A misplaced lncRNA causes brachydactyly in humans
Philipp G. Maass, … , Friedrich C. Luft, Sylvia Bähring
Philipp G. Maass, … , Friedrich C. Luft, Sylvia Bähring
Published October 24, 2012
Citation Information: J Clin Invest. 2012;122(11):3990-4002. https://doi.org/10.1172/JCI65508.
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A misplaced lncRNA causes brachydactyly in humans

Abstract

Translocations are chromosomal rearrangements that are frequently associated with a variety of disease states and developmental disorders. We identified 2 families with brachydactyly type E (BDE) resulting from different translocations affecting chromosome 12p. Both translocations caused downregulation of the parathyroid hormone-like hormone (PTHLH) gene by disrupting the cis-regulatory landscape. Using chromosome conformation capturing, we identified a regulator on chromosome 12q that interacts in cis with PTHLH over a 24.4-megabase distance and in trans with the sex-determining region Y-box 9 (SOX9) gene on chromosome 17q. The element also harbored a long noncoding RNA (lncRNA). Silencing of the lncRNA, PTHLH, or SOX9 revealed a feedback mechanism involving an expression-dependent network in humans. In the BDE patients, the human lncRNA was upregulated by the disrupted chromosomal association. Moreover, the lncRNA occupancy at the PTHLH locus was reduced. Our results document what we believe to be a novel in cis– and in trans–acting DNA and lncRNA regulatory feedback element that is reciprocally regulated by coding genes. Furthermore, our findings provide a systematic and combinatorial view of how enhancers encoding lncRNAs may affect gene expression in normal development.

Authors

Philipp G. Maass, Andreas Rump, Herbert Schulz, Sigmar Stricker, Lisanne Schulze, Konrad Platzer, Atakan Aydin, Sigrid Tinschert, Mary B. Goldring, Friedrich C. Luft, Sylvia Bähring

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Figure 5

CISTR-ACT in rodents.

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CISTR-ACT in rodents. (A and B) Phylogenetic analysis of the CISTR-AC...
(A and B) Phylogenetic analysis of the CISTR-ACT DNA and lncRNA sequences. 121 conserved TFBSs were bioinformatically predicted. The differences of the scales indicate that the lncRNAs are evolutionarily more divergent than the conserved DNA sequences. (C) Genomic arrangement of murine and rat Pthlh, Sox9, and CISTR-ACT–encoded lncRNAs AW491522 and BM385392, respectively, suggested an in trans network. (D) siRNA transfections of mouse ATDC5 (10 days differentiated) chondrocytes. Depletion of the mouse lncRNA AW491522 caused Pthlh or Sox9 downregulation. Knockdown of either Pthlh or Sox9 depleted the lncRNA (n = 4). (E) siRNA assays in RCSs. An analogous expression-dependent network was observed compared with the ATDC5 results (n = 5).**P ≤ 0.01.