Increased MCL1 dependency leads to new applications of BH3-mimetics in drug-resistant neuroblastoma

Author:

Jacob Maureen,Wiedemann Sara,Brücher Daniela,Pieper Nadja M.ORCID,Birkhold Moni,Särchen Vinzenz,Jeroch Jan,Demes Melanie C.,Gretser Steffen,Braun Yannick,Gradhand Elise,Rothweiler Florian,Michaelis Martin,Cinatl Jindrich,Vogler MeikeORCID

Abstract

Abstract Background Neuroblastoma is a paediatric cancer that is characterised by poor prognosis for chemoresistant disease, highlighting the need for better treatment options. Here, we asked whether BH3-mimetics inhibiting BCL2 proteins may eliminate chemoresistant neuroblastoma cells. Methods We utilised cisplatin-adapted neuroblastoma cell lines as well as patient tissues before and after relapse to study alterations of BCL2 proteins upon chemoresistance. Results In a direct comparison of cisplatin-resistant cells we identified a prominent loss of sensitivity to BCL2/BCL-XL inhibitors that is associated with an increase in MCL1 dependency and high expression of MCL1 in patient tumour tissues. Screening of FDA-approved anti-cancer drugs in chemoresistant cells identified therapeutics that may be beneficial in combination with the clinically tested BH3-mimetic ABT263, but no synergistic drug interactions with the selective MCL1 inhibitor S63845. Further exploration of potential treatment options for chemoresistant neuroblastoma identified immunotherapy based on NK cells as highly promising, since NK cells are able to efficiently kill both parental and chemoresistant cells. Conclusions These data highlight that the application of BH3-mimetics may differ between first line treatment and relapsed disease. Combination of NK cell-based immunotherapy with BH3-mimetics may further increase killing of chemoresistant neuroblastoma, outlining a new treatment strategy for relapsed neuroblastoma.

Funder

Deutsche Krebshilfe

Madeleine Schickedanz Kinderkrebsstiftung

Publisher

Springer Science and Business Media LLC

Subject

Cancer Research,Oncology

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