Antidiabetic Drugs

Question 1

what causes insulin secretion

Answer 1

• glucose
• amino acids
• GI hormones called incretins: glucagon like peptide-1 (GLP-1) and gastric inhibitory peptides (GIP)

Question 2

mechanism of insulin secretion

Answer 2

hyperglycemia –> increase in ATP levels –> closes ATP dependent K+ channels –> depolarization and opening of voltage gated calcium channels –> influx of Ca2+ –> pulsatile insulin exocytosis

Question 3

what degrades insulin

Answer 3

inuslinase found in liver gets rid of 60% and kidney the other 40% (roles reversed in insulin dependent diabetics getting SC injections)

Question 4

mechanism once insulin bind to its receptor

Answer 4

• insulin receptor has two covalently linked heterodimers that have an alpha (extracellular and recognition site) and a beta subunit (contains tyrosine kinase)
• insulin binds to recognition site at the alpha subunit on outside of cell
• this activates the tyrosine kinase on the beta subunit
• tyrosine kinase and cytoplasmic proteins become phosphorylated
• first proteins phosphorylated: insulin receptor substrate proteins (IRS)
• IRS interacts with other signaling molecules to activate gene expression, metabolism, and growth

Question 5

how does insulin increase uptake of glucose in muscle and adipose tissue

Answer 5

upregulating the GLUT-4 transporter –> hence promoting uptake of glucose by muscle and fat

Question 6

how does insulin affect lipid metabolism

Answer 6

• inhibits hormone sensitive lipase so decreasing circulating fatty acids
• increases synthesis of fatty acids and TAGs and their storage in adipose tissue by providing glycerol-3-phosphate
• increases lipoprotein lipase providing FA for esterification

Question 7

what are the four types of insulin preparations

Answer 7

• Rapid acting: fast onset and short duration
• Short acting: rapid onset of action
• intermediate acting
• slow acting: slow onset of action

Question 8

what are the rapid acting insulin preparation (talks about mechanism)

Answer 8

hexamers slow down the absorption of insulin and reduce its post prandial peak as seen in native insulin but those listed below do not form hexamers

Insulin Lispro
Insulin Aspart
Insulin Glulisine

Question 9

describe how each of the rapid acting insulin preparations was created

Answer 9

Insulin Lispro: proline and lysine at pos 28 and 29 in B chain are reversed so proline on pos 29 and lysine on pos 28; low propensity to form hexamers

Insulin Aspart: substitution of the B28 proline by aspartate

Insulin Glulisine: replace asparagine with lysine at B3 and lysine by glutamate at B29

Question 10

what are rapid acting insulin given

Answer 10

they mimic the prandial release of insulin and are less likely to cause hypoglycemia

usually given with a longer acting insulin to ensure proper glucose control

Question 11

what is the short acting insulin and when should it be given

Answer 11

Regular insulin – given 30 minutes before a meal

safe in preggos

Question 12

what is the intermediate acting insulin

Answer 12

Neutral Protamine Hagedorn Insulin (NPH) aka Isophane Insulin

Question 13

why is intermediate acting insulin delayed (name it)

Answer 13

NPH insulin aka Isophane Insulin

delayed absorption of insulin because of conjugation of insulin with protamine

Question 14

what are the long acting insulins

Answer 14

Insulin Glargine

Insuline Detemir

Question 15

how is insulin glargine produced

Answer 15

• two arginine residues added to the C terminus of the B chain
• an asparagine in A21 is replaced with glycine on the A chain

Question 16

what happens to insulin glargine in different pH solutions

Answer 16

soluble in acidic solution but precipitates in neutral pH

Question 17

what does insulin glargine’s acidic pH (4) prevent it from

Answer 17

can’t be mixed with short acting insulin preparations (insulin lispro, aspart, and glulisine) because they are formulated at neutral pH

Question 18

describe the peak of insulin glargine

Answer 18

it has a peakless absorption profile

Question 19

describe how was insulin detemir was created

Answer 19

terminal threonine is removed from the B30 position and myristate is attached to the new terminal B29 lysine

Question 20

what has a lower risk of hypoglycemia in comparison to NPH insulin

Answer 20

Insulin Glargine

Insulin Detemir

Question 21

benefits of rapid acting insulin over regular human insulin

Answer 21

• rapid acting can be taken right before a meal

- improved post prandial glycemic control and less risk of hypoglycemia

Question 22

overall benefit of using rapid and long acting insulin over NPH and regular human insulin

Answer 22

• improvements in HbA1C levels
• better glycemic control
• reduced hypoglycemia

Question 23

what type of insulin is used when IV therapy is warranted

Answer 23

regular human insulin

Question 24

AE of inhaled insulin

Answer 24

cough
throat pain or irritation
hypoglycemia

Question 25

contraindications of inhaled insulin

Answer 25

asthma
COPD
smokers

Question 26

goal of SC insulin therapy

Answer 26

replace the normal basal (overnight, fasting, and between meals) as well as bolus or prandial (meal time) insulin

Question 27

two methods used to simulate normal insulin release pattern

Answer 27

• basal bolus insulin regimen: once to twice a day dose of basal insulin coupled with premeal doses of rapid or short acting insulin
• insulin pump therapy: delivers various basal amounts of insulin over 24 hours as well as meal related boluses

Question 28

AE of basal bolus insulin regimen and insulin pump therapy

Answer 28

• hypoglycemia
• allergic reactions
• lipodystrophy at injection site

Question 29

drugs that commonly causes hypoglycemia

Answer 29

BES

beta blocker
ethanol
salicylates

Question 30

how does ethanol cause hypoglycemia

Answer 30

inhibits gluconeogenesis

Question 31

how do beta blockers cause hypoglycemia

Answer 31

• block the effects of catecholamines on gluconeogenesis (beta 2 causes increase in glycogenolysis and gluconeogenesis)
• also blocks the symptoms of hypoglycemia by blocking tremors and tachycardia

Question 32

how does salicylates cause hypoglycemia

Answer 32

• weak insulin like activity in periphery

- enhance pancreatic beta cells sensitivity to glucose and potentiating insulin secretion

Question 33

Drugs that cause hyperglycemia by countering the actions of insulin

Answer 33

HAGE

HIV protease inhibitors
Atypical antipsychotics
Glucocorticoids
Epinephrine

Question 34

drugs that cause hyperglycemia by inhibiting insulin secretion directly and indirectly

Answer 34

Directly:
Phenytoin
Clonidine
Calcium channel blockers

Indirectly:
diurectics by depleting K+

Question 35

non insulin antidiabetic agents

Answer 35

BIT BAGID

• Biguanides
• Insulin Secretagogues: Sulfonylurea and Meglitinides
• Thiazolidinediones (TZDs)
• Bile acid sequestrants
• Amylin Analogs
• alpha-Glucosidase inhibitors
• Incretin analogs
• DPP-IV inhibitors

Question 36

what are the “oral hypoglycemics”

Answer 36

• Biguanides
• Insulin Secretagogues: Sulfonylurea and Meglitinides
• Thiazolidinediones (TZDs)

-alpha-Glucosidase inhibitors

Question 37

what are the insulin secretagogues

Answer 37

sulfonylurea and meglitinides

Question 38

what are the sufonylureas

Answer 38

Chlorpropamide
Glyburide
Glipizide
Glimepiride