Week 9

Question 1

What is the overall purpose of Beta-Lactam treatment?

Answer 1

Prevention and treatment of bacterial infections.

Question 2

By what method is Penicillin administered?

Answer 2

Injection

Question 3

By what method are ampicillin, amoxycillin and cephalexin administered?

Answer 3

Orally

Question 4

What is the purpose of penicillin binding protein?

Answer 4

It creates cross-links within cell walls of bacterial cells therefore giving the cells formation and strength.

Question 5

What are the repeating units of bacterial cell walls?

Answer 5

N-acetylglucosamine and N-acetylmuramic acid.

Question 6

Describe the structure of N-acetylmuramic acid subunits.

Answer 6

Short peptide chains with 1 proximal L-alanine chain and 2 distal D-alanine chains.

Question 7

Outline the process by which Penicillin inhibits penicillin binding protein.

Answer 7

1) PBP binds to peptide side chains and forms cross links with the removal of D alanine from peptide side chains.
2) PBP dissociantes from the cell wall after the cross-links are formed.
3) Penicillin enters the active site of the PBP and reacts with a serine group (a amino acid used in the biosynthesis of proteins).
4) Beta-lactam ring of penicillin is irreversibly opened. Penicillin remains covalent linked to PBP which permanently blocks the active site.

Question 8

Describe the Pharmacokinetic properties of Penicillin G.

Answer 8

Acid Labile, widely distributed, rapid renal excretion.

Question 9

What is meant by a drug being acid labile?

Answer 9

It is easily destroyed in acidic envrionments.

Question 10

What is the common molecular structure of beta-lactam antibiotics?

Answer 10

4 atom ring

Question 11

By what process do beta lactase enzymes brea Beta-lactam rings?

Answer 11

Hydrolysis

Question 12

What penicillin type is known as ‘The prototype’?

Answer 12

Penicillin G

Question 13

Name a type of acid resistant penicillin.

Answer 13

Penicillin V

Question 14

Name a type of penicillin which is resistant to penicillinase.

Answer 14

Methicillin

Oxacillin

Question 15

Name some broad spectrum penicillins

Answer 15

Amoxicillin

Ampicillin

Question 16

Name some antipseudoma penicillins

Answer 16

Aziocillin

Piperacillin

Question 17

What type of antibiotic is Penicillinase?

Answer 17

Beta-lactamase

Question 18

What is meant by antibiotics having a broad spectrum?

Answer 18

They act on a wide range of disease causing bacteria - may be gram-positive or gram-negative.

Question 19

Describe the resistance of Oxacillin

Answer 19

Resistant to Penicilinase

Question 20

What type of bacteria does Oxacillin have an effect on?

Answer 20

Gram-positive only

Question 21

Describe the spectrum of Oxacillin

Answer 21

Narrow

Question 22

Describe the spectrum of Ampicillin

Answer 22

Wide

Question 23

What the of Bactria does Ampicillin have an effect on?

Answer 23

Mainly gram-negatives

Question 24

What type of Streptococci caused diseases are Penicillins used to treat?

Answer 24

Pneumonia, Meningitis, Pharyngitis, endocarditis, rheumatic fever.

Question 25

What type of infections are caused by Staphylococci and treated by Penicillins?

Answer 25

Skin and wound infections

Question 26

What type of diseases are caused by Costridia and are treated with Penicillin?

Answer 26

Tenatus and Gangrene

Question 27

What type of disease is caused by H.influenzar and is treated by penicillin?

Answer 27

Pneumonia

Question 28

What type of diseases are caused by E.coi and Pseudomonas Enterococci and are treated using Penicillin?

Answer 28

Urinary tract infections (acute only).

Question 29

What are the possible adverse reactions to Penicillin?

Answer 29

Tissue toxicity.
Hypersensitivity.
Immediate anaphylaxis.

Question 30

What is anaphylaxis?

Answer 30

An acute allergic reaction to an antigen.

Question 31

What is the overall purpose of beta-lactam?

Answer 31

Inhibits synthesis of the peptidogycan layer in bacterial cell wall.

Question 32

What is the overall purpose of beta-lactase enzymes?

Answer 32

Break the beta-lactam ring open via hydrolysis.

Question 33

What is Augmentin antibiotic a combination of ?

Answer 33

Clavulanic acid and Amoxycillin

Question 34

In an Augmentin antibiotic, what is the beta-lactam inhibitor?

