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Identification of limb-specific Lmx1b auto-regulatory modules with Nail-patella syndrome pathogenicity

Author

Listed:
  • Endika Haro

    (Loma Linda University School of Medicine
    Instituto de Biomedicina y Biotecnología de Cantabria, CSIC–SODERCAN-Universidad de Cantabria)

  • Florence Petit

    (Clinique de Génétique, CHU Lille
    EA7364 RADEME, Université de Lille)

  • Charmaine U. Pira

    (Loma Linda University School of Medicine)

  • Conor D. Spady

    (Loma Linda University School of Medicine)

  • Sara Lucas-Toca

    (Instituto de Biomedicina y Biotecnología de Cantabria, CSIC–SODERCAN-Universidad de Cantabria)

  • Lauren I. Yorozuya

    (Loma Linda University School of Medicine)

  • Austin L. Gray

    (Loma Linda University School of Medicine)

  • Fabienne Escande

    (EA7364 RADEME, Université de Lille
    Laboratoire de Biochimie et Biologie Moléculaire, CHU Lille)

  • Anne-Sophie Jourdain

    (EA7364 RADEME, Université de Lille
    Laboratoire de Biochimie et Biologie Moléculaire, CHU Lille)

  • Andy Nguyen

    (Loma Linda University School of Medicine)

  • Florence Fellmann

    (Service de Médecine Génétique, Centre Hospitalier Universitaire Vaudois)

  • Jean-Marc Good

    (Service de Médecine Génétique, Centre Hospitalier Universitaire Vaudois)

  • Christine Francannet

    (Service de génétique médicale, CHU Estaing)

  • Sylvie Manouvrier-Hanu

    (Clinique de Génétique, CHU Lille
    EA7364 RADEME, Université de Lille)

  • Marian A. Ros

    (Instituto de Biomedicina y Biotecnología de Cantabria, CSIC–SODERCAN-Universidad de Cantabria)

  • Kerby C. Oberg

    (Loma Linda University School of Medicine)

Abstract

LMX1B haploinsufficiency causes Nail-patella syndrome (NPS; MIM 161200), characterized by nail dysplasia, absent/hypoplastic patellae, chronic kidney disease, and glaucoma. Accordingly in mice, Lmx1b has been shown to play crucial roles in the development of the limb, kidney and eye. Although one functional allele of Lmx1b appears adequate for development, Lmx1b null mice display ventral-ventral distal limbs with abnormal kidney, eye and cerebellar development, more disruptive, but fully concordant with NPS. In Lmx1b functional knockouts (KOs), Lmx1b transcription in the limb is decreased nearly 6-fold, indicating autoregulation. Herein, we report on two conserved Lmx1b-associated cis-regulatory modules (LARM1 and LARM2) that are bound by Lmx1b, amplify Lmx1b expression with unique spatial modularity in the limb, and are necessary for Lmx1b-mediated limb dorsalization. These enhancers, being conserved across vertebrates (including coelacanth, but not other fish species), and required for normal locomotion, provide a unique opportunity to study the role of dorsalization in the fin to limb transition. We also report on two NPS patient families with normal LMX1B coding sequence, but with loss-of-function variations in the LARM1/2 region, stressing the role of regulatory modules in disease pathogenesis.

Suggested Citation

  • Endika Haro & Florence Petit & Charmaine U. Pira & Conor D. Spady & Sara Lucas-Toca & Lauren I. Yorozuya & Austin L. Gray & Fabienne Escande & Anne-Sophie Jourdain & Andy Nguyen & Florence Fellmann & , 2021. "Identification of limb-specific Lmx1b auto-regulatory modules with Nail-patella syndrome pathogenicity," Nature Communications, Nature, vol. 12(1), pages 1-11, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-25844-5
    DOI: 10.1038/s41467-021-25844-5
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