69

Hypoglycaemic trigger

decreased glucose and increased fat use

Question 70

When is cortisol triggered in BGL regulation and what does it do?

Answer 70

hypoglycaemic trigger

decreased glucose uses and increased fat use

increased gluconeogenesis, hepatic glycogenesis sand ketogenesis

Question 71

what are the most common causes of diabetes?

Answer 71

defect insulin secretion, defect insulin action or both

Question 72

Describe the physiology of how thirst and polyuria occurs in type 1 diabetes Mellitus.

Answer 72

Increased blood glucose –> Increased filtered load of
glucose –> The non-reabsorbed glucose acts as an osmotic
solute in urine, producing an osmotic diuresis, polyuria,
and thirst

Question 73

What is insulin deficiency?

Answer 73

from the destruction of pancreatic-B cells

caused by ‘organ specific’ autoimmune disease

Question 74

What does insulin deficiency (and glucagon excess) result in?

Answer 74

Decreased glucose uptake

increased protein catabolism

increased lipolysis

Question 75

What is the consequence of decreased glucose uptake?

Answer 75

Hyperglycaemia, glycosuria, osmotic diuresis, electrolyte depletion

Question 76

What does thyroid hormone do for BGL?

Answer 76

makes them raise because it increases glucose absorption

Question 77

What is the consequence of increased protein catabolism in insulin deficiency?

Answer 77

increased plasma amino acids

nitrogen loss in urine

and all decreased glucose uptake consequences

(Hyperglycaemia, glycosuria, osmotic diuresis, electrolyte depletion)

Question 78

What is the consequence of increased lipolysis (insulin deficiency)?

Answer 78

Increased plasma FFA, ketogenesis, ketouria and ketonemia

Question 79

What is hyperglycaemia due to?

Answer 79

Decreased insulin action
–Increased insulin production
(Hyperinsulinemia)
* Leads to beta cell failure

Question 80

what percent of diabetes are type 2?

Answer 80

90%

Question 81

What is insulin resistance?

Answer 81

– impaired biological response to insulin

Insulin is secreted normally by the beta
cells
– But insulin can not activate its receptors in
the target cells

Question 82

what is the primary defect for patients with type 2 diabetes?

Answer 82

insulin resistance

Question 83

what are the main differences between type 1 and type 2 diabetes?

Answer 83

Type 1 = insulin dependant whilst type 2 is non insulin dependent

type 1 = severe symptoms of thirst and ketoacidosis whilst type 2 = insidious onset of symptoms

type 1. = spontaneous ketosis but type 2 = no ketoacidosis

Type 1= c-peptide absent, 2 = c-peptide present

Question 84

When should we medically consider Type 1 Diabetes Mellitus?

Answer 84

If there is:

Ketonuria
polyuria
weight loss
young age
family history of autoimmune disease
rapid onset of symptoms

Question 85

What is the difference between insulin deficiency and insulin resistance ?

Answer 85

deficiency = don’t actually make it because beta cells are destroyed

resistance = make it but does not activate receptors in target cells

Question 86

What is diabetes insidious vs mellitus

Answer 86

Insipidus= very diluted urine = ADH deficiency

Mellitus= sweet urine due to excess glucose secreted = insulin inactivity

Question 87

What do GH, Corisol and Thyroid hormone all do?

Answer 87

Hyperglucemic hormones = incerased blood glucose levels

Question 88

Describe the sequence of actions if there is Increased BG?

Answer 88

Alpha cell inhibited = decreased glucagon

Beta cell activated = increased insulin

= deceased to normal levels

Question 89

Describe the sequence of actions if there is decreased BG?

Answer 89

alpha cell activated = increased glucagon

beta cell inhibited = decrased insulin

= raise to normal levels