Lipidomic Profiling of Plasma Samples in Patients with Newly Diagnosed Multiple Myeloma; A Biomarker Study for Predicting the Response and Toxicities of Melphalan, Prednisolone and Bortezomib (MPB) Regimen : An Ancillary Study of the JCOG1105 (JCOG1105A1)

Background Although the proteasome inhibitor bortezomib (Btz) shows excellent efficacy in multiple myeloma (MM), some patients exhibit sub-optimal or no response to this agent. In addition, Btz-induced toxicity, such as peripheral neuropathy (PN) and skin disorders, limits its use in some patients....

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Published in:Blood 2019-11, Vol.134 (Supplement_1), p.3156-3156
Main Authors: Ri, Masaki, Iida, Shinsuke, Maruyama, Dai, Saito, Kosuke, Saito, Yoshiro, Osaga, Satoshi, Tohkin, Masahiro, Miyata, Naoki, Tobinai, Kensei, Fukuhara, Noriko, Miyazaki, Kana, Minami, Yosuke, Tsukamoto, Norifumi, Tsujimura, Hideki, Yoshimitsu, Makoto, Miyamoto, Kenichi, Tsukasaki, Kunihiro, Nagai, Hirokazu
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Language:English
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Summary:Background Although the proteasome inhibitor bortezomib (Btz) shows excellent efficacy in multiple myeloma (MM), some patients exhibit sub-optimal or no response to this agent. In addition, Btz-induced toxicity, such as peripheral neuropathy (PN) and skin disorders, limits its use in some patients. A comprehensive analysis of metabolites (metabolomics) in biofluids can be a potential novel strategy to predict the efficacy or adverse events of Btz treatment. With respect to the metabolic pathways in MM cells, a few studies have applied metabolomics using serum/plasma samples to elucidate MM pathogenesis or the mechanisms underlying the malignant transformation of MM cells. In addition, no metabolomic profile has been examined in terms of efficacy or toxicity of the specific MM treatment. In this study, we performed lipid metabolomics analysis using plasma samples from patients with newly diagnosed MM (NDMM) prior to the initial Btz therapy, and have attempted to identify the association between the level of specific biomarkers in plasma lipid metabolites and the efficacy or severity of Btz-related toxicity. Materials & Methods Fifty-four plasma samples were analyzed from transplant-ineligible patients with NDMM enrolled in a randomized phase II study comparing two less intensive regimens of melphalan, prednisolone, and Btz (MPB) (JCOG1105; UMIN000011180). Informed consent to participate in the JCOG-BioBank, Japan Biorepository project, was obtained from the patients prior to sample acquisition. Frozen plasma samples obtained prior to MPB therapy were subjected to lipid metabolomics analysis, and the levels of phospholipids, sphingolipids, neutral lipids, and fatty acids (FAs) were measured using Liquid Chromatography/Mass spectrometry. The levels of lipid metabolites were relatively quantified as the ion peak ratio of each metabolite to the internal standard. We then evaluated whether the level of each lipid metabolite associated with the depth of response to MPB therapy and the grade of Btz-induced toxicity, such as peripheral neuropathy (PN) and skin disorders. Statistical analysis was performed by a multivariate permutation test using the Welch's t-statistic for multiple comparisons of the metabolite levels between the two groups categorized based on their response to MPB therapy or the grade of toxicity, ie. responder vs non-responder to the therapy, and grade 0-1 vs grade 2 or higher in the toxicities. Results and Discussion Lipid metabolomics analysis
ISSN:0006-4971
1528-0020
DOI:10.1182/blood-2019-122218