Quantification of rosiglitazone in rat plasma and tissues via LC–MS/MS: Method development, validation, and application in pharmacokinetic and tissue distribution studies

Garikapati, Kusuma Kumari; Kiran, Ammu V. V. V. Ravi; Krishnamurthy, Praveen Thaggikuppe; S.T, Narenderan; Babu, B.; Nagappan, Krishnaveni

doi:10.1002/bmc.5326

Cited by 2 publications

(1 citation statement)

References 30 publications

(42 reference statements)

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“…Comparing our results with the available bibliography, rosiglitazone’s LOQ in uniplex mode is of the same range as that observed using LC-MS in rat plasma and tissues, 1.68 nM [ 52 ]. In addition, for rosiglitazone, the EC 50 observed with the sensor in uniplex mode for PPARγ, 29.37 nM, was in the same range as determined with pBIND[Rluc]/pGL4.35[Fluc] system by other authors [ 53 ].…”

Section: Resultssupporting

confidence: 78%

A Multiplex Molecular Cell-Based Sensor to Detect Ligands of PPARs: An Optimized Tool for Drug Discovery in Cyanobacteria

Páscoa

Biltes

Sousa

et al. 2023

Sensors

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Cyanobacteria produce a wealth of secondary metabolites. Since these organisms attach fatty acids into molecules in unprecedented ways, cyanobacteria can serve as a novel source for bioactive compounds acting as ligands for Peroxisome Proliferator-Activated Receptors (PPAR). PPARs (PPARα, PPARβ/δ and PPARγ) are ligand-activated nuclear receptors, involved in the regulation of various metabolic and cellular processes, thus serving as potential drug targets for a variety of pathologies. Yet, given that PPARs’ agonists can have pan-, dual- or isoform-specific action, some controversy has been raised over currently approved drugs and their side effects, highlighting the need for novel molecules. Here, we expand and validate a cell-based PPAR transactivation activity biosensor, and test it in a screening campaign to guide drug discovery. Biosensor upgrades included the use of different reporter genes to increase signal intensity and stability, a different promoter to modulate reporter gene expression, and multiplexing to improve efficiency. Sensor’s limit of detection (LOD) ranged from 0.36–0.89 nM in uniplex and 0.89–1.35 nM in multiplex mode. In triplex mode, the sensor’s feature screening, a total of 848 fractions of 96 cyanobacteria extracts were screened. Hits were confirmed in multiplex mode and in uniplex mode, yielding one strain detected to have action on PPARα and three strains to have dual action on PPARα and -β.

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Section: Resultssupporting

confidence: 78%

A Multiplex Molecular Cell-Based Sensor to Detect Ligands of PPARs: An Optimized Tool for Drug Discovery in Cyanobacteria

Páscoa

Biltes

Sousa

et al. 2023

Sensors

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Thiazolidinediones: Recent Development in Analytical Methodologies

Patel

2023

Journal of Chromatographic Science

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The instrumental analytical methods that have been developed and utilized for the determination of thiazolidinedione in bulk medications, formulations and biological fluids have been reviewed after an in-depth analysis of the literature published in a variety of analytical and pharmaceutical chemistry-related journals. The approaches covered by this research, which covers the years 2001–2022, include complex methods for analysis, chromatographic techniques and spectrometric analytical procedures. The mobile phase, flow rate, sample matrix, wavelength and other factors identified in the literature were just a few of the parameters used to evaluate thiazolidinediones. The present review focuses on the published analytical techniques for thiazolidinedione analysis that have been previously identified in the literature. The specified outcomes followed extensive learning, and the most recent advances in analytical methods for the identification of pioglitazone, pioglitazone HCl, rosiglitazone, rosiglitazone maleate and lobeglitazone were reviewed. Additionally, this article briefly discusses features of analytical discovery on thiazolidinediones, which will enable readers to access all discoveries in one place with precise outcomes.

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Quantification of rosiglitazone in rat plasma and tissues via LC–MS/MS: Method development, validation, and application in pharmacokinetic and tissue distribution studies

Cited by 2 publications

References 30 publications

A Multiplex Molecular Cell-Based Sensor to Detect Ligands of PPARs: An Optimized Tool for Drug Discovery in Cyanobacteria

A Multiplex Molecular Cell-Based Sensor to Detect Ligands of PPARs: An Optimized Tool for Drug Discovery in Cyanobacteria

Thiazolidinediones: Recent Development in Analytical Methodologies

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