1. biotechnology basics

Question 1

this is the use of tissue culture, living cells, or cellular enzymes to produce a defined product

Answer 1

biotechnology

Question 2

most biotechnology based pharmaceuticals are _____ based

Answer 2

protein

Question 3

Most biopharma medications are developed for these three conditions

Answer 3

1. cancers
2. rare disease
3. neurological disorders

Question 4

is DNA synthesized from a single-stranded RNA template in a reaction catalyzed by the enzyme reverse transcriptase. cDNA is often used to express a specific protein in a cell that does not normally express that protein, or to sequence or quantify mRNA molecules using DNA based methods.

Answer 4

cDNA (complementary DNA)

Question 5

this is a series of events that takes place in a cell as it grows & divides

Answer 5

cell cycle

Question 6

an increase in cell mass

Answer 6

cell growth

Question 7

this is DNA that forms a closed loop that has no ends and provides antibiotic resistance to bacteria. e.g. plasmids

Answer 7

circular DNA

Question 8

create copies of a particular gene for downstream applications, such as sequencing, mutagenesis, genotyping or heterologous expression of a protein.

Answer 8

gene cloning

Question 9

the process where the genomes DNA is copied in cells. occurs during cell division

Answer 9

DNA replication

Question 10

a group of enzymes that break the phosphodiester bond present within the polynucleotide chain of a DNA molecule

Answer 10

endonuclease

Question 11

the process by which the information encoded in a gene is turned into a function.

Answer 11

gene expressions

Question 12

is the process of making an RNA copy of a gene’s DNA sequence.

Answer 12

gene transcription

Question 13

a small circular DNA molecule found in bacteria and other microscopic organisms.

Answer 13

plasmid

Question 14

the process in which cells make proteins

Answer 14

protein synthesis

Question 15

what are the building blocks of genetic materials?

Answer 15

DNA/RNA -> nucleotides & nucleosides

Question 16

what are the building blocks of peptides/proteins

Answer 16

amino acids

Question 17

what are the building blocks of oligosaccharides

Answer 17

carbohydrate sugars

Question 18

what are the 5 nucleotides

Answer 18

guanine, cytosine, adenine, thymine and uracil

Question 19

_____ (primary/secondary/tertiary/quaternary) protein structure is sequence of a chain of amino acids

Answer 19

primary

Question 20

___________ (primary/secondary/tertiary/quaternary) protein structure occurs when the sequence of amino acids are linked by hydrogen bonds

Answer 20

secondary

Question 21

________ (primary/secondary/tertiary/quaternary) occurs when certain attractions are present between alpha helices and pleated sheets

Answer 21

tertiary_

Question 22

______ (primary/secondary/tertiary/quaternary) is a protein consisting of more than one amino acid chain

Answer 22

quaternary

Question 23

there are four groups of amino acids: Glu and Asp are a part of what group

Answer 23

acidic side chains

Question 24

there are four groups of amino acids: Lys, Arg and His are a part of what group

Answer 24

basic side chains

Question 25

there are four groups of amino acids: Asn, Gln, See, Thr, Tyr are a part of what group

Answer 25

uncharged polar side chains

Question 26

there are four groups of amino acids: Ala, Val. Leu, Ile, Pro, Phe, Met, Trp, Gly, Cys are a part of what group

Answer 26

nonpolar side chains

Question 27

_____ and ______ are terms used in pharmacy to define how much os the active drug is available for us

Answer 27

stability and degradation

Question 28

true/false: unique protein drugs can retain 100% of the chemical composition of the biologically active protein yet be biologically inactive

Answer 28

true

Question 29

what processes cause degradation of traditional drugs

Answer 29

chemical instability
- oxidation
- hydrolysis
- racemizaitopn

Question 30

what are the two main processes that cause the degradation of protein drugs

Answer 30

• chemical instability
• physical instability

Question 31

this is covalent bond modifications of proteins via bond formation or cleavage (e.g. deamination, hydrolysis, oxidation, racemization, beta-elimination

Answer 31

chemical instability

Question 32

this type of chemical instability process affects Amino acids that contain an amide (e.g. asparagine - Asn or glutamine (Gln)
amide gets converted to an acid (OH)

