Chronobiology international

Therapeutic Magnetic Resonance may influence the body’s internal clock and low-oxygen response system

Updated

Abstract

tNMR significantly affected the cell autonomous clocks of unsynchronized mouse fibroblast cells NIH3-T3 but did not synchronize expression profiles of murine clock genes.

  • tNMR did not act as a Zeitgeber for the core clock mechanism in unsynchronized mouse fibroblast cells.
  • Irradiation with tNMR altered mRNA and protein expression levels of Cryptochrome1, Cryptochrome2, and Clock1 for more than 24 hours.
  • The changes in expression after 6 and 12 hours of tNMR treatment appeared to be nonlinear.
  • The most prominent alterations were observed in murine HIF-1α protein levels, which also exhibited a nonlinear dose-response.
  • In contrast, zebrafish fibroblasts did not respond to tNMR, while light exposure synchronized their clock gene oscillations.

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