Preclinical Pharmacokinetic Evaluation of Mithramycin and Mithramycin SA Tryptophan-Conjugated Analog
Kumar Kulldeep Niloy, Jamie Horn, Nazmul H. Bhuiyan, Khaled A. Shaaban, Suhas S. Bhosale, Thomas E. Prisinzano, Jon S. Thorson, Jurgen Rohr, Markos Leggas

TL;DR
This study compares the drug properties of mithramycin and a modified version in animals, finding the modified drug has better performance.
Contribution
A tryptophan-conjugated analog of mithramycin shows significantly improved pharmacokinetics in preclinical models.
Findings
MTMSA-Trp exhibits higher plasma protein binding and lower clearance than MTM in mice and rats.
MTMSA-Trp shows linear pharmacokinetics at multiple doses in mice.
The PK improvements of MTMSA-Trp suggest potential for further human evaluation.
Abstract
Background: Mithramycin (MTM) is a polyketide anti-cancer natural product previously identified as an EWS-FLI1 inhibitor. This oncogenic transcription factor is a canonical target for drug development in Ewing sarcoma. However, poor pharmacokinetics have been identified as a critical liability of MTM, preventing its further development. Through semisynthetic chemical modifications, we identified mithramycin SA-Trp (MTMSA-Trp) as being a pharmacologically superior congener. To explore their pharmacokinetic (PK) differences, this study examined the plasma PKs and plasma protein binding (PPB) of MTM and MTMSA-Trp in mice, rats, and monkeys. Methods: Protein binding was investigated by rapid equilibrium dialysis in plasma from mice, rats, monkeys, and humans. The pharmacokinetics were investigated at milligram- and microgram-level doses in mice and rats. The pharmacokinetics in monkeys were…
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Taxonomy
TopicsCancer therapeutics and mechanisms · Biochemical and Molecular Research · HIV/AIDS drug development and treatment
