2020
DOI: 10.1124/dmd.120.000092
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Characterization of Tissue Distribution, Catabolism, and Elimination of an Anti–Staphylococcus aureusTHIOMAB Antibody-Antibiotic Conjugate in Rats

Abstract: Invasive Staphylococcus aureus (S. aureus) infection is a leading cause of infectious diseaserelated deaths due to the survival of S. aureus within host phagocytic cells, by which the bacteria are not adequately eliminated using current antibiotic treatments. Anti-S. aureus THIOMAB TM antibody-antibiotic conjugate (TAC), an anti-S. aureus antibody conjugated with antibiotic payload dmDNA31, was designed to deliver antibiotics into phagocytes, thereby killing intracellular S. aureus. Herein, we present the dist… Show more

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Cited by 10 publications
(5 citation statements)
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“…The drug‐linker combination is then coupled to the antibody. For example, [ 14 C]‐dmDNA31 is an antibiotic that was conjugated to an anti‐staphylococcus aureus antibody via a valine‐citrulline linker [136] . This afforded the antibody with an average of 1.6 molecules of [ 14 C]dmDNA31 per antibody and this material was used to characterize the ADME properties of the molecule (Figure 17).…”
Section: New Technologies and Methods In Isotope Chemistrymentioning
confidence: 99%
“…The drug‐linker combination is then coupled to the antibody. For example, [ 14 C]‐dmDNA31 is an antibiotic that was conjugated to an anti‐staphylococcus aureus antibody via a valine‐citrulline linker [136] . This afforded the antibody with an average of 1.6 molecules of [ 14 C]dmDNA31 per antibody and this material was used to characterize the ADME properties of the molecule (Figure 17).…”
Section: New Technologies and Methods In Isotope Chemistrymentioning
confidence: 99%
“…Once dmDNA31 is liberated, it kills AAC-opsonized and pre-existing bacteria within the phagocytes. DSTA4637S remains stable in circulation after intravenous administration, with minimal antibiotic deconjugation reported [130]. In mouse models, the pharmacokinetic profile was similar between S. aureus infected and non-infected subjects [131].…”
Section: Applications Of Adcs For Oncological and Non-oncological Conditionsmentioning
confidence: 96%
“…Recent publications have described various approaches for studying the biotransformation of protein therapeutics, (Schadt et al, 2019) antisense oligonucleotides, N-acetylgalactosamine conjugated small interfering RNA (McDougall et al, 2022) (Robin McDougal) and ADCs. (Bolleddula et al, 2020;Cai et al, 2020) Admittedly, the resulting products from the degradation of these large molecule modalities are rather predictable, however, such biotransformation studies require different in vitro systems, analytical approaches and a knowledge of enzymes and biotransformation pathways rather different than the "traditional" small molecules and hence may be considered as unusual in the context of this review. For example, all of the 10 ASOs approved by FDA to date have been reported to be degraded primarily by endonucleases and exonucleases in the bloodstream and the target cells.…”
Section: Current Challenges and Knowledge Gapsmentioning
confidence: 99%