Antibacterial resistance is a global challenge that requires a coordinated international response. The current clinical pipeline largely consists of derivatives of established antibiotic classes, whereas the discovery and preclinical pipeline is diverse and innovative including new direct-acting agents with no cross-resistance with existing antibiotics. These novel compounds target pathways such as lipoprotein synthesis, lipopolysaccharide biosynthesis and transport, outer membrane assembly, peptidoglycan biosynthesis, fatty acid biosynthesis and isoprenoid biosynthesis. If these agents can be developed into safe, effective and affordable drugs, they could address a broad range of infections worldwide, benefiting large patient populations without geographical limitations. However, strategies such as indirect-acting or pathogen-specific treatments are likely to benefit small patient groups, primarily in high-income countries that have advanced health-care systems and diagnostic infrastructure. Although encouraging, the discovery and preclinical pipeline remains insufficiently robust to offset the high attrition rates typical of early-stage drug innovation and to meet global health needs.

Authors

Ursula Theuretzbacher, Ravindra P. Jumde, Alan Hennessy, Jennifer Cohn, Laura J. V. Piddock

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