Antibody-drug conjugates to treat bacterial biofilms

Tvilum, Anne; Johansen, Mikkel Illemann; Glud, Laerke; Ivarsen, Diana M.; Khamas, Amanda B.; Carmali, Sheiliza; Mhatre, Snehit S.; Søgaard, Ane Bretschneider; Faddy, Emma; Vor, Lisanne de; Rooijakkers, Suzan H.M.; Østergaard, Lars; Pedersen, Nis J.; Meyer, Rikke Louise; Zelikin, Alexander N.

doi:10.1101/2023.01.16.524127

Cited by 2 publications

(1 citation statement)

References 56 publications

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“…More recently, AACs are being developed against bacterial biofilms, the hypothesis being that an antibody can be used to anchor the antibiotic to the surface of the bacteria within the biofilm. Using a trigger, such as an external small molecule, releases the antibiotic at the bacterial cell surface.…”

Section: Adcs Beyond Oncologymentioning

confidence: 99%

The Evolving Landscape of Antibody–Drug Conjugates: In Depth Analysis of Recent Research Progress

Sasso,

Tenchov,

Bird

et al. 2023

Bioconjugate Chem.

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Antibody–drug conjugates (ADCs) are targeted immunoconjugate constructs that integrate the potency of cytotoxic drugs with the selectivity of monoclonal antibodies, minimizing damage to healthy cells and reducing systemic toxicity. Their design allows for higher doses of the cytotoxic drug to be administered, potentially increasing efficacy. They are currently among the most promising drug classes in oncology, with efforts to expand their application for nononcological indications and in combination therapies. Here we provide a detailed overview of the recent advances in ADC research and consider future directions and challenges in promoting this promising platform to widespread therapeutic use. We examine data from the CAS Content Collection, the largest human-curated collection of published scientific information, and analyze the publication landscape of recent research to reveal the exploration trends in published documents and to provide insights into the scientific advances in the area. We also discuss the evolution of the key concepts in the field, the major technologies, and their development pipelines with company research focuses, disease targets, development stages, and publication and investment trends. A comprehensive concept map has been created based on the documents in the CAS Content Collection. We hope that this report can serve as a useful resource for understanding the current state of knowledge in the field of ADCs and the remaining challenges to fulfill their potential.

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Section: Adcs Beyond Oncologymentioning

confidence: 99%

The Evolving Landscape of Antibody–Drug Conjugates: In Depth Analysis of Recent Research Progress

Sasso,

Tenchov,

Bird

et al. 2023

Bioconjugate Chem.

View full text Add to dashboard Cite

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Mitomycin C Retains Efficacy after Adaptive Laboratory Evolution ofStaphylococcus aureus

Petersen,

Khamas,

Østergaard

et al. 2024

Preprint

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Antibiotic resistance is one of the greatest threats against human health and the misuse and overuse of antibiotics is a key factor driving resistance development. During prolonged antibiotic treatment of chronic infections, the antimicrobial pressure facilitates selection of antibiotic resistance mutations. It has been suggested that using antibiotics in combinations may reduce the emergence of resistance. Furthermore, antibiotic tolerant persister cells may be a reservoir for resistance development, so targeting persister cells with anti-persister drugs could also reduce the emergence of resistance.In this study, we conducted a 42-day adaptive laboratory evolution experiment using Staphylococcus aureus exposed to common antibiotics and the anti-persister drug mitomycin C, either alone or in combination. We monitored susceptibility daily and assessed phenotypic changes in growth and biofilm formation in evolved strains. Whole-genome sequencing revealed mutations linked to antibiotic resistance and phenotypic shifts.Resistance developed rapidly against rifampicin, while ciprofloxacin and daptomycin showed slower resistance emergence. Treatments with vancomycin or mitomycin C resulted in minimal changes in susceptibility. Combination therapies generally delayed resistance, though resistance was not fully prevented. Notably, mitomycin C combined with rifampicin effectively suppressed rifampicin resistance. Sub-inhibitory antibiotic concentrations were associated with both known and novel mutations, including in the nucleotide excision repair system and azoreductase, following mitomycin C treatment—mutations not previously reported.While combination therapy delayed resistance, mitomycin C’s efficacy and ability to prevent rifampicin resistance highlights its potential in combating antibiotic resistance. Further investigation is needed to evaluate the broader application of anti-persister drugs in resistance prevention.

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Antibody-drug conjugates to treat bacterial biofilms

Cited by 2 publications

References 56 publications

The Evolving Landscape of Antibody–Drug Conjugates: In Depth Analysis of Recent Research Progress

The Evolving Landscape of Antibody–Drug Conjugates: In Depth Analysis of Recent Research Progress

Mitomycin C Retains Efficacy after Adaptive Laboratory Evolution ofStaphylococcus aureus

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