Gasdermin B over-expression modulates HER2-targeted therapy resistance by inducing protective autophagy through Rab7 activation

Abstract

Gasdermin B; HER2 breast cancer; Protective autophagy

Gasdermin B; Càncer de mama HER2; Autofàgia protectora

Gasdermin B; Cáncer de mama HER2; Autofagia protectora

Background Gasdermin B (GSDMB) over-expression promotes poor prognosis and aggressive behavior in HER2 breast cancer by increasing resistance to therapy. Decoding the molecular mechanism of GSDMB-mediated drug resistance is crucial to identify novel effective targeted treatments for HER2/GSDMB aggressive tumors. Methods Different in vitro approaches (immunoblot, qRT-PCR, flow cytometry, proteomic analysis, immunoprecipitation, and confocal/electron microscopy) were performed in HER2 breast and gastroesophageal carcinoma cell models. Results were then validated using in vivo preclinical animal models and analyzing human breast and gastric cancer samples. Results GSDMB up-regulation renders HER2 cancer cells more resistant to anti-HER2 agents by promoting protective autophagy. Accordingly, the combination of lapatinib with the autophagy inhibitor chloroquine increases the therapeutic response of GSDMB-positive cancers in vitro and in zebrafish and mice tumor xenograft in vivo models. Mechanistically, GSDMB N-terminal domain interacts with the key components of the autophagy machinery LC3B and Rab7, facilitating the Rab7 activation during pro-survival autophagy in response to anti-HER2 therapies. Finally, we validated these results in clinical samples where GSDMB/Rab7/LC3B co-expression associates significantly with relapse in HER2 breast and gastric cancers. Conclusion Our findings uncover for the first time a functional link between GSDMB over-expression and protective autophagy in response to HER2-targeted therapies. GSDMB behaves like an autophagy adaptor and plays a pivotal role in modulating autophagosome maturation through Rab7 activation. Finally, our results provide a new and accessible therapeutic approach for HER2/GSDMB + cancers with adverse clinical outcome.

This study has been supported by the Ministerio de Ciencia, Innovación y Universidades, Agencia Estatal de Investigación (PID2019-104644RB-I00) -GMB-, the Instituto de Salud Carlos III (CIBERONC, CB16/12/00449 -JA-, CB16/12/00231 -DLN- and CB16/12/00295 -GMB-, PI19/01181 -JA-, PI18/00795, CP17/00063 and RTI2018-095611-A-I00 -DLN- and ERA-NET TRANSCAN-2 -JA- [all partly supported by FEDER funds]) and by the AECC Scientific Foundation (FC_AECC PROYE19036MOR -GMB- and LABAE19004LLOB -DLN-). Furthermore, this work was supported by Breast Cancer Research Foundation (BCRF-19–08) -JA-. We are also grateful to the CERCA Programme (Generalitat de Catalunya) for institutional support. MGC and DS contracts are funded by CIBERONC, KG is a recipient of a PFIS fellowship (FI19/00188), RRB is recipient of a Ramón y Cajal grant (RyC-2016–19671) and DLN is recipient of a Miguel Servet grant (MS17/00063) (all partly supported by FEDER funds). We are also grateful to MD Anderson BIOBANK for providing tumor samples. The bank (reference # B.0000745) belongs to the National Registry of Biobanks coordinated by the Carlos III Health Institute.