Gais Kadra scite author profile

Gais Kadra

3Publications

12Citation Statements Received

96Citation Statements Given

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Affiliations

Centre de Recherche en Cancérologie de Marseille, Inserm, Institut de Neurobiologie de la Méditerranée

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Gene expression profiling of breast tumor cell lines to predict for therapeutic response to microtubule-stabilizing agents

Kadra

Finetti

Toiron

et al. 2011

Breast Cancer Res Treat

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Microtubule-targeting agents, including taxanes (Tax) and ixabepilone (Ixa), are important components of modern breast cancer chemotherapy regimens, but no molecular parameter is currently available that can predict for their efficiency. We sought to develop pharmacogenomic predictors of Tax- and Ixa-response from a large panel of human breast tumor cell lines (BTCL), then to evaluate their performance in clinical samples. Thirty-two BTCL, representative of the molecular diversity of breast cancers (BC), were treated in vitro with Tax (paclitaxel (Pac), docetaxel (Doc)), and ixabepilone (Ixa), then classified as drug-sensitive or resistant according to their 50% inhibitory concentrations (IC50s). Baseline gene expression data were obtained using Affymetrix U133 Plus 2.0 human oligonucleotide microarrays. Gene expression set (GES) predictors of response to taxanes were derived, then tested for validation internally and in publicly available gene expression datasets. In vitro IC50s of Pac and Doc were almost identical, whereas some Tax-resistant BTCL retained sensitivity to Ixa. GES predictors for Tax-sensitivity (333 genes) and Ixa-sensitivity (79 genes) were defined. They displayed a limited number of overlapping genes. Both were validated by leave-n-out cross-validation (n = 4; for overall accuracy (OA), P = 0.028 for Tax, and P = 0.0005 for Ixa). The GES predictor of Tax-sensitivity was tested on publicly available external datasets and significantly predicted Pac-sensitivity in 16 BTCL (P = 0.04 for OA), and pathological complete response to Pac-based neoadjuvant chemotherapy in BC patients (P = 0.0045 for OA). Applying Tax and Ixa-GES to a dataset of clinically annotated early BC patients identified subsets of tumors with potentially distinct phenotypes of drug sensitivity: predicted Ixa-sensitive/Tax-resistant BC were significantly (P < 0.05, Fischer's exact test) more frequently ER/PR-positive, Ki67-negative, and luminal subtype than predicted Ixa-resistant/Tax-sensitive BC. Genomic predictors for Tax- and Ixa-sensitivity can be derived from BTCL and may be helpful for better selecting cytotoxic treatment in BC patients.

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Chronopharmacokinetics of Imipenem in the Rat

Boulaméry

Kadra

Simon

et al. 2007

Chronobiology International

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There are no studies indicating a possible modification of imipenem pharmacokinetics related to the hour (i.e., circadian time) of its administration. The aim of this study was to evaluate the influence of different times of intramuscular imipenem administration on its disposition in Wistar AF EOPS rats. Four groups of eight animals were given a single intramuscular injection of 140 mg/kg of imipenem either at 10:00, 16:00, 22:00, or 04:00 h. Blood samples were collected 0.5, 1, 2, 3, 4, 6, and 8 h after drug injection, and the main pharmacokinetic parameters determined were C(max), T(max), elimination half-life (t(1/2)), area under the concentration-versus-time curve (AUC), total serum clearance (CL/F), and volume of distribution (V/F). Circadian variation of C(max) (49%), T(max) (92%), and AUC (19%) was observed leading to variability of imipenem exposure. Clearance and volume of distribution were modified according to the circadian time of drug injection but did not reach statistical significance. The results suggest that varying the time of administration induces intra-individual variability.

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Erratum to: Gene expression profiling of breast tumor cell lines to predict for therapeutic response to microtubule-stabilizing agents

Kadra

Finetti

Toiron

et al. 2012

Breast Cancer Res Treat

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Gais Kadra

Gene expression profiling of breast tumor cell lines to predict for therapeutic response to microtubule-stabilizing agents

Chronopharmacokinetics of Imipenem in the Rat

Erratum to: Gene expression profiling of breast tumor cell lines to predict for therapeutic response to microtubule-stabilizing agents

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