Frontiers in Cell and Developmental Biology (Jan 2022)

Primitive Erythropoiesis in the Mouse is Independent of DOT1L Methyltransferase Activity

  • Carrie A. Malcom,
  • Anamika Ratri,
  • Joanna Piasecka-Srader,
  • Shaon Borosha,
  • V. Praveen Chakravarthi,
  • Nehemiah S. Alvarez,
  • Jay L. Vivian,
  • Timothy A. Fields,
  • M.A. Karim Rumi,
  • Patrick E. Fields

DOI
https://doi.org/10.3389/fcell.2021.813503
Journal volume & issue
Vol. 9

Abstract

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DOT1-like (DOT1L) histone methyltransferase is essential for mammalian erythropoiesis. Loss of DOT1L in knockout (Dot1l-KO) mouse embryos resulted in lethal anemia at midgestational age. The only recognized molecular function of DOT1L is its methylation of histone H3 lysine 79 (H3K79). We generated a Dot1l methyltransferase mutant (Dot1l-MM) mouse model to determine the role of DOT1L methyltransferase activity in early embryonic hematopoiesis. Dot1l-MM embryos failed to survive beyond embryonic day 13.5 (E13.5), similarly to Dot1l-KO mice. However, when examined at E10.5, Dot1l-MM embryos did not exhibit overt anemia like the Dot1l-KO. Vascularity and the presence of red blood cells in the Dot1l-MM yolk sacs as well as in the AGM region of Dot1l-MM embryos appeared to be similar to that of wildtype. In ex vivo cultures of yolk sac cells, Dot1l-MM primitive erythroblasts formed colonies comparable to those of the wildtype. Although ex vivo cultures of Dot1l-MM definitive erythroblasts formed relatively smaller colonies, inhibition of DOT1L methyltransferase activity in vivo by administration of EPZ-5676 minimally affected the erythropoiesis. Our results indicate that early embryonic erythropoiesis in mammals requires a DOT1L function that is independent of its intrinsic methyltransferase activity.

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