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. 2021 Apr;592(7852):93-98.
doi: 10.1038/s41586-021-03208-9. Epub 2021 Feb 10.

Non-coding deletions identify Maenli lncRNA as a limb-specific En1 regulator

Lila Allou  1   2 Sara Balzano  3   4 Andreas Magg  1   2   5 Mathieu Quinodoz  3   6   7 Beryl Royer-Bertrand  4 Robert Schöpflin  1   2 Wing-Lee Chan  2   5 Carlos E Speck-Martins  8 Daniel Rocha Carvalho  8 Luciano Farage  9 Charles Marques Lourenço  10 Regina Albuquerque  11 Srilakshmi Rajagopal  12 Sheela Nampoothiri  13 Belinda Campos-Xavier  4 Carole Chiesa  4 Florence Niel-Bütschi  4 Lars Wittler  14 Bernd Timmermann  15 Malte Spielmann  1   2   16 Michael I Robson  1 Alessa Ringel  1 Verena Heinrich  17 Giulia Cova  1   2 Guillaume Andrey  1   18 Cesar A Prada-Medina  1 Rosanna Pescini-Gobert  3 Sheila Unger  4 Luisa Bonafé  4 Phillip Grote  19 Carlo Rivolta  3   6   7   20 Stefan Mundlos  21   22   23 Andrea Superti-Furga  4
Affiliations

Non-coding deletions identify Maenli lncRNA as a limb-specific En1 regulator

Lila Allou et al. Nature. 2021 Apr.

Abstract

Long non-coding RNAs (lncRNAs) can be important components in gene-regulatory networks1, but the exact nature and extent of their involvement in human Mendelian disease is largely unknown. Here we show that genetic ablation of a lncRNA locus on human chromosome 2 causes a severe congenital limb malformation. We identified homozygous 27-63-kilobase deletions located 300 kilobases upstream of the engrailed-1 gene (EN1) in patients with a complex limb malformation featuring mesomelic shortening, syndactyly and ventral nails (dorsal dimelia). Re-engineering of the human deletions in mice resulted in a complete loss of En1 expression in the limb and a double dorsal-limb phenotype that recapitulates the human disease phenotype. Genome-wide transcriptome analysis in the developing mouse limb revealed a four-exon-long non-coding transcript within the deleted region, which we named Maenli. Functional dissection of the Maenli locus showed that its transcriptional activity is required for limb-specific En1 activation in cis, thereby fine-tuning the gene-regulatory networks controlling dorso-ventral polarity in the developing limb bud. Its loss results in the En1-related dorsal ventral limb phenotype, a subset of the full En1-associated phenotype. Our findings demonstrate that mutations involving lncRNA loci can result in human Mendelian disease.

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References

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