Endocrine Pancreas

Question 1

4 types of cells producing hormones

Answer 1

alpha cells- glucagon
beta cells- insulin
delta cells- somatostatin
F cells- pancreatic polypeptide

Question 2

insulin

Answer 2

polypeptide hormone produced by beta cells in response to hyperglycemia

it is synthesized as a larger molecule inside of the golgi apparatus and packaged into secretory granules awaiting secretion

protein consisting of 2 chains, alpha and beta, that are connected by 2 disulfide bridges

Question 3

insulin synthesis and secretion

Answer 3

1. messenger RNA on the ribosomes of the ER binds amino acids into a peptide chain called a preprohormone. the chain is directed into the ER lumen by a signal sequence of amino acids
2. enzymes in the ER chop off the signal sequence, creating an inactive prohormone
3. the prohormone passes from the ER through the golgi apparatus
4. secretory vesicles containing enzymes and prohormone bud off the golgi. the enzymes chop the prohormone into one or more active peptides plus additional peptide fragments
5. the secretory vesicle releases its contents by exocytosis into the extracellular space
6. the hormone moves into the circulation for transport to its target

Question 4

differences in amino acid sequences between species

Answer 4

cattle, sheep, horses, dogs, and whales differ only in positions 8,9, and 10 of the alpha chain

porcine insulin differs from human insulin by one amino acid

bovine insulin differs from cat insulin by one amino acid

porcine and canine insulin are exactly the same

Question 5

factors affecting insulin secretion

Answer 5

stimuli: Gi hormones such as gastrin, secretin, GIP, glucagon, acetylcholine
inhibitors: somatostatin, epinephrine, norepinephrine

Question 6

how is insulin released from beta cells?

Answer 6

beta cells have a glucose transporter, GLUT2, in the membrane surface

this allows glucose to diffuse freely into the cell

extracellular fluid glucose concentration directly affects glucose concentration inside of the beta cell

an increase in blood glucose concentration leads to insulin secretion and synthesis

Question 7

insulin secretion follows biphasic kinetics

Answer 7

acute phase: involves the release of preformed insulin

chronic phase: involves the synthesis of protein

Question 8

how does insulin act on target cells?

Answer 8

after release, insulin binds to a specific membrane receptor on target tissues

RECEPTOR TYROSINE KINASE

Question 9

which tissues have insulin receptors?

Answer 9

liver, muscle, fat

Question 10

physiological action of insulin

Answer 10

the net effect of insulin is to lower blood concentration of glucose, fatty acids, and amino acids

promoting intracellular conversion of glycogen, triglycerides, and proteins to their storage forms

Question 11

insulin action on muscle and fat

Answer 11

insulin facilitates glucose entry into cells by increasing the number of specific glucose transporters in the cell membranes

GLUT4 is the only insulin sensitive transporter

Question 12

insulin action on muscle

Answer 12

smooth, striated, and cardiac muscle

stimulates glycogen synthesis enzymes- promoting storage of glucose molecules in the form of glycogen

promotes the use of glucose as a fuel source- reduces fatty acid oxidation, in the absence of insulin, muscle relies on more fatty acids as a fuel source

enhances amino acid uptake which promotes muscle growth

Question 13

insulin action on adipose tissue

Answer 13

glucose provided to adipocytes promotes: glycerol formation and glycogen synthesis

insulin inhibits lipolysis and promotes adipose deposition

Question 14

insulin action on liver

Answer 14

promotes fatty acid synthesis in hepatocytes

stimulates incorporation of those fatty acids and triglycerides into lipoprotein bound vesicles such as VLDL for transport to adipocytes

insulin stimulates glycogen synthesis, decreases gluconeogenesis and glycogenolysis

