Overexpression of Pericentromeric HSAT2 DNA Increases Expression of EMT Markers in Human Epithelial Cancer Cell Lines.

Abstract

Pericentromeric tandemly repeated DNA of human satellites 1, 2, and 3 (HS1, HS2, and HS3) is actively transcribed in some cells. However, the functionality of the transcription remains obscure. Studies in this area have been hampered by the absence of a gapless genome assembly. The aim of our study was to map a transcript that we have previously described as HS2/HS3 on chromosomes using a newly published gapless genome assembly T2T-CHM13, and create a plasmid overexpressing the transcript to assess the influence of HS2/HS3 transcription on cancer cells. We report here that the sequence of the transcript is tandemly repeated on nine chromosomes (1, 2, 7, 9, 10, 16, 17, 22, and Y). A detailed analysis of its genomic localization and annotation in the T2T-CHM13 assembly revealed that the sequence belonged to HSAT2 (HS2) but not to the HS3 family of tandemly repeated DNA. The transcript was found on both strands of HSAT2 arrays. The overexpression of the HSAT2 transcript increased the transcription of the genes encoding the proteins involved in the epithelial-to-mesenchymal transition, EMT (SNAI1, ZEB1, and SNAI2), and the genes that mark cancer-associated fibroblasts (VIM, COL1A1, COL11A1, and ACTA2) in cancer cell lines A549 and HeLa. Co-transfection of the overexpression plasmid and antisense nucleotides eliminated the transcription of EMT genes observed after HSAT2 overexpression. Antisense oligonucleotides also decreased transcription of the EMT genes induced by tumor growth factor beta 1 (TGFβ1). Thus, our study suggests HSAT2 lncRNA transcribed from the pericentromeric tandemly repeated DNA is involved in EMT regulation in cancer cells.