Answer 32

deamination

Question 33

this type of chemical instability process affects peptide bonds of amides, especially when Pro is next to Asp

Answer 33

hydrolysis/proteolysis

Question 34

this type of chemical instability is a major degradation pathway of proteins both in solution and lyophilized formulations. occurs in the presence of atmospheric oxygen

Answer 34

oxidization

Question 35

______ containing amino acids are common targets of oxidation. this is due to the attraction of the nucleus to the valence electrons of _____ is not strong therefore easier to give up electrons for oxidation (e.g. cysteine and methionine)

Answer 35

sulfur

Question 36

true/false: unpaired cysteines can be oxidized to form cysteine disulfide

Answer 36

true

Question 37

this type of chemical instability is a reduced a SH on one cysteine can undergo exchange with another disulphide bond

Answer 37

disulfide exchange

Question 38

true/false: a change in disulfide bonding will dramatically change the protein structure `

Answer 38

true

Question 39

why would disulphide exchange or oxidation of an unpaired cysteine create a problem for proteins?

Answer 39

because such modifications will create new protein structures

Question 40

all amino acids, except for ____, in mammalian biology are the L-amino acids

Answer 40

Gly

Question 41

this process is the conversion of L-amino acids to D,L mixtures of amino acids.

Answer 41

racemization

Question 42

what are the two labile amino acids that undergo deamination and racemization?

Answer 42

Asn, Gln

Question 43

what is a labile amino acid that undergoes proteolysis and racemization

Answer 43

Asp

Question 44

what are the five amino acids that under go oxidation

Answer 44

Met, Cys, His, Top and Tyr

Question 45

what are the three amino acids that undergo beta-elimination and racemization

Answer 45

Ser, Thr, Cys

Question 46

what is a labile amino acid that undergoes disulfide exchange and oxidation

Answer 46

Cys

Question 47

this type of instability results in changes in protein secondary, tertiary and quaternary structures. no chemical bond formation or cleavage. predominant in large proteins

Answer 47

physical instability

Question 48

true/false: peptides of >20 amino acids will degrade only by chemical instability since they have a complex secondary and tertiary structure

Answer 48

false -> peptides of < 20 AA will degrade only by chemical instability since they DO NOT have complex secondary and tertiary structures

Question 49

what are the four types of physical degradation

Answer 49

• denaturation
• adsorption to surfaces/interfaces
• aggregation
• precipitation

Question 50

this type of physical degradation is known as the disruption of secondary and/or tertiary structures. may or may not be reversible. is caused by heat, extreme pH and chemicals. typically involves the unfolding of proteins

Answer 50

protein degradation

Question 51

when a protein is degraded, is it water soluble or water insoluble?

Answer 51

water insoluble - because the hydrophobic components become exposed when the protein is denatured

Question 52

this type of physical degradation is the preference of molecules to localize at an interface (e.g. solid-liquid, air-liquid)

Answer 52

adsorption

Question 53

proteins are ______ molecules which have both hydrophilic and hydrophobic amino acid residues

Answer 53

amphiphilic

Question 54

true/false: larger proteins tend to adhere to surfaces more than smaller proteins

Answer 54

true

Question 55

disulfide linked proteins are ___ (more/less) likely to unfold and will be less surface active

Answer 55

less

Question 56

proteins may desorb, which is the removal of the protein from the surface and return it to the solution. once the protein desorbs, its hydrophobic residues/domains will be exposed to the water which will lead to either ________ or ________

Answer 56

aggregation or precipitation

Question 57

________ results from the interactions between the hydrophobic portions of DIFFERENT denatured protein molecules

Answer 57

aggregation

Question 58

immunogenicity is a complex immunological phenomenon affected by various factors. __________ have the potential to trigger an immune response in a patient, which can:
- decrease a drugs effectiveness
- cause harmful side effects

Answer 58

protein aggregates (or denatured proteins)

Question 59

what are some additives used for prevent protein adsorption?

Answer 59

surfactants, other proteins (e.g. albumin), phospholipids

Question 60

true/false: surfactants, proteins (e.g. albumin) and phospholipids are all amphillic and/or have surface activity

Answer 60

true

Question 61

why is albumin used to prevent/minimize other protein adsorption?

