Question

Which antimicrobial drugs disrupt the bacterial cell membrane? (A) trimethoprim and sulfamethoxazole (B) polymyxin B and daptomycin (C) rifaximin and fidaxomicin (D) ciprofloxacin and moxifloxacin (E) nitrofurantoin and fosfomycin

Short answer

Option (B) polymyxin B and daptomycin disrupt the bacterial cell membrane.

Step-by-step solution

Understand the Mechanism of Action

Antimicrobial drugs work through various mechanisms such as disrupting cell wall synthesis, protein synthesis, nucleic acid synthesis, or the bacterial cell membrane. Here, we need to identify which drugs disrupt the bacterial cell membrane specifically.

Analyze the Drug Options

Let's look at each of the drug options provided: - (A) Trimethoprim and sulfamethoxazole inhibit folate synthesis. - (B) Polymyxin B and daptomycin are known to disrupt bacterial cell membranes. - (C) Rifaximin and fidaxomicin inhibit RNA synthesis. - (D) Ciprofloxacin and moxifloxacin inhibit DNA gyrase (nucleic acid synthesis). - (E) Nitrofurantoin and fosfomycin inhibit cell wall synthesis.

Identify the Correct Drug Pair

Since Polymyxin B and Daptomycin are known to target the bacterial cell membrane, they are the drugs that fit the described mechanism of action.

Key concepts

Bacterial Cell Membrane

The bacterial cell membrane is a crucial component for the survival of bacteria. It acts as a barrier, protecting the cell from its external environment while regulating the movement of substances in and out of the cell. This membrane is composed of a phospholipid bilayer, embedded with various proteins, and is vital for maintaining the cell's integrity and functionality.

In addition to acting as a protective layer, the cell membrane is involved in several key processes. These processes include:

• Metabolism: facilitating the production of energy necessary for bacterial survival.
• Communication: signaling mechanisms to interact with other cells or respond to environmental changes.
• Division: helping in the cell division process with membrane-bound proteins.

Given its importance, the bacterial cell membrane is a prime target for certain antimicrobial drugs that aim to disrupt its structure and function, ultimately leading to the death of the bacterial cell.

Polyxin B

Polymyxin B is an antimicrobial drug that targets bacterial cell membranes, particularly in Gram-negative bacteria. This drug binds to the lipopolysaccharides in the outer membrane of these bacteria, disrupting the membrane's integrity and increasing its permeability.

The increased permeability allows for the leakage of essential cellular components, effectively killing the bacterial cell. Polymyxin B is especially effective against bacteria such as Pseudomonas aeruginosa and other resistant strains.

Despite its effectiveness, the use of Polymyxin B is typically limited due to potential side effects, such as nephrotoxicity and neurotoxicity. As a result, it is often used as a last resort when other antibiotics fail, particularly in severe infections.
It is frequently part of topical ointments and is administered in a combination with other drugs to enhance its efficacy and minimize toxicity.

Daptomycin

Daptomycin is another antimicrobial drug that targets the bacterial cell membrane. It is primarily used against Gram-positive bacteria, including resistant strains such as methicillin-resistant Staphylococcus aureus (MRSA).

This cyclic lipopeptide works by inserting into the bacterial cell membrane in a calcium-dependent manner, forming a complex that causes rapid depolarization. This process disrupts all activities that depend on the membrane potential, leading to cell death.

One notable advantage of daptomycin is its potent bactericidal activity, particularly useful in treating complicated skin and bloodstream infections. However, it is not used for pneumonia treatment as pulmonary surfactant inactivates the drug, rendering it ineffective.

• Effective against resistant Gram-positive bacteria.
• Not suitable for pneumonia treatment.
• Utilized in treating severe skin and bloodstream infections.

Mechanism of Action

The mechanism of action of antimicrobial drugs refers to the way these drugs exert their effects on bacterial cells. Specifically, drugs like Polymyxin B and Daptomycin interfere with the bacterial cell membrane to eliminate infection.

Polymyxin B binds to the outer membrane of Gram-negative bacteria, leading to increased permeability and cell death. This interference with the bacterial cell membrane prevents the cell from maintaining its vital functions and defending itself against harmful external factors.

Daptomycin, on the other hand, targets the cell membrane of Gram-positive bacteria, causing depolarization and thereby halting necessary cellular activities. This disruption leads to bacterial cell death regardless of the bacteria's ability to resist other antibiotic classes.

• Polymyxin B - targets Gram-negative bacteria.
• Daptomycin - effective against Gram-positive bacteria.
• Both lead to bacterial cell death by compromising the cell membrane.

These mechanisms underline the importance of understanding the specific actions of antimicrobial drugs to effectively treat infections with minimal side effects.