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New class of antibiotics may help combat antimicrobial resistance

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New class of antibiotics may help combat antimicrobial resistance mainNew York: Researchers have discovered a new class of compounds that combine direct antibiotic killing of pan drug-resistant bacterial pathogens with a simultaneous rapid immune response for combating antimicrobial resistance.

The research, published in the journal Nature, comes at a time when the list of bacteria that are becoming resistant to treatment with all available antibiotic options is growing and few new drugs are in the pipeline, creating a pressing need for new classes of antibiotics to prevent public health crises.

“We took a creative, double-pronged strategy to develop new molecules that can kill difficult-to-treat infections while enhancing the natural host immune response,” said Farokh Dotiwala, Assistant Professor in the Vaccine and Immunotherapy Center, The Wistar Institute, Philadelphia, US.

Dotiwala is the lead author of the effort to identify a new generation of antimicrobials named dual-acting immuno-antibiotics (DAIAs).

Existing antibiotics target essential bacterial functions, including nucleic acid and protein synthesis, building of the cell membrane, and metabolic pathways.

However, bacteria can acquire drug resistance by mutating the bacterial target the antibiotic is directed against, inactivating the drugs or pumping them out.

“We reasoned that harnessing the immune system to simultaneously attack bacteria on two different fronts makes it hard for them to develop resistance,” said Dotiwala.

The researchers focused on a metabolic pathway that is essential for most bacteria but absent in humans, making it an ideal target for antibiotic development.

This pathway, called methyl-D-erythritol phosphate (MEP) or non-mevalonate pathway, is responsible for biosynthesis of isoprenoids — molecules required for cell survival in most pathogenic bacteria.

The lab targeted the IspH enzyme, an essential enzyme in isoprenoid biosynthesis, as a way to block this pathway and kill the microbes.

Given the broad presence of IspH in the bacterial world, this approach may target a wide range of bacteria.

Researchers used computer modelling to screen several million commercially available compounds for their ability to bind with the enzyme, and selected the most potent ones that inhibited IspH function as starting points for drug discovery.

The team demonstrated that the IspH inhibitors stimulated the immune system with more potent bacterial killing activity and specificity than current best-in-class antibiotics when tested in vitro on clinical isolates of antibiotic-resistant bacteria, including a wide range of pathogenic gram negative and gram positive bacteria.

In preclinical models of gram negative bacterial infection, the bactericidal effects of the IspH inhibitors outperformed traditional pan antibiotics.

All compounds tested were shown to be nontoxic to human cells, said the study.

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