Frontiers in Cell and Developmental Biology (Mar 2021)

A New Zebrafish Model for Pseudoxanthoma Elasticum

  • Dávid Czimer,
  • Klaudia Porok,
  • Dániel Csete,
  • Zsolt Gyüre,
  • Viktória Lavró,
  • Krisztina Fülöp,
  • Zelin Chen,
  • Hella Gyergyák,
  • Gábor E. Tusnády,
  • Shawn M. Burgess,
  • Attila Mócsai,
  • András Váradi,
  • Máté Varga

DOI
https://doi.org/10.3389/fcell.2021.628699
Journal volume & issue
Vol. 9

Abstract

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Calcification of various tissues is a significant health issue associated with aging, cancer and autoimmune diseases. There are both environmental and genetic factors behind this phenomenon and understanding them is essential for the development of efficient therapeutic approaches. Pseudoxanthoma elasticum (PXE) is a rare genetic disease, a prototype for calcification disorders, resulting from the dysfunction of ABCC6, a transport protein found in the membranes of cells. It is identified by excess calcification in a variety of tissues (e.g., eyes, skin, arteries) and currently it has no cure, known treatments target the symptoms only. Preclinical studies of PXE have been successful in mice, proving the usefulness of animal models for the study of the disease. Here, we present a new zebrafish (Danio rerio) model for PXE. By resolving some ambiguous assemblies in the zebrafish genome, we show that there are two functional and one non-functional paralogs for ABCC6 in zebrafish (abcc6a, abcc6b.1, and abcc6b.2, respectively). We created single and double mutants for the functional paralogs and characterized their calcification defects with a combination of techniques. Zebrafish deficient in abcc6a show defects in their vertebral calcification and also display ectopic calcification foci in their soft tissues. Our results also suggest that the impairment of abcc6b.1 does not affect this biological process.

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