Answer 34

Clavlanic acid

Question 35

Describe the antibacterial activity of Clavulanic acid

Answer 35

Weak

Question 36

What type of inhibitor is Clavulanic acid on beta-lactam?

Answer 36

Competitive and sometimes irreversible.

Question 37

What is the main purpose of Cephalosporins?

Answer 37

Inhibit synthesis of bacterial cell walls.

Question 38

Which drug do cephalosporins have similar ADME properties to?

Answer 38

Penicillins

Question 39

What are the possible adverse reactions to Cephalosporins?

Answer 39

Hypersensitivity
Thrombophlebitis
Nephrotoxicity

Question 40

What is hypersensitivity?

Answer 40

Un-desirable reactions produced by the immune system.

Question 41

What is thrombphlebitis?

Answer 41

Inflammation of the wall of a vein associated with thrombosis.

Question 42

What is nephrotoxicity?

Answer 42

Kidney damage due to the kidney being exposed to a drug or toxin that causes damage.

Question 43

What is the main benefit of using Cephalosporins over Penicillins?

Answer 43

They have a lower incidence of resistance.

Question 44

How many generations of Cephalosporins exist?

Answer 44

4

Question 45

What causes the different generations of Cephalosporins to be produced?

Answer 45

Modifications of side chains at positions 3 and 7 of the ring.

Question 46

What are 2nd generation Cephalosporins?

Answer 46

Methyl group on the beta-lactam ring is removed.

They have similar structure to generate 1 but are more active against gram negative bacteria

Question 47

What type of bacteria are 2nd generation Cephalosporins most active against?

Answer 47

Gram negative bacteria and Haemophilus influenzas.

Question 48

What are 3rd generation Cephalosporins?

Answer 48

R1 and R2 group changes so they become stable without refrigeration.
Increase activity.
Decreased activity in Gram positive Staphylococci.

Question 49

What are 3rd generation Cephalosorins often used to treat?

Answer 49

CNS infections

Question 50

In wha type of bacteria do 3rd generation Cephalosporins have a reduced effect?

Answer 50

Gram postive Staphylococci

Question 51

What additional feature does 4th generation Cephalosporins have in comparison to the other generations?

Answer 51

Quaternary N-methyl Pyrrolidine at R1

Question 52

Describe the resistance of 4th generation Cephalosporins

Answer 52

Highly resistant to beta-lactase

Question 53

Describe the spectrum of 4th generation Cephalosporins

Answer 53

Wide spectrum for both gram positive an gam negative bacteria

Question 54

Why do 4th generation Cephalosporins have minimal beta-lactamase activity?

Answer 54

There is rapid periplasmic penetration and high penicillin binding protein access.

Question 55

What is the effect of Isoniazid on bacteria

Answer 55

Inhibits cell wall (mycolic acid) synthesis

Question 56

What % of bacterial cell walls is comprised of Mycolic Acid?

Answer 56

40

Question 57

Describe the structure of Mycolic acid

Answer 57

Alpha-alkyl and beta-hydroxyl long chain fatty acids.

Question 58

What is the mycobacterial enzyme?

Answer 58

Peroxidase

Question 59

What does deletion of the peroxidase gene in bacteria cause?

Answer 59

Resistance to mycobacterial infections.

Question 60

What side effects are caused by Isoniazid ?

Answer 60

Peripheral neuropathy and other nervous system issues.

Question 61

What can be used to aid the effects of Isoniazid?

Answer 61

Vitamin B6

Question 62

What is Rifampicin used to treat and how?

Answer 62

Used to treat cancer, tuberculosis and leprosy.

Question 63

How is Rifampicin used to treat Mycobacterium infections?

Answer 63

It binds to RNA polymerase and inhibits bacterial RNA synthesis by inhibits the bacterial DNA dependent RNA polymerase

Question 64

What are the side effects of Riampicin?

Answer 64

Hepatoxicity

Question 65

What is hepatoxicity?

Answer 65

A substance which can be damaging to the liver cells

Question 66

What effect does Chloramphenicol have as an antibiotic protein synthesis inhibitor ?

Answer 66

It binds to the 50s section of the ribosome and inhibits formation of peptide bonds. Affects translation.

Question 67

What effect do Lincosamides have as antibiotic protein synthesis inhibitor?

Answer 67

They bind to the 50s section of ribosomes and inhibit the formation of peptide bonds. Affects translation.

Question 68

What effects do Streptomycin have as antibiotic synthesis protein inhibitors?

