End 8 - Diabetes

Question 1

What are the 4 functions of glucagon?

Answer 1

Stimulates gluconeogenesis. Causes glycogenolysis. Stimulates lipolysis. Stimulates insulin secretion.

Question 2

What are the steps to make insulin from pre-proinsulin?

Answer 2

Pre-proinsulin is cleaved into proinsulin. Then proinsuln is cleaved into insulin and C-peptide.

Question 3

What is measuring C-peptide useful for?

Answer 3

Differentiate b/w DM I and DM II. Differentiate causes of hypoglycemia (Low C-peptide in exogenous insulin like insulin shots or High C-peptide in high endogenous insulin like insulinoma).

Question 4

What does GLUT-2 do? Where is it found?

Answer 4

It is an insulin-independent Glucose transporter; it does not require insulin so it can gauge closely the glucose levels in blood. It is found in the beta-cells, liver, small intestines, and renal cells.

Question 5

What does GLUT-4 do? Where is it found?

Answer 5

It is a insulin-DEPENDENT glucose transporter. Found in adipose tissue and skeletal muscle.

Question 6

What does GLUT-1 do? Where is it found?

Answer 6

They are insulin-INdependet glucose transporters. They are found in RBCs and brain.

Question 7

Which hormone of the pancreas causes increased glycogen synthesis, Increased TG synthesis and protein synthesis?

Answer 7

Insulin.

Question 8

What are the symptoms of Diabetes?

Answer 8

Hyperglycemia. Polyuria. Polydipsia. Polyphagia. Weight loss.

Question 9

What emergency disease is mostly associated w/ DM I?

Answer 9

Diabetic Ketoacidosis (DKA).

Question 10

What emergency disease is mostly associated w/ DM II?

Answer 10

Hyperosmolar hyperglycemic state (HHS).

Question 11

What is the cause of DM I? What genes are associate w/ it?

Answer 11

Autoimmune destruction of beta cells by Islet cell antibody against glutamic acid decarboxylase (GAD). Association w/ HLA genes on chromosome 6 (HLA-DR3-DQ2, HLA-DR4-DQ8).

Question 12

What is the cause of DM II?

Answer 12

Insulin resistance that evolves to inadequate insulin to beta-cell failure.

Question 13

What are the two ways to diagnose Diabetes Mellitus?

Answer 13

Glucose-based testing: Fasting serum glucose or 2-hour glucose tolerance test. Hemoglobin A1C: much more stable.

Question 14

What are the complications of Diabetes Mellitus?

Answer 14

Retinopathy. Nephropathy. Vascular disease. Motor neuropathy. Sensory neuropathy. Autonomic neuropathy. Foot sores.

Question 15

Why can DM cause retinopathy?

Answer 15

The nonenzymatic glycosilation damages blood vessels, making them leaky; nonproliferative retinopathy. If it progresses it becomes proliferative retinopathy (where fragile new blood vessels form in the eye, and when they break causes hemorrhage and progress to blindness). Causes hard exudates, soft exudates (Cotton-wool spots) and macular edema.

Question 16

What are the two primary mechanisms of action of damage caused by Diabetes Mellitus?

Answer 16

Nonenzymatic Glycosylation. Osmotic damage.

Question 17

Why can DM cause nephropathy?

Answer 17

Nonenzymatic glycosylation of the small vessels in the kidney causes progressive proteinuria. Causes Kimmelstiel-Wilson nodules (acellular nodules in the glomerulus).

Question 18

What drug can reduce the progressive proteinuria caused by DM?

Answer 18

ACE inhibitors.

Question 19

Why does Diabetes cause osmotic damage? Which organs are affected?

Answer 19

Glucose is converted to Sorbitol by the enzyme Aldose reductase. Then, the Sorbitol is converted to Fructose by Sorbitol dehydrogenase. Tissues that have aldose reductase but not sorbitol dehydrogenase, end up storing a lot of Sorbitol. This sorbitol acts as an osmotic, pulling in water into the cell, causing damage. Tissues that lack sorbitol dehydrogenase are Schwann cells, Lens, Retina and Kidney.

Question 20

How is hemoglobin glycosylated in diabetes mellitus to form HgbA1c?

Answer 20

By nonenzymatic glycosylation: too much glucose around that it just sticks to the hemoglobin.

Question 21

Which type of diabetes mellitus fits the following description: Associated w/ obesity.

Answer 21

DM II.

Question 22

Which type of diabetes mellitus fits the following description: may cause ketoacidosis.

Answer 22

DM I.

Question 23

Which type of diabetes mellitus fits the following description: Strong genetic predisposition.

Answer 23

DM II.

Question 24

Which type of diabetes mellitus fits the following description: associated w/ HLA DR3 and DR4.

Answer 24

DM I.

Question 25

In which tissue will you find GLUT-2 receptors?

Answer 25

Beta-cells of pancreas. Small intestine. Liver. Kidney.

Question 26

Which tissues depend on insulin for glucose uptake?

Answer 26

Adipose tissue. Skeletal muscle.

Question 27

What is the enzyme that converts glucose to sorbitol?

Answer 27

Aldose reductase.

Question 28

Which tissues lack sorbitol dehydrogenase, the enzyme that converts sorbitol to fructose?

Answer 28

Schwann cells. Lens and retina of the eye. Kidneys.