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RESEARCH PRODUCT
Trabectedin triggers direct and NK-mediated cytotoxicity in multiple myeloma
Cucè Maria (1)Gallo Cantafio Maria Eugenia(1)Siciliano Ma(1)Caterina RiilloCaracciolo Daniela(1)Scionti Francesca(1)Staropoli Nicoletta(2)Zuccalà Valeria(3)Maltese L(3)Di Vito A(1)Grillone Katia(1)Barbieri Vito(2)Mariamena ArbitrioDi Martino Maria Teresa(12)Rossi Marco(12)Amodio Nicola(1)Tagliaferri Pierosandro(12)Pierfrancesco Tassone67)Ciro Bottasubject
0301 basic medicineCancer ResearchCell cycle checkpointNatural killerDNA repairmedicine.medical_treatmentMyelomalcsh:RC254-28203 medical and health sciences0302 clinical medicineMicro-RNAmedicineHumansMolecular BiologyAntineoplastic Agents AlkylatingTrabectedin3D-modelChemistrylcsh:RC633-647.5ResearchMicro-RNAsHematologylcsh:Diseases of the blood and blood-forming organsCell cycleNKG2Dlcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogensKiller Cells Natural030104 developmental biologyCytokineOncologyApoptosis3D-models030220 oncology & carcinogenesis3D-models; Micro-RNAs; Myeloma; Natural killer; TrabectedinCancer researchDNA fragmentationMultiple Myelomamedicine.drugTrabectedindescription
Background Genomic instability is a feature of multiple myeloma (MM), and impairment in DNA damaging response (DDR) has an established role in disease pathobiology. Indeed, a deregulation of DNA repair pathways may contribute to genomic instability, to the establishment of drug resistance to genotoxic agents, and to the escape from immune surveillance. On these bases, we evaluated the role of different DDR pathways in MM and investigated, for the first time, the direct and immune-mediated anti-MM activity of the nucleotide excision repair (NER)-dependent agent trabectedin. Methods Gene-expression profiling (GEP) was carried out with HTA2.0 Affymetrix array. Evaluation of apoptosis, cell cycle, and changes in cytokine production and release have been performed in 2D and 3D Matrigel-spheroid models through flow cytometry on MM cell lines and patients-derived primary MM cells exposed to increasing nanomolar concentrations of trabectedin. DNA-damage response has been evaluated through Western blot, immunofluorescence, and DNA fragmentation assay. Trabectedin-induced activation of NK has been assessed by CD107a degranulation. miRNAs quantification has been done through RT-PCR. Results By comparing GEP meta-analysis of normal and MM plasma cells (PCs), we observed an enrichment in DNA NER genes in poor prognosis MM. Trabectedin triggered apoptosis in primary MM cells and MM cell lines in both 2D and 3D in vitro assays. Moreover, trabectedin induced DDR activation, cellular stress with ROS production, and cell cycle arrest. Additionally, a significant reduction of MCP1 cytokine and VEGF-A in U266-monocytes co-cultures was observed, confirming the impairment of MM-promoting milieu. Drug-induced cell stress in MM cells led to upregulation of NK activating receptors ligands (i.e., NKG2D), which translated into increased NK activation and degranulation. Mechanistically, this effect was linked to trabectedin-induced inhibition of NKG2D-ligands negative regulators IRF4 and IKZF1, as well as to miR-17 family downregulation in MM cells. Conclusions Taken together, our findings indicate a pleiotropic activity of NER-targeting agent trabectedin, which appears a promising candidate for novel anti-MM therapeutic strategies. Electronic supplementary material The online version of this article (10.1186/s13045-019-0714-9) contains supplementary material, which is available to authorized users.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2019-03-01 | Journal of Hematology & Oncology |