Physiology-Endocrine Pancreas

Question 1

Which hormones ensure that we don’t become hypoglycemic?

Answer 1

Short term: Glucagon, NE & EPI. Long term: Cortisol & GH

Question 2

Cells of the islet of Langerhans, what do they produce?

Answer 2

Alpha: glucagon, Beta: insulin, Delta: somatostatin

Question 3

How do the alpha and beta cells sense and maintain insulin: glucagon balance?

Answer 3

1) Nutritional regulation: glucose & amino acid sensing. 2) Neural regulation: ANS (sympathetic from celiac ganglion and parasympathetic from vagus) 3) Hormonal regulation: catecholamines and gut hormones

Question 4

How does glucagon:insulin ratio change during exercise?

Answer 4

Prior to exercise there is sympathetic activation of the islet and catecholamines begin to circulate. As exercise begins there is a drop in blood glucose. All of these things increase glucagon release and glucose production by the liver. Note the brain continues to take 6g/hr, but muscle’s glucose channels increase in response to exercise and decreased insulin, increasing glucose consumption 10x.

Question 5

How does glucagon:insulin ration change after a carbohydrate meal?

Answer 5

Parasympathetic nervous system is dominant when eating, gastrointestinal hormones are released and blood sugar increases, favoring increased insulin release and glucose is shuttles into liver, fat and muscle for storage and energy.

Question 6

Where does insulin route most of the glucose from meals?

Answer 6

50% liver, 25% peripheral uptake (brain, nerves, RBCs and testes) and 15% in fat and muscle (insulin-dependent tissues)

Question 7

Where do we store most of our fuel stores?

Answer 7

1) Fat (141,000 kCal) #2) Muscle (600 kCal) #3) Liver (300kCal)

Question 8

What does somatostatin do?

Answer 8

Inhibits GH and thyrotropin release. It is also inhibitory on alpha and beta cells of the pancreas (note that the pituitary is so far that the somatostatin that inhibits the pituitary does not affect the pancreatic cells at all)

Question 9

Why would a somatostatin analogue specific for alpha cells be beneficial in treating type I diabetes?

Answer 9

Autoimmune destruction of the beta cell decreases insulin levels. The alpha cell is also insulin dependent in that it needs to be able to take glucose in in order to sense hyperglycemia. With low insulin, it can’t take glucose in and “senses” hypoglycemia and goes crazy secreting glucagon. If you could inhibit this it would preserve the little function there is left of the beta cells.

Question 10

Why does proinsulin have a connecting peptide in addition to the active hormone? How is this useful for diagnostic purposes?

Answer 10

It is necessary for lining up the alpha and beta chains so the proper disulfide bridges could form that make the protein active. It is useful because active insulin is make by cleaving the c-peptide. If someone is making themselves sick by injecting insulin, they will not have an elevated c-peptide because it is not a natural hypoglycemia.

Question 11

How is insulin a growth factor?

Answer 11

It “marshals” amino acid and glucose (GLUT4) receptors to the cell membrane surface. It also activates intracellular machinery for glucose utilization and storage. Ultimately signaling will reach the nucleus and promote cell growth and division.

Question 12

Why is insulin’s receptor special?

Answer 12

Binding of insulin causes it to autophosphorylate and begin the cascade of phosphorylation of other intracellular enzymes.

Question 13

What are the individual cells’ roles in controlling insulin response?

Answer 13

The can up regulate or down regulate insulin receptors, making them more or less sensitive to the effects of insulin. (spare receptors)

Question 14

What people do we see insulin resistance in?

Answer 14

Obesity, mature-onset diabetes, GH excess, glucocorticoid excess and lipoatrophic diabetes.

Question 15

What people do we see insulin sensitivity in?

Answer 15

Athletes (exercise marshals GLUT-4 receptors to cell surface stimulating increased uptake) and glucocorticoid insufficiency

Question 16

How do glucocorticoids affect blood glucose levels?

Answer 16

Cortisol causes resorption of the insulin receptor, decreasing the amount of glucose taken up by the cells.

Question 17

What does the liver need insulin for?