Answer 61

• it is very water soluble because it is highly charged
• contains several disulphide bonds (very stable)
• competitor for inter-surface phenomenon (decreased chances of intermolecular interactions of the protein interested)

Question 62

true/false: protein solutions should be shaken

Answer 62

false!!! air bubbles provide a new interface for proteins to adhere to

Question 63

list some agents that are used to prevent protein aggregation

Answer 63

• sugars and salts (favour a compact state of the protein)
• polyols, PEGs and other polymers
• free amino acids (arginine)

Question 64

_______ may aggregate/precipitate in the reservoir of _____ pumps; precipitates may block/obstruct the intake of the drug and therefore the patient will not receive the correct dose of ______

Answer 64

insulin

Question 65

what are some reasons aggregation of insulin pumps may occur?

Answer 65

• body temperature
• agitation of insulin in reservoir with air
• adsorption of insulin to hydrophobic surfaces of air and PVC

Question 66

true/false: total protein content (by protein assay) may not reflect its biological activity as its conformation can not be revealed by its protein contents. therefore, must perform a bioassay as well in addition to assaying for total protein

Answer 66

true

Question 67

true/false: both chemical and physical degradation result in a loss go biological activity

Answer 67

true

Question 68

k is known as the first order rate constant; the _______ (smaller/larger) the magnitude of k, the faster the degradation of active drug

Answer 68

larger

Question 69

this type of degradation (physical or chemical) is assayed by a measure of the amount of intact protein using electrophoresis

Answer 69

chemical degradation

Question 70

this type of degradation (physical or chemical) is harder to measure; measure the biological activity of protein (e.g. clot lysis assay to t-PA)

Answer 70

physical degradation

Question 71

this drug is a tissue plasminogen activator (rt-PA). its indications include acute M.I. and pulmonary embolism

Answer 71

Activase (altepase)

Question 72

true/false: degradation is additive

Answer 72

true

Question 73

are most protein based drugs in the lyophilized form or solution form

Answer 73

most in lyophilized form b/c degradation reaction is accelerated when proteins are in solution

Question 74

what are some methods used to enhance protein stability

Answer 74

• pH (buffer)
• decrease temperature
• light
• oxygen content (nitrogen flushing)
• excipients (antioxidants, chelating agents, ionic strength)
• lyophilization

Question 75

• genetic engineering
• replace certain chemical reactive amino acids with those that are less reactive
• replace/intorduce certain amino acids to stabilize protein conformations
• biological activity must be retained

Answer 75

enhancement of in vivo protein stability

Question 76

what are some ways that amino acids can be used for mutagenesis

Answer 76

• replace asparagine (undergoes deamination) with serine (avoids deamination)
• introduce additional Cys to enhance disulphide bridges and stabilize conformation
• introduce amino acids that improve hydrophobic packing to maximize hydrogen bonding
• introduce salt bridges
• replace Glycerol & Pro by Ala to reduce the conformational freedom of Gly and Pro

Question 77

these two amino acids are alpha helical breakers

Answer 77

proline and glycine

Question 78

this amino acid tends to break or kink helices because
- it cannot donate an amide hydrogen bond (having no amide hydrogen)
- its side chain interferes sterically
- its ring structure also restricts its backbone

Answer 78

proline

Question 79

this amino acid tends to disrupt alpha helices because
- its high conformational flexibility (due to its small size) makes it entropically expensive to adopt the relatively constrained alpha helical structure

Answer 79

glycine

Question 80

what are some challenges with protein drug delivery?

Answer 80

• poor oral bioavailability
• protein denaturation in the digestive system
• acid hydrolysis in the stomach
• enzymatic degradation
• poor absorption due to size
• poor absorption due to polar charge/distribution

Question 81

what are some different example of parenteral delivery?

