Foundations of Drug Interaction Exam 1

Question 1

What are the 3 phases of drug design?

Answer 1

Discovery, Optimization and Development

Question 2

Define lead compound

Answer 2

A lead compound is a pharmacologically active agent that may still require modification for specific target.

Question 3

Name the biochemical classes of targets for drugs from most popular to least

Answer 3

Enzymes (47%), G-protein coupled receptors (30%), Nuclear hormone receptors and transporters (8%), Ion channels (7%), Other receptors (4%), Miscellaneous (2%), DNA (1%), Integrins or Integral membrane proteins (1%)

Question 4

Define Bioassay

Answer 4

A test using a live animal or plant (in vivo) or tissue (in vitro) to determine the biological activity of a substance, hormone, or drug

Question 5

What are the general types of bioassays?

Answer 5

Assays using the whole organism (can be unicellular or multicellular) - Mechanism independent and non-selective

Assays using mammalian cell cultures such as cancer cell lines - mechanism independent but can indicate selectivity within a variety of cell lines

Assays using purified enzymes or receptors (cell free) - mechanism dependent and highly selective for specific protein target used

Assays using engineered microorganisms (cell based) - mechanism dependent and have a higher likelihood of being active in a pharmacological model

Question 6

What types of samples can be used following the identification of a suitable bioassay?

Answer 6

Natural product compounds and synthetic compounds

Question 7

What types of natural product compounds can be used? What is necessary when using a natural product compound?

Answer 7

Crude extracts - limited appeal for HTS
Pure compounds - offer great range of structural diversity

Deconvolution - separation of the active principle from inactive components
Dereplication - identification of previously identified bioactive compounds

Question 8

What types of synthetic compound techniques are employed?

Answer 8

Combinatorial libraries:

• Less structural diversity than natural products
• Focus on specific structure types for lead optimization
• Thousands to Millions of compounds

Virtual Libraries:

• used if structure of target is known
• compounds with high affinity are then screened in lab using appropriate bioassay
• composed of mostly synthetic compounds

Question 9

Desired characteristics to keep in mind during lead compound optimization

Answer 9

Selectivity, potency, absorption, metabolism, low toxicity, duration of action, ADME

Question 10

Examples of SAR studies

Answer 10

Structure-Activity Relationships:

1. Chain branching and homologation
2. Ring transformation
3. Classical and non-classical bioisosteric replacements

Question 11

What is CADD and what types are there?

Answer 11

Computer Assisted Drug Design - used SAR and QSAR to narrow the number of compounds to be tested in assays

Molecular modeling and structure based drug design

Question 12

Define Lipinski’s Rule of 5

Answer 12

A set of rules that help medicinal chemists decide which compounds have the highest likelihood of becoming a drug

1. A molecular weight under n500
2. Fewer than 10 hydrogen bond acceptors
3. Fewer than 5 hydrogen bond donors
4. A C log P value of less than 5 and greater than .5

Question 13

Define pharmacophore

Answer 13

The three dimensional arrangement of the essential functional groups necessary to cause a biological response (the minimum structural features necessary for activity)

Question 14

What is QSAR?

Answer 14

The use of math models to predict activity in untested compounds or define the structural features required for a good fit between the drug molecule and receptor

Question 15

Log P

Answer 15

A measure of how well a compound will dissolve in water as opposed to lipid

Question 16

C Log P

Answer 16

Also called calculated log p

Does not take into account ionization forms of the drug molecule at different pHs

Question 17

What is homologation?

Answer 17

Involves the elongation of a saturated carbon chain

Question 18

Define Isosteres

Answer 18

Molecules or ions with the same number of atoms and/OR the same number and arrangement of valence electrons

Question 19

Define classical bioisosteres

Answer 19

Groups of atoms that have chemical and physical similarities producing broadly similar biological properties; steric, electronic, and solubility characteristics make them interchangeable in drugs of the same pharmacological class

Question 20

Define nonclassical bioisosteres

Answer 20

Molecules or ions that share similar shapes, volumes, electronic distribution and physiochemical properties that together produce similar biological effects, but their structures do no follow an easily definable set of rules as above for classical isosteres. Steric size may be significantly different.

Question 21

What are eutomers and distomers?

Answer 21

Eutomer is the stereoisomer with higher receptor affinity or activity, while a distomer has lower.