Answer 17

Not uptake of glucose, it does that on its own. It needs it for initiation of glycogen synthase to converts Glucose to Gluc-6-P

Question 18

Actions of insulin on blood glucose homeostasis

Answer 18

Increase glucose uptake, increase glycogen synthesis, decrease glycogenolysis, decrease gluconeogenesis

Question 19

Action of glucagon on blood glucose homeostasis

Answer 19

Increase glycogenolysis and gluconeogenesis

Question 20

Actions of NE and EPI on blood glucose homeostasis

Answer 20

LIVER & MUSCLE: increase glycogenolysis, inhibit muscle uptake of glucose, increase muscle ability to utilize ketoacids as fuel and stimulation of gluconeogenesis in liver. ADIPOCYTES: inhibit lipogenesis and activate lipolysis by stimulating hormone sensitive lipases. PANCREAS: stimulate glucagon secretion and inhibit insulin release.

Question 21

Actions of cortisol on blood glucose homeostasis

Answer 21

Increase gluconeogenesis and decrease glucose uptake by down regulation of insulin receptors. Promote lipolysis.

Question 22

Actions of GH on blood glucose homeostasis

Answer 22

Decrease glucose uptake by down regulation of insulin receptors. Promote lipolysis.

Question 23

What is the primary determinant of insulin secretion?

Answer 23

Nutritional regulation (glucose & AAs = secretion; hypoglycemia & hypoaminoacidemia = inhibit secretion)

Question 24

Hormonal stimulators of insulin secretion? Glucagon secretion?

Answer 24

Insulin = GIP, secretin and gastrin. Glucagon = catecholamines.

Question 25

Hormonal inhibitors of insulin secretion? Glucagon secretion?

Answer 25

Insulin = SST & catecholamines. Glucagon = SST and secretin.

Question 26

Neural stimulator of insulin secretion? Glucagon secretion?

Answer 26

Insulin = Parasympathetic. Glucagon = Sympathetic.

Question 27

Neural inhibitor of insulin secretion? Glucagon secretion?

Answer 27

Insulin = Sympathetic. Glucagon = none.

Question 28

Pharmacologic stimulator of insulin secretion? Glucagon secretion?

Answer 28

Insulin = Sulfonylurea. Glucagon = sympathomimetics.

Question 29

Pharmacologic inhibitors of insulin secretion? Glucagon secretion?

Answer 29

Insulin = Diazoxide, streptozotocin, SST analogues. Glucagon = SST analogues.

Question 30

Most common form of diabetes

Answer 30

Hereditary (primary) diabetes.

Question 31

Diseases that can result in secondary diabetes?

Answer 31

Damage to pancreatic islets (surgery, tumors, pancreatitis, hemochromatosis). Other endocrine disorders (acromegaly, pheochromocytoma, primary aldosteronism, Cushing’s, thyrotoxicosis)

Question 32

Pathophysiology of gestational diabetes

Answer 32

Placental hormones (mostly somatomammotropin i.e. placental GH) antagonize insulin’s activity. Insulin is also degraded by the placenta. This results in hyperglycemia and diabetes.

Question 33

Genetic factors to analyze in diabetes

Answer 33

Islet cell antibody formation and HLA genes.

Question 34

4 categories of diabetes mellitus

Answer 34

1) Spontaneous diabetes (insulin-dependent and insulin-independent) 2) Secondary diabetes (pancreatic disease, contrainsulin hormones, drugs, genetic syndromes) 3) Impaired glucose tolerance (normal fasting glucose, 140-200mg/dL glucose tolerance test) 4) Gestational diabetes

Question 35

3 tests for diagnosing diabetes

Answer 35

Fasting hyperglycemia, oral glucose tolerance test and HbA1C

Question 36

In what type of diabetes is ketosis a rare complication and obesity a common complication?

Answer 36

Insulin-independent

Question 37

In what type of diabetes are environmental factors a larger player than genetic factors?

Answer 37

Insulin-dependent has 40% concordance in twins. Insulin-independent has 95% concordance in twins.

Question 38

3 precipitating events that can cause insulin-dependent diabetes in a susceptible child

Answer 38

Genetic predisposition, beta cytotrophic virus (Coxsackie) and chemical toxins can lead to formation of islet cell antibody.

Question 39

What circle will eventually precipitate insulin-independent diabetes?

Answer 39

Excessive food intake + inadequate exercise -> obesity -> insulin resistance -> compensatory hyperinsulinemia. Eventually the beta cells burn out and causes diabetes. Further burnout will present with hyperglycemia, glycosuria and ketonemia indicating progression to insulin-dependent diabetes.

