Structural analysis of the lncRNA SChLAP1 reveals protein binding interfaces and a conformationally heterogenous retroviral insertion

  1. Amanda E. Hargrove1,2,3
  1. 1Department of Biochemistry, Duke University School of Medicine, Durham, North Carolina 27710, USA
  2. 2Department of Chemistry, Duke University, Durham, North Carolina 27708, USA
  3. 3Department of Chemistry, University of Toronto, Mississauga, Ontario, L5L1C6, Canada
  1. Corresponding author: amanda.hargrove{at}utoronto.ca
  1. Handling editor: Ling-Ling Chen

Abstract

The lncRNA second chromosome locus associated with prostate 1 (SChLAP1) was previously identified as a predictive biomarker and potential driver of aggressive prostate cancer. Recent work suggested that SChLAP1 may bind the SWI/SNF chromatin remodeling complex to promote prostate cancer metastasis, though the exact role of SWI/SNF recognition is debated. To date, there are no detailed biochemical studies of apo SChLAP1 or SChLAP1:protein complexes. Herein, we report the first secondary structure model of SChLAP1 using SHAPE-MaP in vitro, in cellulo, and ex cellulo (protein-free). Comparison of the ex cellulo and in cellulo data via ΔSHAPE identified putative protein binding regions within SChLAP1. In addition, phylogenetic analysis revealed that SChLAP1 is a primate-conserved lncRNA, with two exons significantly derived from primate-specific retroviral insertions. In particular, we characterized a complex structural landscape in a protein binding region at the 3′-end of SChLAP1 derived from a THE1B-type retroviral insertion, suggesting a role for an exapted RNA structure in SChLAP1:protein recognition and prostate cancer progression. Lastly, pulldowns of SChLAP1 substructures enabled identification of previously unestablished SChLAP1-interacting proteins. This work lays the foundation for future efforts to selectively target and disrupt SChLAP1 structures and/or protein interfaces and to develop new therapeutic avenues in prostate cancer treatment.

Keywords

Footnotes

  • Received March 31, 2025.
  • Accepted May 5, 2025.

This article, published in RNA, is available under a Creative Commons License (Attribution-NonCommercial 4.0 International), as described at http://creativecommons.org/licenses/by-nc/4.0/.

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