Scientific Reports (Sep 2018)

Rapid coupling between gravitational forces and the transcriptome in human myelomonocytic U937 cells

  • Cora S. Thiel,
  • Svantje Tauber,
  • Swantje Christoffel,
  • Andreas Huge,
  • Beatrice A. Lauber,
  • Jennifer Polzer,
  • Katrin Paulsen,
  • Hartwin Lier,
  • Frank Engelmann,
  • Burkhard Schmitz,
  • Andreas Schütte,
  • Christiane Raig,
  • Liliana E. Layer,
  • Oliver Ullrich

DOI
https://doi.org/10.1038/s41598-018-31596-y
Journal volume & issue
Vol. 8, no. 1
pp. 1 – 24

Abstract

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Abstract The gravitational force has been constant throughout Earth’s evolutionary history. Since the cell nucleus is subjected to permanent forces induced by Earth’s gravity, we addressed the question, if gene expression homeostasis is constantly shaped by the gravitational force on Earth. We therefore investigated the transcriptome in force-free conditions of microgravity, determined the time frame of initial gravitational force-transduction to the transcriptome and assessed the role of cation channels. We combined a parabolic flight experiment campaign with a suborbital ballistic rocket experiment employing the human myelomonocytic cell line U937 and analyzed the whole gene transcription by microarray, using rigorous controls for exclusion of effects not related to gravitational force and cross-validation through two fully independent research campaigns. Experiments with the wide range ion channel inhibitor SKF-96365 in combination with whole transcriptome analysis were conducted to study the functional role of ion channels in the transduction of gravitational forces at an integrative level. We detected profound alterations in the transcriptome already after 20 s of microgravity or hypergravity. In microgravity, 99.43% of all initially altered transcripts adapted after 5 min. In hypergravity, 98.93% of all initially altered transcripts adapted after 75 s. Only 2.4% of all microgravity-regulated transcripts were sensitive to the cation channel inhibitor SKF-96365. Inter-platform comparison of differentially regulated transcripts revealed 57 annotated gravity-sensitive transcripts. We assume that gravitational forces are rapidly and constantly transduced into the nucleus as omnipresent condition for nuclear and chromatin structure as well as homeostasis of gene expression.