Biomolecules (Jun 2023)

Targeted Disruption of the MORG1 Gene in Mice Causes Embryonic Resorption in Early Phase of Development

  • Sophie Wulf,
  • Luisa Mizko,
  • Karl-Heinz Herrmann,
  • Marta Sánchez-Carbonell,
  • Anja Urbach,
  • Cornelius Lemke,
  • Alexander Berndt,
  • Ivonne Loeffler,
  • Gunter Wolf

DOI
https://doi.org/10.3390/biom13071037
Journal volume & issue
Vol. 13, no. 7
p. 1037

Abstract

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The mitogen-activated protein kinase organizer 1 (MORG1) is a scaffold molecule for the ERK signaling pathway, but also binds to prolyl-hydroxylase 3 and modulates HIFα expression. To obtain further insight into the role of MORG1, knockout-mice were generated by homologous recombination. While Morg1+/− mice developed normally without any apparent phenotype, there were no live-born Morg1−/− knockout offspring, indicating embryonic lethality. The intrauterine death of Morg1−/− embryos is caused by a severe failure to develop brain and other neuronal structures such as the spinal cord and a failure of chorioallantoic fusion. On E8.5, Morg1−/− embryos showed severe underdevelopment and proliferative arrest as indicated by absence of Ki67 expression, impaired placental vascularization and altered phenotype of trophoblast giant cells. On E9.5, the malformed Morg1−/− embryos showed defective turning into the final fetal position and widespread apoptosis in many structures. In the subsequent days, apoptosis and decomposition of embryonic tissue progressed, accompanied by a massive infiltration of inflammatory cells. Developmental aberrancies were accompanied by altered expression of HIF-1/2α and VEGF-A and caspase-3 activation in embryos and extraembryonic tissues. In conclusion, the results suggest a multifactorial process that causes embryonic death in homozygous Morg1 mutant mice, described here, to the best of our knowledge, for the first time.

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