Mapping the metabolic responses to oxaliplatin-based chemotherapy with in vivo spatiotemporal metabolomics

Adjuvant chemotherapy improves the survival outlook for patients undergoing operations for lung metastases caused by colorectal cancer (CRC). However, a multidisciplinary approach that evaluates several factors related to patient and tumor characteristics is necessary for managing chemotherapy treat...

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Veröffentlicht in:Journal of pharmaceutical analysis 2024-02, Vol.14 (2), p.196-210
Hauptverfasser: Olkowicz, Mariola, Ramadan, Khaled, Rosales-Solano, Hernando, Yu, Miao, Wang, Aizhou, Cypel, Marcelo, Pawliszyn, Janusz
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Sprache:eng
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Zusammenfassung:Adjuvant chemotherapy improves the survival outlook for patients undergoing operations for lung metastases caused by colorectal cancer (CRC). However, a multidisciplinary approach that evaluates several factors related to patient and tumor characteristics is necessary for managing chemotherapy treatment in metastatic CRC patients with lung disease, as such factors dictate the timing and drug regimen, which may affect treatment response and prognosis. In this study, we explore the potential of spatial metabolomics for evaluating metabolic phenotypes and therapy outcomes during the local delivery of the anticancer drug, oxaliplatin, to the lung. 12 male Yorkshire pigs underwent a 3 h left lung in vivo lung perfusion (IVLP) with various doses of oxaliplatin (7.5, 10, 20, 40, and 80 mg/L), which were administered to the perfusion circuit reservoir as a bolus. Biocompatible solid-phase microextraction (SPME) microprobes were combined with global metabolite profiling to obtain spatiotemporal information about the activity of the drug, determine toxic doses that exceed therapeutic efficacy, and conduct a mechanistic exploration of associated lung injury. Mild and subclinical lung injury was observed at 40 mg/L of oxaliplatin, and significant compromise of the hemodynamic lung function was found at 80 mg/L. This result was associated with massive alterations in metabolic patterns of lung tissue and perfusate, resulting in a total of 139 discriminant compounds. Uncontrolled inflammatory response, abnormalities in energy metabolism, and mitochondrial dysfunction next to accelerated kynurenine and aldosterone production were recognized as distinct features of dysregulated metabolipidome. Spatial pharmacometabolomics may be a promising tool for identifying pathological responses to chemotherapy. [Display omitted] •The potential of in vivo spatiotemporal metabolomics was explored for evaluating the chemotherapy outcome.•SPME microprobes were employed with global metabolite profiling.•Metabolic phenotypes were identified during the local delivery of oxaliplatin to the porcine lung.•Massive alterations in the metabolic patterns were recognized being indicative of acute lung injury (ALI).•Spatiotemporal metabolomics may improve ALI diagnosis and facilitate adjustments to the chemotherapy regimen.
ISSN:2095-1779
2214-0883
DOI:10.1016/j.jpha.2023.08.001