Lecture 5: Penicillins

Question 1

What is important to know about Gram (+) Bacteria Structure?

Answer 1

• Drugs penetrate easier
• Increased B-lactamases
• Thick cell wall
• One Membrane
• Bridge between L-Lys & D-Ala

Question 2

What is important to know about Gram (-) Bacteria Structure?

Answer 2

• Excludes Drugs [Has Porins Tho]
• B-lactamases in Periplasmic Space
• Thin cell wall
• Two Membrane [Inner & Outer]
• Bridge between DAP

Question 3

Explain how Transpeptidase cross-links peptidoglycaon strands together?

Answer 3

• Transpeptidase catalyzes peptidoglycan structure kicking off 1 D-Ala
• Another peptidoglycan amino group binds to the other peptidoglycan structure
• = Peptide-D-Ala-Gly-Gly-Peptide [Crosslinked]

Question 4

What is the Mechanism of Action for the Penicillins?

Answer 4

• Penicillins act like the Peptidoglycan Structure “fooling” the transpeptidase to bind to it inactiving it [NO CROSS-LINKS]

Question 5

Why do Penicillins display selective toxicity for bacteria and NOT the host?

Answer 5

• Bacteria contain D-Ala which is not found in host cells
• Host has L-Ala

Question 6

What are some of the ways that are Resistance to B-Lactams?

Answer 6

• Decreased Uptake of Drug
• Mutation of PBPs
• Efflux Pumps [move drug out]
• B-Lactamases [they will break the B-Lactam ring = inactived]

Question 7

What is the meachanism of allergenicity of Penicillins?

Answer 7

• B-lactam acts as Hapten [Pharmacophore of drug]
• Allerigies to 1 B-lactam = probably ALL [could try Cephalos or Carbas]

Question 8

What is the mechanism of Penicillin Degradation under Acidic and Basic conditions?

Answer 8

• Ring breaks open??

Question 9

In what way does lipophilicity of Penicillins affect serum protein binding?

Answer 9

• Increases ClogP = Increases lipophilicity
• More lipophilic side chains = more protein binding [decreases degradation]
• Reducing bioavailability
• Does not affect half-life

Question 10

What are the Penicillin excretion mechanisms?

Answer 10

• Excreted renally and biliary [90% Tubular & 10% Glomarular]
• Half life longer in kidney disease
• Penicillins are anioinic [so is probenecid] so increased half life

Nafcilin = Billiary

Question 11

What is the way that Penicillins are distributed in the Body?

Answer 11

• Basically everywhere except the CSF [if meningitis; use parenteral to enter CSF]

Question 12

What is the way that Penicillins are synthesized?

Answer 12

• Made by acykation of 6-APA

Question 13

From Left to Right; what is the Nomenclature of the B-lactam ring system?

Answer 13

• Penam
• Penem
• Carbapenem
• Caphem
• Monobactam

Question 14

What are the characteristics of Penicillin G [Benzylpenicillin]?

Spectrum? B-lactamase Sens? Dosage? Toxicity? Precautions?

Answer 14

• Spectrum: Gram (+) with N. Gonorrhoeae & H. Influenzae [resistance is common]
• B-lactamase Sens: YES
• Dosage: Oral or Parenteral [most effective]
• Toxicity/Precautions: Allergic reaction –> use with cautions if so

Question 15

What are the characteristics of Bicillin C-R [Bensylpenicillin Benzathine and Benzylpenicillin Procaine]?

Pharmacokinetics? Administration? Use?

Answer 15

• PK: Low solubility = slow release from IM [Depo]
• Administration: ONLY IM [IV = cardiac death & near nerve = neuro damage]
• Use: Mod - Severe URTi, Scarlet Fever, Skin/Soft Tissue infections…

Question 16

What is the main difference between Penicillin V and Penicillin G?

Chemical Feature?

Answer 16

• PenV is more stable in acid; ether Oxygen decreasing nucleophilicity of the amide carbonyl side chain

Question 17

What are the major B-lactamase Resistant Parenteral Penicillins?

