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Introduction to Microbiology (Liu et al.)
15: Antibiotic Resistance and Other Antimicrobials

15: Antibiotic Resistance and Other Antimicrobials

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Page ID: 146069

Ying Liu, Serena Chang, Grace Murphy, Esther Ajayi-Akinsulire, Isobel Ardren, Izabella Guy, Kai Johnston, Saskia Lee, and Lauren Russell
City College of San Francisco

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In nature, microbes have evolved mechanisms to resist antimicrobial substances produced by their competitors, ensuring their survival in competitive environments. These natural abilities have been amplified by human activity, as the widespread use—and misuse—of antibiotics and other antimicrobials has driven the rapid emergence and spread of antimicrobial resistance (AMR). Multidrug-resistant organisms, such as MRSA and drug-resistant tuberculosis, now pose significant challenges to global health, making once-treatable infections increasingly difficult to manage.

In this chapter, we will explore the mechanisms by which microbes develop resistance, the factors contributing to the AMR crisis, and the implications for public health. Additionally, we will examine alternatives to antibiotics, including antifungal, antiviral, and antiparasitic drugs, highlighting their mechanisms of action and the challenges of resistance in these domains. Finally, we will discuss strategies for combating antimicrobial resistance, from stewardship programs to the development of novel therapies.

Figure 14-22 new antimicrobials.jpg — Figure \(\PageIndex{1}\): In recent decades, approvals of new antimicrobials by the FDA have steadily fallen. In the five-year period from 1983–1987, 16 new antimicrobial drugs were approved, compared to just two from 2008–2012.

15.1: Antifungal and Antiviral Drugs
Because fungi, protozoans, and helminths are eukaryotic organisms like human cells, it is more challenging to develop antimicrobial drugs that specifically target them. Similarly, it is hard to target viruses because human viruses replicate inside of human cells.
15.2: Drug Resistance
Antimicrobial resistance is on the rise and is the result of selection of drug-resistant strains in clinical environments, the overuse and misuse of antibacterials, the use of subtherapeutic doses of antibacterial drugs, and poor patient compliance with antibacterial drug therapies. Drug resistance genes are often carried on plasmids or in transposons that can undergo vertical transfer easily and between microbes through horizontal gene transfer.
15.3: Multidrug Resistant Microbes
Antimicrobial resistance is on the rise and is the result of selection of drug-resistant strains in clinical environments, the overuse and misuse of antibacterials, the use of subtherapeutic doses of antibacterial drugs, and poor patient compliance with antibacterial drug therapies. Drug resistance genes are often carried on plasmids or in transposons that can undergo vertical transfer easily and between microbes through horizontal gene transfer.
15.4: Testing the Effectiveness of Antimicrobials
The Kirby-Bauer disk diffusion test helps determine the susceptibility of a microorganism to various antimicrobial drugs. However, the zones of inhibition measured must be correlated to known standards to determine susceptibility and resistance, and do not provide information on bactericidal versus bacteriostatic activity, or allow for direct comparison of drug potencies. Antibiograms are useful for monitoring local trends in antimicrobial resistance/susceptibility.
15.5: Current Strategies for Antimicrobial Discovery
With the continued evolution and spread of antimicrobial resistance, and now the identification of pan-resistant bacterial pathogens, the search for new antimicrobials is essential for preventing the postantibiotic era.
15.E: Antimicrobial Drugs (Exercises)

Footnotes

1 “Treatment of War Wounds: A Historical Review.” Clinical Orthopaedics and Related Research 467 no. 8 (2009):2168–2191.

Thumbnail: Staphylococcus aureus - Antibiotics Test plate. (Public Domain; CDC / Provider: Don Stalons).

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