An XIST-related small RNA regulates KRAS G-quadruplex formation beyond X-inactivation.

Yuli C Chang,Chi-Yu Lu,Wen-Ling Chan,Wen-Hsin Chang,Jan-Gowth Chang,Shou-Mei Wu,Chien-Chih Chiu,Ta-Chih Liu,Chung-Yee Yuo,Han-Lin Chou,Wen-Kuang Yang,Ya-Sian Chang

doi:10.18632/oncotarget.13433

Abstract

X-inactive-specific transcript (XIST), a long non-coding RNA, is essential for the initiation of X-chromosome inactivation. However, little is known about other roles of XIST in the physiological process in eukaryotic cells. In this study, the bioinformatics approaches revealed XIST could be processed into a small non-coding RNA XPi2. The XPi2 RNA was confirmed by a northern blot assay; its expression was gender-independent, suggesting the role of XPi2 was beyond X-chromosome inactivation. The pull-down assay combined with LC-MS-MS identified two XPi2-associated proteins, nucleolin and hnRNP A1, connected to the formation of G-quadruplex. Moreover, the microarray data showed the knockdown of XPi2 down-regulated the KRAS pathway. Consistently, we tested the expression of ten genes, including KRAS, which was correlated with a G-quadruplex formation and found the knockdown of XPi2 caused a dramatic decrease in the transcription level of KRAS among the ten genes. The results of CD/NMR assay also supported the interaction of XPi2 and the polypurine-polypyrimidine element of KRAS. Accordingly, XPi2 may stimulate the KRAS expression by attenuating G-quadruplex formation. Our present work sheds light on the novel role of small RNA XPi2 in modulating the G-quadruplex formation which may play some essential roles in the KRAS- associated carcinogenesis.

Highlights

X chromosome inactivation (XCI) is a process associated with gene dosage compensation between XX and XY individuals [1, 2]
According to our previous study, we aligned the sequences of functional SiRNAs (fsRNAs) and found this pi-like RNA molecule was located in the X-inactive specific transcript (XIST) region [29]
The northern blot method is a convincing method for small RNA validation and an enhanced detection way to improve the existence of small RNA molecules [30, 31]

Summary

Introduction

X chromosome inactivation (XCI) is a process associated with gene dosage compensation between XX and XY individuals [1, 2]. This epigenetic process inactivates one of the two X chromosomes in females [3]. The XIST gene is localized within the region on the X chromosome known to contain the X-inactivation center (XIC) [6]. Apart from monoallelic expression in the process of XCI, the XIST gene is influenced by a master control region and is associated with multiple long noncoding RNAs (lncRNA) [4]. XIST contains at least eight exons with a total length of 17 kb [6], and the noncoding RNA XIST is a chief regulator acting as a major effector central to the XCI phenomenon [3, 4, 8]

Methods

Results

Conclusion