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Supplementary Figure 2: VAC14 Knockdown and neuronal cell sensitivity to docetaxel or paclitaxel for additional morphological phenotypes from Pharmacogenetic Discovery in CALGB (Alliance) 90401 and Mechanistic Validation of a VAC14 Polymorphism that Increases Risk of Docetaxel-Induced Neuropathy

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posted on 2023-03-31, 20:29 authored by Daniel L. Hertz, Kouros Owzar, Sherrie Lessans, Claudia Wing, Chen Jiang, William Kevin Kelly, Jai Patel, Susan Halabi, Yoichi Furukawa, Heather E. Wheeler, Alexander B. Sibley, Cameron Lassiter, Lois Weisman, Dorothy Watson, Stefanie D. Krens, Flora Mulkey, Cynthia L. Renn, Eric J. Small, Phillip G. Febbo, Ivo Shterev, Deanna L. Kroetz, Paula N. Friedman, John F. Mahoney, Michael A. Carducci, Michael J. Kelley, Yusuke Nakamura, Michiaki Kubo, Susan G. Dorsey, M. Eileen Dolan, Michael J. Morris, Mark J. Ratain, Howard L. McLeod

Peripheral neuronal cells (Peri.4U) treated with docetaxel were found to have a significant decrease in sensitivity for A) mean process lengths but not for B) mean outgrowth intensity or C) relative straightness as measured after 24 hours post-drug treatment. For paclitaxel treatment at the same time point, the cells were also found to have significantly decreased sensitivity for D) relative mean process length and E) mean outgrowth intensity but not for F) relative straightness. Neurite parameters measured with MetaXPress® software were averaged from 3 independent experiments. Error bars represent the standard error of the mean from three independent transfection experiments. NTC = non-targeting control, UT= untransfected control.

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NIH

National Institute of General Medical Sciences

NINR

ALLIANCE

ECOGACRIN

American Foundation for Pharmaceutical Education

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ARTICLE ABSTRACT

Purpose: Discovery of SNPs that predict a patient's risk of docetaxel-induced neuropathy would enable treatment individualization to maximize efficacy and avoid unnecessary toxicity. The objectives of this analysis were to discover SNPs associated with docetaxel-induced neuropathy and mechanistically validate these associations in preclinical models of drug-induced neuropathy.Experimental Design: A genome-wide association study was conducted in metastatic castrate-resistant prostate cancer patients treated with docetaxel, prednisone and randomized to bevacizumab or placebo on CALGB 90401. SNPs were genotyped on the Illumina HumanHap610-Quad platform followed by rigorous quality control. The inference was conducted on the cumulative dose at occurrence of grade 3+ sensory neuropathy using a cause-specific hazard model that accounted for early treatment discontinuation. Genes with SNPs significantly associated with neuropathy were knocked down in cellular and mouse models of drug-induced neuropathy.Results: A total of 498,081 SNPs were analyzed in 623 Caucasian patients, 50 (8%) of whom experienced grade 3+ neuropathy. The 1,000 SNPs most associated with neuropathy clustered in relevant pathways including neuropathic pain and axonal guidance. An SNP in VAC14 (rs875858) surpassed genome-wide significance (P = 2.12 × 10−8, adjusted P = 5.88 × 10−7). siRNA knockdown of VAC14 in stem cell–derived peripheral neuronal cells increased docetaxel sensitivity as measured by decreased neurite processes (P = 0.0015) and branches (P < 0.0001). Prior to docetaxel treatment, VAC14 heterozygous mice had greater nociceptive sensitivity than wild-type litter mate controls (P = 0.001).Conclusions: VAC14 should be prioritized for further validation of its potential role as a predictor of docetaxel-induced neuropathy and biomarker for treatment individualization. Clin Cancer Res; 22(19); 4890–900. ©2016 AACR.

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