Question 22

Name the different types of bonding interactions by decreasing strength.

Answer 22

Covalent, Ionic, Hydrogen, Ion-dipole, dipole-dipole, Hydrophobic (Van der Waals)

Question 23

How is Log P calculated

Answer 23

Log (Concentration of drug in ocanol/concentration of drug in water)

Question 24

What does the Log P represent?

Answer 24

A log P greater than 0.5 is insoluble; less than 0.5 is soluble in water

Question 25

Summarize an ideal drug

Answer 25

Must be transported by the body fluids, traverse biological membrane barriers, escape widespread distribution, endure metabolic attack, penetrate in adequate concentration at the sites of action, interact in specific fashion causing an alteration of cellular function

Question 26

What is the “first pass effect” and how is it avoided?

Answer 26

Movement of a drug through the gut, into the portal vein, and into the liver for metabolism.

Sublingual avoids the first pass effect, rectal partially avoids and parenteral entirely avoids, leading to 100 percent absorption

Question 27

What are some barriers to ADME?

Answer 27

Biological membranes including several layers of cell-skin, single layer of cells-skin, and cell membranes

Physical barriers include characteristics of the drug, formulation and protein binding in the blood stream

Question 28

Define bioavailability

Answer 28

The rate and extent to which an active drug ingredient or therapeutic moiety is absorbed from a drug product and becomes available at the site of action (mostly used as a parameter for intact drug that reaches the systemic circulation)

Question 29

Define Bioequivalence

Answer 29

The comparison of bioavailabilities of different formulations, drug products, or batches of the same drug product

Question 30

What are the two main types of transport across a cell membrane?

Answer 30

Paracellular which involves changing how two cells are connected or the use of a path in between adjacent cells

Transcellular which is the most widely used

Question 31

Types of transcellular transport and which follow Frick’s Law of Diffusion?

Answer 31

Endocytosis, Active, Facilitated and Passive

Active and facilitated only follow Frick’s Law of Diffusion at low concentrations but Passive follows Frick’s Law

Question 32

Name some examples of small polar molecule-s that are able to pass through membranes

Answer 32

Water, glycerol, urea and ethanol

Question 33

Name the two common membrane transport families

Answer 33

Solute Carrier Superfamily (SLC) and the ATP binding cassette superfamily (ABC)

ABC includes P-glycoprotein and are largely expressed on cell surface

Question 34

Describe PepT1

Answer 34

Member of SLC superfamily
ACE inhibitors are a common substrate for these channels
Proton depended for transport of di and tripeptides

Question 35

Describe P-Glycoprotein

Answer 35

• Also called multi-drug resistance protein (MDR1)
• Effluxes out man antineoplastic drugs
• Large expression in gut and blood brain barrier as well as other locations such as the small intestines, kidney, liver bile ducts, ovaries and placenta
• Always expressed in cancers
• Expressed on basolateral, or lumen side of the brain

Question 36

What is the effect of rifampin on digoxin

Answer 36

Causes overexpression of PGP, leading to a decrease in digoxin levels

Question 37

Name the organs of digestion and their purpose(s).

Answer 37

1. Oral cavity, teeth, and tongue
2. Salivary glands - enzymes break down carbs
3. Pharynx - propel material to esophagus by pharyngeal muscles
4. Esophagus - transport materials to stomach
5. Stomach - chemical and mechanical breakdown
6. Liver - secretion of bile for lipid digestion and storage of nutrients
7. Gallbladder - storage of concentration of bile
8. Pancreas - exocrine cells that secrete buffers and digestive enzymes; endocrine cells secrete hormones
9. Small intestine - enzymatic digestion and absorption of water, organic substrates, vitamins and ions
10. Large intestine - dehydration and compaction

Question 38

General functions of Digestive Tract

Answer 38

Ingestion, mechanical processing, digestion, secretion, absorption, compaction

Question 39

pH levels in the GI

Answer 39

Small intestine: Duodenum, Jejunum (5.7-6.4)
Stomach (1-2)
Small Intestine: Ileum (7.3-7.7)
Large Intestine (5.7-6.8)

Question 40

List factors that influence bioavailability of oral drugs

Answer 40

Drug substance physiochemical properties (lipid or water solubility, pH and pKa), Pharmaceutical ingredients (fillers, binders, coatings, disintegrative agents, lubricants, suspending agents, flavoring and coloring agents, preservatives and stabilizing agents), Dosage form characteristics (disintegration rate, dissolution time of drug in dosage form, product age and storage conditions), Physiological factors and patient characteristics (gastric emptying time, gastrointestinal abnormality or pathological condition, gastric contents, other drugs or food, fluids, GI pH), and Drug Metabolism

Question 41

What is it called when a drug is sent from the liver back to the GI tract?