Question 40

When do you see lack of c-peptide in people not taking exogenous insulin?

Answer 40

When beta cells are fully burnt out…usually after a stress response that increases counter regulatory hormones and induces severe ketoacidosis.

Question 41

Why is obesity a significant contributor to chronic, low-grade inflammation in diabetes?

Answer 41

Lipid store accumulation -> Increased distance O2 must diffuse to get to mitochondria -> Hypoxia -> Upregulation of cytokines and monocyte chemotactic protein-1 -> Macrophages arrive and secrete cytokines -> Inflammation & insulin resistance

Question 42

Cornerstone of treatment in all diabetics

Answer 42

Diet: goal of achieving normoglycemia (90-130mg/dL or A1C < 7%) and ideal body weight

Question 43

Calories from carbs recommended for patients with diabetes

Answer 43

50-60%

Question 44

Single most effective step in management of an obese diabetic

Answer 44

Achieve ideal weight

Question 45

Meal provided for all insulin taking diabetics

Answer 45

Bedtime meal to prevent nighttime hypoglycemia

Question 46

Effects of sulfuronyls

Answer 46

Stimulate insulin secretion, decrease hepatic glucose output and increase peripheral glucose uptake

Question 47

Why might someone become more insulin resistant while on insulin therapy?

Answer 47

Down regulation of insulin receptors

Question 48

Most important pathogenic feature of diabetes

Answer 48

Non-enzymatic glycation of proteins disrupts structure and function and can elicit an autoimmune attack on the native protein.

Question 49

Inhibition of what enzyme may decrease retinopathy and neuropathies seen in diabetes?

Answer 49

Aldose reductase. This would decrease conversion of glucose -> sorbitol

Question 50

Diabetic vascular lesions that result in retinopathies, nephropathies and neuropathies?

Answer 50

Microangiopathies. Hyaline-like glycoproteins formed from glycation accumulate in the BM of small vessels. Sorbitol and fructose may also accumulate in the vessels.

Question 51

Leading cause of blindness in US and Europe

Answer 51

Diabetic retinopathy

Question 52

2 types of retinpathy

Answer 52

Nonproliferative (simple): 3% risk of blindness, characterized by microaneurisms, mild retinal hemorrhages and exudates. Proliferative (malignant): 50% risk of blindness. Characterized by new vessel formation (from VEGF up regulation), preretinal hemorrhage, secondary glaucoma and retinal detachment.

Question 53

Diabetic vascular lesions that result in angina, MI, intermittent claudication, gangrene, TIAs and cerebral infarction?

Answer 53

Macroangiopathies

Question 54

Diabetic complication that is cause of death in 50% of people diagnosed with diabetes before 16?

Answer 54

Diabetic nephropathy from vascular degeneration of the kidney.

Question 55

Symptoms of diabetic neuropathy

Answer 55

Symmetric loss of sensation in distal extremities, numbness, tingling and burning worse at night

Question 56

Symptoms of autonomic neuropathy

Answer 56

Orthostatic hypotension and motor disturbances in GI and GU systems.

Question 57

Treatments for diabetic retinopathy?

Answer 57

Inactivators of VEGF: macugen. Monoclonal anti-VEGF abs: bevacizumab and lucentis

Question 58

What is responsible for the rapid hypoglycemia post-gastric bypass?

Answer 58

Glucagon-like peptide 1 released from the ileum is a result of higher levels of nutrients that the intestine has never seen before. Glucagon-like peptide 1 targets the beta cells and increases insulin levels.

Question 59

Treatment with a medication increases circulating levels of glucose, amino acids and triglycerides. These effects, however, require several hours to become evident and several days to become fully manifest. Based upon the time course for the increases in blood glucose, amino acids and triglycerides, the medication is most likely?

Answer 59

Cortisol

Question 60

An infusion of a substance is observed to decrease plasma levels of glucose, amino acids and free fatty acids. The substance infused is most likely?

Answer 60

Insulin

Question 61

The benefit of exercise in the management of type II insulin-independent diabetes is due to is ability to?

Answer 61

Increase the sensitivity of exercising muscle to insulin

Question 62

The internalization of cell surface receptors often occurs following binding to their hormone ligands. The internalization is a mechanism for?

Answer 62

Down-regulating receptors