Abstract
ITGA2 encodes the integrin, α2 which mediates metastatic progression, and is a predictor of poor prognosis and chemoresistance in breast cancer. Decreased ITGA2 promoter methylation is implicated as a driver of increased gene expression in aggressive prostate and pancreatic tumours, however the contribution of altered methylation to ITGA2 expression changes in breast tumours has not been examined. ITGA2 gene methylation and gene expression was examined in publicly available breast cancer datasets, and ITGA2 promoter methylation was mapped by targeted bisulphite sequencing analysis in breast tumour cell lines. The expression of a putative regulatory long noncoding RNA (lncRNA) was examined by qPCR and its' functionality was investigated using gene knockdown (antisense oligonucleotides) and over expression in breast cancer cell lines. In breast tumours and breast cancer cell lines the ITGA2 promoter is largely unmethylated, with gene expression variable in tumour subtypes, irrespective of promoter methylation. A novel lncRNA (AC025180.1;ENSG00000249899), named herein I2ALR, was identified at the ITGA2 gene locus, and was variably expressed in breast tumours and breast cancer cell subtypes. I2LAR knockdown resulted in upregulation of ITGA2 gene expression, whilst over-expression of I2ALR resulted in downregulation of ITGA2 mRNA. Further, examination of two downstream targets of ITGA2 associated with breast tumor stemness and metastasis (CCND1 and ACLY), revealed concomitant gene expression changes in response to I2ALR modulation. I2ALR represents a novel regulatory molecule targeting ITGA2 expression in breast tumours; a finding of significant and topical interest to the development of therapeutics targeting this integrin.
Highlights
Cell surface molecules including integrins are critical for metastasis and invasion
I2LAR knockdown resulted in upregulation of ITGA2 gene expression, whilst over-expression of ITGA2 Antisense LncRNA (I2ALR) resulted in downregulation of ITGA2 mRNA
Examination of two downstream targets of ITGA2 associated with breast tumor stemness and metastasis (CCND1 and ACLY), revealed concomitant gene expression changes in response to I2ALR modulation
Summary
Cell surface molecules including integrins are critical for metastasis and invasion. Integrin ITGA2, or a2 (CD49b), forms the a2β1 collagen type I (col-I) and laminin receptor [1, 2], a key mediator of metastasis and marker of poor prognosis in solid tumors including breast, ovarian and pancreatic cancers [3,4,5,6]. Primary breast cancer (BrCa) tumors retain the elevated a2β1 expression and estrogen receptor positive (ER+) status of normal breast tissue, with expression of a2β1 and ER often lost in soft tissue metastases [4]. Luminal/ER+ BrCa cell lines (MCF-7, T-47D or MCF-10A) have been reported to express elevated ITGA2, relative to basal-metastatic/ER− lines (MDA-MB-231 and MDA-MB-436) [9,10,11]. A2β1 expression promotes stem-cell like behaviour in triple negative BrCa [14]
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