Marco Silipo scite author profile

It is well known that many genes implicated in the development and progression of breast cancer undergo aberrant alternative splicing events to produce proteins with pro-cancer properties. These changes in alternative splicing can arise from mutations or single-nucleotide polymorphisms (SNPs) within the DNA sequences of cancer-related genes, which can strongly affect the activity of splicing factors and influence the splice site choice. However, it is important to note that absence of mutations is not sufficient to prevent misleading choices in splice site selection. There is now increasing evidence to demonstrate that the expression profile of ten splicing factors (including SRs and hnRNPs) and eight RNA-binding proteins changes in breast cancer cells compared with normal cells. These modifications strongly influence the alternative splicing pattern of many cancer-related genes despite the absence of any detrimental mutations within their DNA sequences. Thus, a comprehensive assessment of the splicing factor status in breast cancer is important to provide insights into the mechanisms that lead to breast cancer development and metastasis. Whilst most studies focus on mutations that affect alternative splicing in cancer-related genes, this review focuses on splicing factors and RNA-binding proteins that are themselves deregulated in breast cancer and implicated in cancer-related alternative splicing events.

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BRCA1 exon 11 a model of long exon splicing regulation

Raponi

Smith

Silipo

et al. 2014

RNA Biology

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BRCA1 exon 11 is one of the biggest human exons, spanning 3426 bases. This gene is potentially involved in DNA repair as well as cell growth and cell cycle control. Exon 11 is regulated at the splicing level producing three main different combinations of BRCA1 mature transcripts; one including the whole of exon 11 (full isoform), one skipping the entire exon (D11 isoform), and one including only 117 base pairs of exon 11 (D11q isoform). Using minigene and deletion analyses, we have previously described important splicing regulatory sequences located at the beginning of this exon (5' end). We have now found additional important sequences located at its 3' end. In particular, we describe the presence of a strong splicing enhancer adjacent to the downstream 5' splice site, which minimizes competition from an upstream 5' splice site and so ensures long exon inclusion. Analyses of the proteins binding these RNA sequences have revealed that Tra2beta and hnRNP L are involved in the regulation of BRCA1 exon 11 by influencing the recognition of donor sites. Interestingly, BRCA1 exon 11 carrying deletion of the regulatory sequences bound by these factors also showed unexpected responses to up- or downregulation of these regulatory proteins, suggesting that they can also bind elsewhere in this large exon and elicit different effects on its recognition. The identification of sequences and proteins relevant for the regulation of BRCA1 exon 11 now provides better knowledge on how this exon is recognized and may represent an important step toward understanding how large exons are regulated.

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How is Herstatin, a tumor suppressor splice variant of the oncogeneHER2, regulated?

et al. 2017

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The human epidermal growth factor receptor 2 (HER2)/receptor tyrosine-protein kinasebB-2 (ERBB2) is overexpressed in 20-30% of breast tumors leading to faster growing and more aggressive tumors. Alternative splicing generates a functionally distinct HER2 variant called Herstatin, which is produced by the inclusion of intron 8. Herstatin acts as a tumor suppressor by effectively blocking HER2 activity and cell proliferation, while promoting apoptosis. In the present study we investigated HER2 pre-mRNA regulatory sequences and splicing factors which regulate the alternative splicing of Herstatin. A Herstatin minigene, comprising exon 8/intron 8/exon 9 of HER2 was generated and subsequent in vitro splicing assays revealed that RNA secondary structure and somatic mutations did not impact on inclusion of intron 8. However, using RNase-assisted RNA chromatography, followed by mass spectrometry, we identified six RNA-binding proteins (splicing factors) that bind to RNA sequences surrounding exon 8/intron 8 and intron 8/exon 9 boundaries; these included hnRNP I, H1, D, A2/B1 and hnRNPA1 plus the SR protein SRSF1. Specifically, overexpression of hnRNP A1 significantly increased retention of intron 8 resulting in higher levels of Herstatin in SKBR3 breast cancer cells whereas SRSF1 only had a marginal effect in decreasing Herstatin but increased exogenous HER2 levels under these experimental conditions. In conclusion, we have identified the first splicing factors and regulatory sequences that are involved in the production of Herstatin.

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HER2-PI9 and HER2-I12: two novel and functionally active splice variants of the oncogene HER2 in breast cancer

Hart

Silipo

Satam

et al. 2021

J Cancer Res Clin Oncol

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In this study, two novel alternative splice variants of HER2, named HER2-PI9 and HER2-I12, were identified in breast cancer cell lines and breast tumour tissues. Whilst HER2-P19 arises from the inclusion of an 117 bp cassette-exon of intron 9 of HER2, HER2-I12 results from intron 12 inclusion. In silico analyses were performed to predict the amino acid sequences of these two HER2 novel variants. To confirm their protein expression, plasmid vectors were generated and transfected into the HER2 negative breast cancer cell line, MCF-7. Additionally, their functional properties in oncogenic signalling were confirmed. Expression of HER2-PI9 and HER2-I12 was successful and matched the in silico predictions. Importantly, these splice variants can modulate the phosphorylation levels of extracellular signal-related kinase 1/2 (ERK1/2) and Akt/protein kinase B (Akt) signalling in MCF-7 breast cancer cells. Enhanced cellular proliferation, migration and invasion were observed in the case of the HER2-I12 expressing model. In human tissues and breast carcinoma tumours both variants were present. This study reveals two novel splice variants of HER2. Additionally, the potential biological activity for HER2-PI9 and HER2-I12 in breast cancer cells is also reported..

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Marco Silipo

Deregulation of splicing factors and breast cancer development

BRCA1 exon 11 a model of long exon splicing regulation

How is Herstatin, a tumor suppressor splice variant of the oncogeneHER2, regulated?

HER2-PI9 and HER2-I12: two novel and functionally active splice variants of the oncogene HER2 in breast cancer

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