Long non-coding RNA HOTAIR reprograms chromatin state to promote cancer metastasis

Abstract

Long non-coding RNAs (lincRNAs), a relatively recently recognized class of widely transcribed genes, are thought to affect chromatin state and epigenetic regulation, but their mechanisms of action and potential roles in human disease are poorly understood. This study shows that long non-coding RNAs in the human HOX loci are systematically dysregulated during breast cancer progression, and that expression levels of the lincRNA termed HOTAIR can predict cancer metastasis. Elevated levels of HOTAIR can lead to altered patterns of Polycomb binding to the genome. These findings indicate that lincRNAs have active roles in modulating the cancer epigenome and may be important targets for cancer diagnosis and therapy. Large intervening non-coding RNAs (lincRNAs) are pervasively transcribed in the genome. Here it is shown that lincRNAs in the HOX genetic loci are dysregulated during breast cancer progression in human cells, and that expression levels of the lincRNA called HOTAIR can predict whether a tumour will metastasize. Moreover, enforced expression of HOTAIR can lead to altered patterns of binding of the PRC2 protein to the genome. Large intervening non-coding RNAs (lincRNAs) are pervasively transcribed in the genome1,2,3 yet their potential involvement in human disease is not well understood4,5. Recent studies of dosage compensation, imprinting, and homeotic gene expression suggest that individual lincRNAs can function as the interface between DNA and specific chromatin remodelling activities6,7,8. Here we show that lincRNAs in the HOX loci become systematically dysregulated during breast cancer progression. The lincRNA termed HOTAIR is increased in expression in primary breast tumours and metastases, and HOTAIR expression level in primary tumours is a powerful predictor of eventual metastasis and death. Enforced expression of HOTAIR in epithelial cancer cells induced genome-wide re-targeting of Polycomb repressive complex 2 (PRC2) to an occupancy pattern more resembling embryonic fibroblasts, leading to altered histone H3 lysine 27 methylation, gene expression, and increased cancer invasiveness and metastasis in a manner dependent on PRC2. Conversely, loss of HOTAIR can inhibit cancer invasiveness, particularly in cells that possess excessive PRC2 activity. These findings indicate that lincRNAs have active roles in modulating the cancer epigenome and may be important targets for cancer diagnosis and therapy.