Answer 81

• IV administration
• subcutaneous injection
• continuous subcutaneous infusion (pumps)
• continuous intraperitoneal infusion
• intrathecal

Question 82

what are some alternative formulations used for parenteral routes of protein drugs (alternative to solutions)

Answer 82

• liposomes
• micro encapsulations coated with polymers

Question 83

what are some alternative routes of delivery of protein drugs besides injection

Answer 83

• inhaler
• intraocular
• intranasal

Question 84

is an injection or continuous infection of protein drugs more beneficial

Answer 84

continuous infusion because it doesn’t spike out of therapeutic range and cause side effects like an injection would and does waste drug

Question 85

what are the four types of liposomes

Answer 85

• conventional
• stealth
• targeted
• cationic

Question 86

what are some advantages and disadvantages of intra-ocular drug delivery

Answer 86

ADVANTAGES
- convenient
- rapid systemic absorption
- bypass first pass metabolism
- dosing controlled precisely

DISADVANTAGES
- low systemic bioavailability

Question 87

what are some advantages of nasal delivery of protein based drugs

Answer 87

• highly vascularized (quick absorption)
• milder pH (limited metabolism/destruction of protein based drugs)
• avoidance of first pass metabolism

Question 88

this nasal spray contains calcitonin
it was approved in 2104 to treat certain bone problems (such as Pagets disease, postmenopausal osteoporosis) and to reduce high blood levels of calcium

Answer 88

Miacalcin (Salmon Calcitonin) nasal spray

Question 89

what are the FOUR ways calcitonin affects blood calcium levels

Answer 89

• inhibits calcium absorption by the intestines
• inhibits osteoclast activity in the bones
• inhibits phosphate reapportion by the kidney tubules
• inhibits tubular reabsorption box calcium, leading to increased rates of its loss in urine

Question 90

true/false: most proteins are kept at high temperatures

Answer 90

false - most kept at cold temperatures
exception is Alteplase

Question 91

most proteins may adhere to either plastic or glass containers. the effectiveness of the products could be reduced by 3-4 fold due to adherence. ________ is added to reduce adherence

Answer 91

human serum albumin (HSA)

Question 92

this medication is used for the treatment of cystic fibrosis. it is packaged in protective foil pouches provided by manufacture. stored in original light protective container. light protective pouches for travellers can be obtained from the manufacturer by patients who are going to travel.

Answer 92

dornase alfa (PULMOZYME)

Question 93

this medications lyophilized form is light sensitive. solution after reconstitution is not light sensitive

Answer 93

Alteplase

Question 94

what are some travel/shipping requirement for protein drugs

Answer 94

• stored in insulated, cool containers
• ice packs in warmer climates
• be cautious to protect the protein from freezing in the sub-freezing weather
• do not place protein products in direct contact with ice
• avoid using dry-ice
• place protein products in an insulated package not in a cargo container

Question 95

true/false: when preparing protein drugs, it is important to shake them well

Answer 95

false - swirl the container - do not shake

Question 96

true/false: most patients using protein products are immune compromised

Answer 96

true

Question 97

what is the general sterility policy for protein drugs after reconstitution in the hospital

Answer 97

72 hours

Question 98

what is the general sterility policity for protein drugs reconstituted at home

Answer 98

a 7 day expiration date is used, provided the product is stable and kept in the refrigerator

Question 99

this is not recommended as most proteins will adhere to the filter. inline filters for TPN patients: protein products should be infused below the filter

Answer 99

filtration

Question 100

what are some education points for those who are using parenteral protein drugs at home?

Answer 100

• make sure they are capable to handle, reconstitute and inject
• clean area and has a storage facility
• the patient is rotating the injection site

Question 101

describe the normal clotting process

Answer 101

stage 1: blood vessels are damaged and bleeding starts
stage 2: blood vessels contract to slow the flow of blood to the injured area
stage 3: platelets stick to, and spread on, the walls of damaged blood vessels. these spreading platelets release substances that activate other nearby platelets which clump at the site if injury to form a platelet plug
stage 4: the surface of these activated platelets then provides a site for blood clotting to occur. clotting proteins like factor VIII (8) and factor IX (9) circulating in the blood are activated on the surface of the platelets to form a mesh-like fibrin clot

Question 102

what is the difference in clotting between a healthy individual and someone who has a bleeding disorder?

Answer 102

HEALTHY INDIVIDUAL
the bleeding starts, vessel’s constrict, platelet plug, fibrin clot formed

BLEEDING DISORDER
the bleeding starts, vessels constrict, incomplete platelet plug, incomplete formation of fibrin clot