MSLN Gene Silencing Has an Anti-Malignant Effect on Cell Lines Overexpressing Mesothelin Deriving from Malignant Pleural Mesothelioma

Ombretta Melaiu,Elisa Bracci,Alfonso Cristaudo,Georgios Giamas,Stefano Landi,Rudy Foddis,Justin Stebbing,Federica Gemignani,Norihisa Uehara,Ylenia Lombardo,Alessandra Bonotti,Roberto Barale,Luciano Mutti,Mitchell Ho

doi:10.1371/journal.pone.0085935

Ombretta Melaiu, Elisa Bracci + Show 12 more

Open Access

https://doi.org/10.1371/journal.pone.0085935

Copy DOI

Abstract

Genes involved in the carcinogenetic mechanisms underlying malignant pleural mesothelioma (MPM) are still poorly characterized. So far, mesothelin (MSLN) has aroused the most interest. It encodes for a membrane glycoprotein, frequently over-expressed in various malignancies such as MPM, and ovarian and pancreatic cancers. It has been proposed as a diagnostic and immunotherapeutic target with promising results. However, an alternative therapeutic approach seems to rise, whereby synthetic molecules, such as antisense oligonucleotides, could be used to inhibit MSLN activity. To date, such a gene-level inhibition has been attempted in two studies only, both on pancreatic and ovarian carcinoma cell lines, with the use of silencing RNA approaches. With regard to MPM, only one cell line (H2373) has been employed to study the effects of MSLN depletion. Indeed, the knowledge on the role of MSLN in MPM needs expanding. Accordingly, we investigated the expression of MSLN in a panel of three MPM cell lines, i.e. NCI-H28, Mero-14, and IstMes2; one non-MPM cell line was used as reference (Met5A). MSLN knock-down experiments on MSLN-overexpressing cells were also performed through silencing RNA (siRNA) to verify whether previous findings could be generalized to a different set of cell cultures. In agreement with previous studies, transient MSLN-silencing caused decreased proliferation rate and reduced invasive capacity and sphere formation in MSLN-overexpressing Mero-14 cells. Moreover, MSLN-siRNA combined with cisplatin, triggered a marked increase in apoptosis and a decrease in proliferation as compared to cells treated with each agent alone, thereby suggesting a sensitizing effect of siRNA towards cisplatin. In summary, our findings confirm that MSLN should be considered a key molecular target for novel gene-based targeted therapies of cancer.

Highlights

Malignant pleural mesothelioma (MPM) is a cancer of the pleural cavity triggered by asbestos exposure
Similar findings were reported by Wang et al in the MSLN-overexpressing MPM cell lines H2373 [25]
The results on MPM cells were in agreement with the findings observed in PC and ovarian carcinomas (OC) cells [25], suggesting that all the MSLN-expressing cancer cells show a significant loss of viability upon MSLN depletion

Summary

Introduction

Malignant pleural mesothelioma (MPM) is a cancer of the pleural cavity triggered by asbestos exposure. The C-terminal residues departing from Ser598 are replaced with glycosylphosphatidyl-inositol (GPI) facilitating the anchoring of the peptide to the cell membrane. The precursor is cleaved at Arg295 by the endoprotease furin into a ,31 kDa soluble peptide called ‘‘megakaryocyte potentiating factor’’ (from aminoacid Ser to Arg286) [1] and a ,40 kDa GPI-anchored membrane-bound glycoprotein (mature mesothelin, MSLN, starting from Glu296) [2,3,4]. A soluble form of MSLN (soluble mesothelin related peptide, SMRP) is known, lacking the C-terminal GPI-membrane anchor binding segment [7]. It was suggested that MSLN could exert its role in the malignant transformation of human cells, through the b-catenin pathway, an important molecule for the epithelial-mesenchymal transition [15]

Methods

Results

Conclusion