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. 2020 Feb;34(2):510-521.
doi: 10.1038/s41375-019-0538-1. Epub 2019 Aug 30.

Knock-in of murine Calr del52 induces essential thrombocythemia with slow-rising dominance in mice and reveals key role of Calr exon 9 in cardiac development

Thomas Balligand  1   2   3 Younes Achouri  4 Christian Pecquet  1   2   3 Gilles Gaudray  1   2 Didier Colau  1 Eva Hug  5 Yacine Rahmani  1   2   3 Vincent Stroobant  1 Isabelle Plo  6   7   8 William Vainchenker  6   7   8 Robert Kralovics  9 Benoît J Van den Eynde  1   2   3 Jean-Philippe Defour  1   2   3   10 Stefan N Constantinescu  11   12   13   14
Affiliations

Knock-in of murine Calr del52 induces essential thrombocythemia with slow-rising dominance in mice and reveals key role of Calr exon 9 in cardiac development

Thomas Balligand et al. Leukemia. 2020 Feb.

Abstract

Frameshifting mutations (-1/+2) of the calreticulin (CALR) gene are responsible for the development of essential thrombocythemia (ET) and primary myelofibrosis (PMF). The mutant CALR proteins activate the thrombopoietin receptor (TpoR) inducing cytokine-independent megakaryocyte progenitor proliferation. Here, we generated via CRISPR/Cas9 technology two knock-in mouse models that are heterozygous for a type-I murine Calr mutation. These mice exhibit an ET phenotype with elevated circulating platelets compared with wild-type controls, consistent with our previous results showing that murine CALR mutants activate TpoR. We also show that the mutant CALR proteins can be detected in plasma. The phenotype of Calr del52 is transplantable, and the Calr mutated hematopoietic cells have a slow-rising advantage over wild-type hematopoiesis. Importantly, a homozygous state of a type-1 Calr mutation is lethal at a late embryonic development stage, showing narrowed ventricular myocardium walls, similar to the murine Calr knockout phenotype, pointing to the C terminus of CALR as crucial for heart development.

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