Anti-staph?

Answer 17

• Methicillin
• Nafcillin
• Oxacillin

Question 18

What are the major B-lactamase Resistant Oral Penicillins?

Anti-staph

Answer 18

• Oxacillin [D/C’d]
• Clozacillin [D/C’d]
• Dicloxacillin

Question 19

What are the B-lactamase Sensitive Broad Spectrum Oral Penicillins?

Amino?

Answer 19

• Ampicillin
• Amoxicillin

Question 20

What are the B-lactamase Broad Spectrum Parenteral Penicillins?

ureido?

Answer 20

• Azlocillin
• Mezlocillin
• Piperacillin

Question 21

What is the way that Methicillin confers resistance to hydrolysis by B-lactamases?

Answer 21

• 2 Methoxyls ORTHO to the amide; stop nucleophilic attacks; increasing stablilty

Question 22

What is the way, chemically, that Methicillin is so unstable to hydrolysis under acidic conditions?

Answer 22

• Electron donation toward the amide cabonyl oxygen by the o-methoxy group, making the amide conbonyl oxygen more nucleophilic

Question 23

What is the antibiotic spectrum for Methicillin?

Answer 23

• NARROW
• Was used to treat S. Aureus BUT MRSA was formed becase of PBP mutation [PBP2A]

Question 24

What is the characteristics of Nafcillin with respect to B-lactamase sensitivity and acid stability?

Answer 24

• B-lactamase Sens: NO
• Slightly more stable than methicallin in acid because of big ring [clinically identicial tho]

Question 25

What is the structural similarites between Oxacillin, Cloxicillin, and Dicloxacillin?

Answer 25

• Oxacillin: Ring only
• Cloxacillin: Cl on ring
• Dicloxacilin: 2 Cl on Ring

Question 26

What are the charatcteristics of the B-lactamase Resistant Oral Penicillins?

B-lactamase Sens? Spectrum? Protein Binding? Cross-Restantance?

Answer 26

• ALL isoxazoles
• B-lactamase Sens: NO
• Spectrum: Less potent against Gram (+) that make B-lactam; good to those that do
• Protein Binding: Highly = Not good in septicemia
• Cross Resistant with Methicillin

Question 27

What is the bacterial spectrum of Ampicillin?

Answer 27

• Gram (-) sensitive now; Salmonella, Shegella, P. Mirabilis, E. Coli, H. Influzenae, N. Gonorrhoeae
• NH2 helps get through the porins better

Question 28

What is the reason that Ampicillin is stable in acid?

Answer 28

• Amino Group is protonated in the stomach = N+ more attracting [decreases nuleophilicity so ring dont open]

Question 29

What is the main difference between Amoxicillin and Ampicillin with regards to Absroption?

Answer 29

• Amox is an analog of Amp; phenolic group was added to the ring = better oral absorption

Question 30

What are the B-lactamase inhibitors that are used?

Answer 30

• Clavulanic Acid
• Sulbactam
• Tazobactam
• Avibactam

Question 31

How do the B-lactamase inhibitors work mechanistically?

Answer 31

• Used in combo with the B-lactamase Sensitive Penicillins
• Acylate the serine hydroxyl group on B-lactamase [inhibit B-lactamase & increase penicillin stablity]

Question 32

What are the products that use B-lactamase inhibitors?

Answer 32

• Amoxicillin + Clavulante = Augmentin
• Ampicillin + Sulbactam = Unasyn
• Pipericillin + Tazobactam = Zosyn
• Ceftrazidime + Avibactam = Avycaz

Question 33

Why do the Acylureidopenicillins have a broadened spectrum of antibacterial activity and enhanced potency?

Answer 33

• Have a urea Moiety [increased activity to Gram (+) & Gram (-) (P. Aeruginosa, K. Pneumonia, B. Fragilis)
• Enhanced Potenty because they added side chain fragments that look like peptidoglycan chains like Ampicillin