Last update 22 Dec 2024
AZD-5099
Last update 22 Dec 2024
Overview
Basic Info
Drug Type Small molecule drug |
Synonyms AZD 5099, AZD5099 |
Target |
Mechanism Bacterial Top II inhibitors(Bacterial topoisomerase II inhibitors) |
Therapeutic Areas |
Active Indication- |
Inactive Indication |
Originator Organization |
Active Organization- |
Inactive Organization |
Drug Highest PhaseSuspendedPhase 1 |
First Approval Date- |
Regulation- |
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Structure
Molecular FormulaC21H27Cl2N5O6S |
InChIKeyKGZHRAVDXGQUQM-WCQGTBRESA-N |
CAS Registry907543-25-3 |
Related
1
Clinical Trials associated with AZD-5099A Phase I, Single-center, Double-blind, Randomized, Placebo-controlled, Parallel-group Study to Assess the Safety, Tolerability and Pharmacokinetics in Intravenous AZD5099 After Single Ascending Doses in Healthy Male and Female Subjects
100 Clinical Results associated with AZD-5099
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100 Translational Medicine associated with AZD-5099
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100 Patents (Medical) associated with AZD-5099
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1
Literatures (Medical) associated with AZD-509924 Jul 2014Journal of medicinal chemistryQ1 · MEDICINE
Optimization of Pyrrolamide Topoisomerase II Inhibitors Toward Identification of an Antibacterial Clinical Candidate (AZD5099)
Q1 · MEDICINE
Article
Author: Uria-Nickelsen, Maria ; Eakin, Ann E. ; Hill, Pamela J. ; Zhou, Fei ; Hull, Ken ; Rooney, Mike ; Manchester, John I. ; Illingworth, Ruth ; Alm, Richard ; Hauck, Sheila ; Basarab, Gregory S. ; Bist, Shanta ; Green, Oluyinka ; Sherer, Brian A. ; Dangel, P. Brian ; Garner, C. Edwin
AZD5099 (compound 63) is an antibacterial agent that entered phase 1 clinical trials targeting infections caused by Gram-positive and fastidious Gram-negative bacteria. It was derived from previously reported pyrrolamide antibacterials and a fragment-based approach targeting the ATP binding site of bacterial type II topoisomerases. The program described herein varied a 3-piperidine substituent and incorporated 4-thiazole substituents that form a seven-membered ring intramolecular hydrogen bond with a 5-position carboxylic acid. Improved antibacterial activity and lower in vivo clearances were achieved. The lower clearances were attributed, in part, to reduced recognition by the multidrug resistant transporter Mrp2. Compound 63 showed notable efficacy in a mouse neutropenic Staphylococcus aureus infection model. Resistance frequency versus the drug was low, and reports of clinical resistance due to alteration of the target are few. Hence, 63 could offer a novel treatment for serious issues of resistance to currently used antibacterials.
100 Deals associated with AZD-5099
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R&D Status
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| Indication | Highest Phase | Country/Location | Organization | Date |
|---|---|---|---|---|
| Infectious Diseases | Phase 1 | US | 01 May 2011 |
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