Question 15

insulin inactivation

Answer 15

is metabolized mainly by the liver and kidneys

specific enzymes reduce the disulfide bonds

chains are subjected to protease activity- reduce them to peptides and amino acids

half life is about 10 minutes

Question 16

counterregulatory hormones

Answer 16

epinephrine
glucagon
cortisol
growth hormone

Question 17

glucagon

Answer 17

polypeptide hormone produced by the alpha cells

close relationship with insulin

considerable homology between species

synthesized in the same way as insulin and released by exocytosis

half life of 5 minutes

Question 18

physiological action of glucagon

Answer 18

opposite of insulin

main effects centered in the liver and greatly enhance the availability of glucose to the other organs of the body

decrease glycogen synthesis
breakdown of liver glycogen
increase liver gluconeogenesis

Question 19

glucagon synthesis

Answer 19

stimulated by decreased glucose concentration

works with insulin to maintain blood glucose concentration

is high during insulin deficiency- insulin is required for glucose uptake in alpha cells

it is not an opposite hormone in true carnivores: protein ingestion stimulates both insulin and glucagon release. insulin released in response to increased amino acid levels lowers glucose concentration. glucagon counteracts this through increased hepatic gluconeogenesis

Question 20

pancreatic somatostatin

Answer 20

produced by delta cells in the same way as other protein hormones

inhibitory actions: decreases motility and secretory activity of the GI tract. inhibits secretion of all endocrine cell types of the islet of langerhand. glucagon is more affected than insulin

Question 21

pancreatic polypeptide

Answer 21

produced by F or PP cells

secretion is stimulated by GI hormones, vagal stimulation, and protein ingestion

inhibition occurs through somatostatin

effects are directed toward the GI tract

increased gut motility and gastric emptying

inhibits secretion of pancreatic enzymes and the contraction of the gallbladder

Question 22

insulin deficiency

Answer 22

lack or deficiency of insulin produces a syndrome called diabetes mellitus

can be absolute or relative

absolute- type 1
relative- type 2

Question 23

what does insulin deficiency cause?

Answer 23

lipolysis of storage fat and release of FFA

protein depletion and increased plasma amino acids

Question 24

type 1 diabetes

Answer 24

characterized by permanent hypoinsulinemia

absolute deficiency. no increase in endogenous insulin after stimulation. absolute necessity for exogenous insulin to maintain control of glycemia. avoid ketoacidosis and survive

common in dogs

Question 25

potential factors involved in the etiopathogenesis of type 1 diabetes

Answer 25

genetics
immune mediated insulitis
pancreatitis
obesity
concurrent hormonal disease
drugs
infection
concurrent illness
hyperlipidemia

Question 26

cataracts in diabetic dogs

Answer 26

most common long term complication

related with altered osmotic relationships in the lens induced by accumulation of sorbitol and galactitol, which are potent hydrophilic agents causing influx of water, which causes swelling and rupture of the lens fibers

Question 27

type 2 diabetes

Answer 27

characterized by the resistance to the metabolic effects of insulin

relative deficiency- combination of impaired insulin action in the liver, muscle, adipose tissue, and beta cell failure

most common in cats

Question 28

potential factors involved in the etiopathogenesis of type 2 diabetes

Answer 28

islet amyloidosis
obesity
pancreatitis
concurrent hormonal disease
drugs
infection
concurrent illness
genetic
hyperlipidemia
immune mediated insulinitis

Question 29

islet of langerhans amyloidosis

Answer 29

amylin is a polypeptide produced and secreted by beta cells together with insulin secretion. it increases satiety, decreases gastric emptying and reduces glucagon production

only humans and cats have the amyloidogenic amino acid structure with the potential to form amyloid deposits within the islets

when amylin aggregates, it formed the amyloid. deposition is toxic to beta cells and leads to dysfunction

Question 30

common causes of insulin resistance in cats

Answer 30

glucocorticoids
progestines
acromegaly
cushings
obesity
infection
pancreatitis
gingivitis
hyperthyroidism
renal failure
IBD

Question 31

can clinical remission occur in cats with type 2 diabetes

Answer 31

yes, but not if caused by amyloidosis

Question 32

diabetic neuropathy in cats

Answer 32

most common chronic complication

hyperglycemia leads to nerve injury

pathogenesis not completely understood