Papillary thyroid carcinoma (PTC), accounting for approximately 85% cases of thyroid cancer, is a common endocrine tumour with a relatively low mortality but an alarmingly high rate of recurrence or persistence. Long non‐coding RNAs (lncRNAs) is emerging as a critical player modulating diverse cellular mechanisms correlated with the progression of various cancers, including PTC. Herein, we aimed to investigate the role of lncRNA SLC26A4‐AS1 in regulating autophagy and tumour growth during PTC progression. Initially, ITPR1 was identified by bioinformatics analysis as a differentially expressed gene. Then, Western blot and RT‐qPCR were conducted to determine the expression of ITPR1 and SLC26A4‐AS1 in PTC tissues and cells, both of which were found to be poorly expressed in PTC tissues and cells. Then, we constructed ITPR1‐overexpressing cells and revealed that ITPR1 overexpression could trigger the autophagy of PTC cells. Further, we performed a series of gain‐ and loss‐of function experiments. The results suggested that silencing of SLC26A4‐AS1 led to declined ITPR1 level, up‐regulation of ETS1 promoted ITPR1 expression, and either ETS1 knockdown or autophagy inhibitor Bafilomycin A1 could mitigate the promoting effects of SLC26A4‐AS1 overexpression on PTC cell autophagy. In vivo experiments also revealed that SLC26A4‐AS1 overexpression suppressed PTC tumour growth. In conclusion, our study elucidated that SLC26A4‐AS1 overexpression promoted ITPR1 expression through recruiting ETS1 and thereby promotes autophagy, alleviating PTC progression. These finding provides insight into novel target therapy for the clinical treatment of PTC.
Background The long non‐coding RNAs (lncRNAs) have been involved in various processes, including cancer. However, the function of many lncRNAs is still elusive in triple‐negative breast cancer (TNBC). Methods LncRNA profiling was used to screen for novel lncRNAs related to TNBC. OLBC15 expression was measured via q RT‐PCR. In vitro migration and viability assays were conducted to determine the oncogenic role of OLBC15. Xenograft and metastatic models were performed to further investigate effects in vivo. RNA immunoprecipitation (RIP), mass spectrometry (MS), and fluorescence in situ hybridization (FISH) strategies were designed to identify the interaction between ZNF326 and OLBC15. Results In the current study, we have identified a novel oncogenic lncRNA termed OLBC15 via lncRNA profiling. OLBC15 is highly expressed especially in triple‐negative breast cancer. OLBC15 promoted viability and migration in breast cancer cells. Moreover, OLBC15 could accelerate metastasis and xenograft tumor growth. Mechanistic study suggested that OLBC15 could bind a well‐characterized tumor suppressor ZNF326 and OLBC15‐ZNF326 interaction resulted in ZNF326 destabilization. OLBC15 induced proteasomal ZNF326 degradation through enhanced ubiquitination. OLBC15 and ZNF326 protein expression is also negatively correlated in clinical specimens. Conclusions Collectively, OLBC15 may serve as an oncogenic lncRNA to facilitate TNBC progression and a putative target for therapeutic anti‐breast cancer intervention.
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