Answer 68

Change the shape of the 30s portion of ribosomes and cause the mRNA code to change and be read differently.

Affects translation

Question 69

What effects do Aminoglycosides have as antibiotic protein synthesis inhibitors?

Answer 69

They prevent f-met binding and the formation of the initiation complex during translation.

Question 70

What type of antibiotic is erythromycin?

Answer 70

A macrolide

Question 71

When is Erythromycin often used as an antibiotic treatment?

Answer 71

When people are allergic to penicillin

Question 72

What treatment is often used for people who are allergic to penicillin ?

Answer 72

Erythromycin

Question 73

How does Erythromycin work as an antibiotic inhibitor of protein synthesis?

Answer 73

It causes removal of the tRNA molecules and translocation of the peptide tRNA.

Question 74

How does the synthesis of precursors cause antibiotic inhibition?

Answer 74

Prevents formation of purine and pyrimidine bases.

Question 75

How do inhibitors of DNA replication act as antibiotic resistors?

Answer 75

They prevent the action of bacterial gyrase

Question 76

How do inhibitors of RNA polymerase act as antibiotic inhibitors?

Answer 76

They prevent RNA synthesis and have a higher affinity to bacterial RNA polymerises.

Question 77

What are the different classes of antiviral drug treatments used against HIV?

Answer 77

Enty Inhibitors

Protease Inhibitors

Nucleoside reverse transcriptase inhibitors and nucleotide reverse transcriptase inhibitors.

Non-nucleoside reverse transcriptase inhibitors.

Question 78

How are entry inhibitors used to treat HIV?

Answer 78

They interfere with binding, fusion and entry of HIV to hose cells by blocking one of several targets.

Question 79

How do protease inhibitors work when treating HIV?

Answer 79

Inhibit activity of protease

Question 80

How do nucleoside reverse transcriptase inhibitors work to treat HIV?

Answer 80

Inhibit reverse transcription by incorporation into newly synthesised viral DNA strands as faulty nucleotides.

Question 81

How are non-nucleoside reverse transcriptase inhibitors used to treat HIV?

Answer 81

They inhibit reverse transcriptase by binding to the allosteric site of the enzyme and acting as a non-competitive inhibitor of reverse transcriptase.

Question 82

What is Acyclovir ?

Answer 82

A nucleoside reverse transcriptase inhibitor used to treat Herpes and HIV.

Question 83

What is Acyclovir used to treat?

Answer 83

Herpes and HIV

Question 84

What causes Acyclovir to be a prodrug?

Answer 84

After phosphorylation to acyclovir-GTP, it has a 100x greater affinity for viral polymerase.

Question 85

How does Acyclovir work against Herpes and HIV?

Answer 85

Incorporation into viral DNA causes premature chain- termination and prevents viral replication.

Question 86

What effect does Acyclovir have on HIV-1?

Answer 86

Its progress is delayed.

Question 87

What are the possible mechanisms of antibiotic resistant?

Answer 87

Target site alteration.
Access to target site modification.
Inactivation of antibiotics.
Extrusion.

Question 88

How does target site alteration act as a mechanism of antibiotic resistance?

Answer 88

Target site alteration is used to reduce the affinity of the antibiotic without impairing norma cellular function.

Question 89

How does target site alteration of cell walls occur as a method of antibiotic resistance?

Answer 89

Penicillin binding proteins shit in the amino acid sequence and reduce the affinity for penicillin.

Question 90

How does target site alteration of protein synthesis occur as a method of antibiotic resistance?

Answer 90

The covalent bonding in ribosomes is altered due to changes in the amino acid sequence. This reduces the affinity for Erythromycin and tetreacycline.

Question 91

What effect does access to target side modification have on antibiotic resistance?

Answer 91

Affects the ability of an antibiotic to enter the bacterial cell and gain access to the target site.

Question 92

How is the access to the target site of a bacterial cell altered as a mechanism of antibiotic resistance?

Answer 92

There are alterations to the composition of the bacterial membrane or cell wall which can reduce permeability for an antibiotic.

Question 93

How is the inactivation of antibiotics caused by effecting cell walls?

Answer 93

Occurs as beta-lactamases inactvative penicillin by catalysing lactam ring cleavage.

Question 94

How does inactivation of antibiotics occur due to affecting protein synthesis?

Answer 94

Aminoglycoside modifying enzymes and chloramphenicol transferases prevent disruption of protein synthesis by modifying antibiotic structure.

