Ashit Trivedi scite author profile

Although the classical antibiotic spectinomycin is a potent bacterial protein synthesis inhibitor, poor antimycobacterial activity limits its clinical application for treating tuberculosis. Using structure-based design, a novel semisynthetic series of spectinomycin analogs was generated with selective ribosomal inhibition and excellent narrow-spectrum antitubercular activity. In multiple murine infection models, these spectinamides were well tolerated, significantly reduced lung mycobacterial burden and increased survival. In vitro studies demonstrated a lack of cross-resistance with existing tuberculosis therapeutics, activity against MDR/XDR-tuberculosis, and an excellent pharmacological profile. Key to their potent antitubercular properties was their structural modification to evade the Rv1258c efflux pump, which is upregulated in MDR strains and is implicated in macrophage induced drug tolerance. The antitubercular efficacy of spectinamides demonstrates that synthetic modifications to classical antibiotics can overcome the challenge of intrinsic efflux pump-mediated resistance and expands opportunities for target based tuberculosis drug discovery.

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Reverse Translation of US Food and Drug Administration Reviews of Oncology New Molecular Entities Approved in 2011–2017: Lessons Learned for Anticancer Drug Development

Faucette

Wagh

Trivedi

et al. 2017

Clinical Translational Sci

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Clinical Pharmacology and Translational Aspects of Bispecific Antibodies

Trivedi

Stienen

Zhu

et al. 2017

Clinical Translational Sci

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Safety, Tolerability, Pharmacokinetics, and Pharmacodynamics Of Amg 986, a Novel Small Molecule Apelin Receptor Agonist, in Healthy Subjects and Heart Failure Patients

Hellawell

Abbasi

Trivedi

et al. 2020

Journal of Cardiac Failure

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Antitubercular nitrofuran isoxazolines with improved pharmacokinetic properties

Rakesh

Bruhn

Madhura

et al. 2012

Bioorganic & Medicinal Chemistry

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A series of tetracyclic nitrofuran isoxazoline antituberculosis agents was designed and synthesized to improve the pharmacokinetic properties of an initial lead compound, which had potent antituberculosis activity but suffered from poor solubility, high protein binding and rapid metabolism. In this study, structural modifications were carried on the outer phenyl and piperidine rings to introduce solubilizing and metabolically blocking functional groups. The compounds generated were evaluated for their in vitro antitubercular activity, bacterial spectrum of activity, solubility, permeability, microsomal stability and protein binding. Pharmacokinetic profiles for the most promising candidates were then determined. Compounds with phenyl morpholine and pyridyl morpholine outer rings were found to be the most potent antituberculosis agents in the series. These compounds retained a narrow antibacterial spectrum of activity, with weak anti-gram positive and no gram negative activity, as well as good activity against non-replicating M. tuberculosis in a low oxygen model. Overall, the addition of solubilizing and metabolically blocked outer rings did improve solubility and decrease protein binding as designed. However, the metabolic stability for compounds in this series was generally lower than desired. The best three compounds selected for in vivo pharmacokinetic testing all showed high oral bioavailability, with one notable compound showing a significantly longer half-life and good tolerability supporting its further advancement.

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Ashit Trivedi

Spectinamides: a new class of semisynthetic antituberculosis agents that overcome native drug efflux

Reverse Translation of US Food and Drug Administration Reviews of Oncology New Molecular Entities Approved in 2011–2017: Lessons Learned for Anticancer Drug Development

Clinical Pharmacology and Translational Aspects of Bispecific Antibodies

Safety, Tolerability, Pharmacokinetics, and Pharmacodynamics Of Amg 986, a Novel Small Molecule Apelin Receptor Agonist, in Healthy Subjects and Heart Failure Patients

Antitubercular nitrofuran isoxazolines with improved pharmacokinetic properties

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