Answer 41

Enterohepatic circulation

Question 42

What is the portal triad?

Answer 42

Formed of a branch from the bile duct, hepatic portal vein and hepatic portal artery

Question 43

What are different options for getting a drug through the epidermis?

Answer 43

Subcutaneous, intramuscular, intravenous, transdermal, and implantation

Question 44

What are the layers of the epidermis and which is the most difficult to cross?

Answer 44

Stratum corneum, stratum lucidum, stratum granulosm, stratum spinosm, stratum basale (stratum corneum most difficult)

Question 45

Name three cells of the epidermis and their function

Answer 45

Melanocytes - melanin producing
Langerhans cells - antigen presenting immune cells
Merkel cells - sensory cells

Question 46

What are the three main routes of skin absorption?

Answer 46

Intracellular, transappendageal using glands such as sebaceous/hair follicles and sweat ducts, and intercellular

Question 47

What are good sites for topical absorption?

Answer 47

Palms, soles, lower back and inside upper arms

Question 48

What variables differ between patients with regards to topical absorption?

Answer 48

Tissue thickness, lipid concentration, hydration, dequamation rate, hair and gland density, metabolism, age, gender, infections, burns and abrasions

Question 49

What characteristics make it so hard for drugs to absorb across the blood brain barrier?

Answer 49

1. Formation of tight junctions
2. Low rate of endocytosis
3. PGP expression

Question 50

What characteristics describe distribution across the placental barrier?

Answer 50

1. Some permeability of ions and essential vitamins
2. PGP serves protective role as in the blood brain barrier
3. Caffeine (along with some other drugs) has a high volume of distribution so pregnant women must monitor their consumption

Question 51

Describe the volumes of the body

Answer 51

Plasma = 4 liters
Interstitial volume = 10 liters (together they are extracellular volume)

Intracellular volume = 28 liters

Total = 42 liters

Question 52

What do the various volumes of distribution mean:

1. More than 40
2. Less than 40, such as 5
3. 14 or 15
4. 40

Answer 52

1. drug is sitting in highly enriched compartments of muscle and fat
2. stuck in plasma
3. in interstitial fluid or extracellular space
4. evenly distributed

Question 53

What influences volume of distribution?

Answer 53

Water solubility, lipid solubility, tissue binding, blood flow, extent of drug protein binding in plasma or tissue

Question 54

Name mediums of drug excretion

Answer 54

Urine, bile (major routes)

Sweat, expired air, breast milk or seminal fluid (minor routes)

Question 55

What are the possible consequence of biotransformation?

Answer 55

Decrease in activity (detoxification), Increase in polarity, Increase in activity or bioactiviation (prodrug), Increase in activity (toxification)

Question 56

What are the benefits of prodrugs?

Answer 56

Enhanced absorption, targeted-drug deliver-activation in specific site, improved distribution, formulation and administration, decrease in toxicity and decreased excretion

Question 57

What are the two phases of metabolism?

Answer 57

Phase 1:

• Oxidation, hydrolysis, reductive
• this phase adds or exposes a functional group

Phase 2 - Conjugative

• increases the size or hydrophilicity of drug molecules
• faster than phase 1 but require cofactors
• reactions include methylation, acetylation, sulfate conjugation, glucuronide conjugation, glutathione conjugation, and amino acid conjugation

Question 58

Describe the most studies enzyme in phase 1 metabolism

Answer 58

Cytochrome P450

• responsible for oxidation and reduction
• found in ER and traces in mitochondria
• contains HEME
• Utilizes NADPH and molecular oxygen in ER
• Mitochondria electron transfer occurs via redoxin reductase

Question 59

Describe grapefruit inhibition

Answer 59

Inhibits CYP3A4

• increases felodipine oral availability in humans by decreasing CYP3A4 protein expression
• inhibits excretory enzymes leading to drug buildup in the body