Question 95

What is extrusion in terms of antibiotics?

Answer 95

Antibiotic enters bacteria, but rapid expulsion lowers cytoplasmic antibiotic concentration.

Question 96

What is meant by specific drug resistance?

Answer 96

Organism resistant to one drug

Question 97

What is multi drug resistance ?

Answer 97

Organisms resistant to more than one drug

Question 98

Define Chemotherapy

Answer 98

The use of drugs to treat disease.

Question 99

Define Antimicrobial

Answer 99

A drug that inhibits growth of microorganisms.

Question 100

Define Antibacterial

Answer 100

Substances used to disinfect non-living surfaces.

Question 101

Define antibiotic

Answer 101

Class of drugs used to treat bacterial infections by producing a microbe, in small amounts, that will inhibit another microbe.

Question 102

Define anti-fungals

Answer 102

A class of drugs used to treat fungal infections.

Question 103

Define antivirals

Answer 103

A class of drugs used to treat viral infections

Question 104

In what year did Fleming discover Penicillin?

Answer 104

1928

Question 105

Which strain of Penicillin did Fleming initially discover?

Answer 105

Peicillium Notatum

Question 106

When were the first clinical trials of Penicillin carried out and by who?

Answer 106

1940 by Howard Florey and Ernst Chain

Question 107

In the first treatment with Penicillin, what was used when the dose of Penicillin ran out?

Answer 107

The patients urine was purified and re-injected.

Question 108

How are antibiotics classified?

Answer 108

By their mechanisms of action, their chemical structure, their spectrum of activity

Question 109

What is meant by the spectrum of an antibiotic ?

Answer 109

The different types of microorganism (from gram-positive to gram-negative) that it can act on.

Question 110

What are the possible target sites for antibiotics?

Answer 110

Inhibition of cell wall synthesis.

Inhibition of protein synthesis.

Inhibition of nucleic acid replication and transcription.

Injury to the plasma membrane.

Inhibition of synthesis of essential metabolites.

Question 111

What are the desirable antimicrobial properties of an antimicrobial?

Answer 111

Selectivity
Broad Spectrum
‘Cidal activity

Question 112

What is ‘cidal activity?

Answer 112

Kills bacteria without reliance on the patients immune system.

Question 113

What are the desirable pharmacological properties of an antimicrobial?

Answer 113

Non-toxic to the host.

Good tissue distribution.

Low plasma protein binding.

Oral and parenteral dosing forms.

No interference with other drugs.

Question 114

What is meant by the therapeutic index of a drug?

Answer 114

The ratio of the toxic dose and the therapeutic dose.

Question 115

Define therapeutic dose of a antibiotic

Answer 115

The level of antimicrobial required for clinical treatment of a particular infection.

Question 116

Define toxic dose of a antibiotic

Answer 116

The level of antimicrobial at which the antibiotic becomes too toxic for the host.

Question 117

What is meant by antibiotics being bactericidal?

Answer 117

Antibiotics that target bacteria cell wall or membrane or interfere with enzymes have bactericidal activity.

Question 118

What are antibiotics that are bacteriostatic?

Answer 118

They usually target protein synthesis in bacterial cells.

Question 119

Are bactericidal or bacteriostatic drugs generally more effective?

Answer 119

Bactericidal

Question 120

What value is used to determine the effectiveness of an antibiotic?

Answer 120

The MIC (Minimum inhibitory Concentration).

Question 121

What is the MIC (Minimum Inhibitory Concentration) of an antibiotic ?

Answer 121

The west concentration of an antibiotic that prevents growth of the bacterium.

Question 122

Name factors that affect antibiotic concentration.

Answer 122

Dose
Route of Administration
Absorption
Extent of Protein Binding
Rate of metabolism
Rate of excretion

Question 123

What concentration must an antibiotic have in the body to be effective?

Answer 123

Must have a concentration at the site of infection that is above the MIC of the bacterium it is targeting.

Question 124

In what year was antibiotic inhibition of bacterial cell wall synthesis discovered?

Answer 124

1947

Question 125

Outline the mechanism for antibiotic inhibition of bacterial cell wall synthesis.

Answer 125

Selectively acts on membranes rich in phosphatidlethanolamine.

Question 126

What type of bacteria does the method of antibiotic inhibition of cell wall synthesis work on?

Answer 126

Works on many gram-negative rods but is ineffective against gram-positives.

