1. Academic Validation
  2. Enhanced osteopontin splicing regulated by RUNX2 is HDAC-dependent and induces invasive phenotypes in NSCLC cells

Enhanced osteopontin splicing regulated by RUNX2 is HDAC-dependent and induces invasive phenotypes in NSCLC cells

  • Cancer Cell Int. 2019 Nov 21;19:306. doi: 10.1186/s12935-019-1033-5.
Jing Huang 1 2 Siyuan Chang 1 2 Yabin Lu 1 Jing Wang 1 Yang Si 1 Lijian Zhang 3 Shan Cheng 1 2 Wen G Jiang 4
Affiliations

Affiliations

  • 1 1Department of Medical Genetics and Developmental Biology, School of Basic Medical Sciences, Capital Medical University, Beijing, 100069 China.
  • 2 2Beijing Key Laboratory of Cancer & Metastasis Research, Capital Medical University, Beijing, 100069 China.
  • 3 3Department of Thoracic Surgery, Key Laboratory for Carcinogenesis and Translational Research Ministry of Education, Peking University Hospital, Beijing, 100142 China.
  • 4 4Cardiff China Medical Research Collaborative, Cardiff University School of Medicine, Heath Park, Cardiff, CF14 4XN UK.
Abstract

Background: Increased cell mobility is a signature when tumor cells undergo epithelial-to-mesenchymal transition. TGF-β is a key stimulating factor to promote the transcription of a variety of downstream genes to accelerate Cancer progression and metastasis, including osteopontin (OPN) which exists in several functional forms as different splicing variants. In non-small cell lung Cancer cells, although increased total OPN expression was observed under various EMT conditions, the exact constitution and the underlining mechanism towards the generation of such OPN splicing isoforms was poorly understood.

Methods: We investigated the possible mechanisms of osteopontin splicing variant and its role in EMT and Cancer metastasis using NSCLC cell line and cell and Molecular Biology techniques.

Results: In this study, we determined that OPNc, an exon 4 excluded shorter form of Opn gene products, appeared to be more potent to promote cell invasion. The expression of OPNc was selectively increased to higher abundance during EMT following TGF-β induction. The switching from OPNa to OPNc could be enhanced by RUNX2 (a transcription factor that recognizes the Opn gene promoter) overexpression, but appeared to be strictly in a HDAC dependent manner in A549 cells. The results suggested the increase of minor splicing variant of OPNc required both (1) the enhanced transcription from its coding gene driven by specific transcription factors; and (2) the simultaneous modulation or fluctuation of the coupled splicing process that depends to selective classed of epigenetic regulators, predominately HDAC family members.

Conclusion: Our study not only emphasized the importance of splicing variant for its role in EMT and Cancer metastasis, but also helped to understand the possible mechanisms of the epigenetic controls for defining the levels and kinetic of gene splicing isoforms and their generations.

Keywords

EMT; HDAC; OPN; RUNX2; Splicing.

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