Question 127

Describe the effectiveness of antibiotics crossing cell membranes.

Answer 127

Very poor

Question 128

Where are antibiotics excreted in the body?

Answer 128

Via the kidneys

Question 129

Describe the distribution properties of antibiotics

Answer 129

Don’t distribute very well

Question 130

What locations are antibiotics which inhibit bacterial cell wall synthesis usually used in?

Answer 130

Used in topical locations

Question 131

What are the adverse reactions of antibiotics which inhibit cell wall synthesis?

Answer 131

Nephrotoxicity and Neurotoxicity

Question 132

Outline the mechanism of action of Polymyxin B

Answer 132

After binding Lipopolysaccharides in the outer membrane of gram-negative bacteria, Polymxins disrupt both the outer and inner membranes of bacteria.

Question 133

Why is the hydrophobic tail of Polymyxin B important to inhibiting cell wall synthesis of bacterial cells?

Answer 133

Is causes membrane damage with a detergent-like model of action.

Question 134

Which is the cell wall an ideal target for chemotherapy?

Answer 134

Cell walls are present in bacterial and fungal cells but not in mammalian cells.

Question 135

Where does peptidoglycan precursor formation for bacterial cell wall production occur ?

Answer 135

Inside the cell

Question 136

What inhibitor is used to block peptidoglycan precursor formation when forming bacterial cell walls?

Answer 136

Cycloserine

Question 137

Where in a bacterial cell does transport and peptidoglycan formation occur?

Answer 137

Cell membrane

Question 138

What inhibitor is used to inhibit transport and peptidoglycan formation in bacterial cells?

Answer 138

Bacitracin Vancomycin

Question 139

Where in bacterial cells does cross linking of peptidoglycan chains occur?

Answer 139

Outside the cell

Question 140

What inhibitor is used to inhibit the cross linking of peptidoglycan chains in bacterial cell walls?

Answer 140

Penicillins Cephalosporins

Question 141

What are cycloserine structurally similar to?

Answer 141

D-alanine

Question 142

In what type of organisms is cycloserine found?

Answer 142

Gram positive peptidoglycan tetra peptide

Question 143

What are the clinical uses Cycloserine?

Answer 143

Used in tuberculosis treatment.

Question 144

What is the purpose of Bacitracin in bacterial cells?

Answer 144

It is requires as a carrier during peptidoglycan synthesis.

Question 145

How does Bacitracin create a carrier for bacteria?

Answer 145

Inhibits the dephosphorylation of udecaprenyl phosphate to produce a carrier.

Question 146

Outline the mechanism by which Vancomycin inhibits cell wall production in bacterial cells.

Answer 146

It is a glycopeptide which binds with high affinity D-ala-D-ala terminus of the cell wall precursor units.
This prevents cross-linking and disrupts peptidoglycan synthesis.

Question 147

What type of molecule is Vancomycin?

Answer 147

Glycopeptide

Question 148

Describe the spectrum of Vancomycin

Answer 148

Narrow

Question 149

What are the side effects of Vancomycin as an antibiotic?

Answer 149

It can be Ototoxic

Question 150

What is Ototoxicity?

Answer 150

Toxic to the ear

Question 151

What are the clinical uses of Vancomycin?

Answer 151

Used to treat MRSA

Question 152

How does Vancomycin affect sensitive bacteria?

Answer 152

It binds to 2 D-ala residues on the ends of peptide chains. This prevents the peptide chains from interacting with cell wall cross-linking enzymes. The cell wall strands are synthesises but not cross linked, so the cell walls fall apart.

Question 153

How does Vancomycin affect resistant bacteria?

Answer 153

Vancomycin cannot bind D-lactate residues, peptide chains interact with cell wall cross-linking enzymes and form stable cross-links.

Question 154

What is the structure of beta-lactam?

Answer 154

A 4 membered cyclic amide ring.

Question 155

What are beta-lactam’s attached to a 6 membered ring called?

Answer 155

Cephalosporins

Question 156

What are beta-lactam’s attached to a 5 membered ring called?

Answer 156

Penicillins or Penems

Question 157

What are beta-lactams attached to no rings called?

Answer 157

Monobactams

Question 158

Why are penicillin binding proteins essential for cellular survival and growth in bacteria?

Answer 158

They create cross links in cell walls.

Question 159

How can Penicillin binding proteins be identified?

Answer 159

By the binding of radioactive benzylpenicillin.