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Serum iron and transferrin saturation variation are circadian regulated and linked to the harmonic circadian oscillations of erythropoiesis and hepatic Tfrc expression in mice

  • Published:2024-08-17 Issue: Volume: Page:
  • ISSN:0361-8609
  • Container-title:American Journal of Hematology
  • language:en
  • Short-container-title:American J Hematol

Author:

Bennett Cavan12ORCID,Pettikiriarachchi Anne1,McLean Alistair R. D.13,Harding Rebecca12,Blewitt Marnie E.24,Seillet Cyril25,Pasricha Sant‐Rayn1267ORCID

Affiliation:

1. Population Health and Immunity Division, The Walter and Eliza Hall Institute of Medical Research Parkville Victoria Australia

2. Department of Medical Biology University of Melbourne Parkville Victoria Australia

3. Centre for Epidemiology and Biostatistics, Melbourne School of Population and Global Health, The University of Melbourne Melbourne Victoria Australia

4. Epigenetics and Development Division The Walter and Eliza Hall Institute of Medical Research Parkville Victoria Australia

5. Immunology Division The Walter and Eliza Hall Institute of Medical Research Parkville Victoria Australia

6. Diagnostic Haematology, The Royal Melbourne Hospital Parkville Victoria Australia

7. Clinical Haematology at the Peter MacCallum Cancer Centre and The Royal Melbourne Hospital Melbourne Victoria Australia

Abstract

AbstractSerum iron has long been thought to exhibit diurnal variation and is subsequently considered an unreliable biomarker of systemic iron status. Circadian regulation (endogenous ~24‐h periodic oscillation of a biologic function) governs many critical physiologic processes. It is unknown whether serum iron levels are regulated by circadian machinery; likewise, the circadian nature of key players of iron homeostasis is unstudied. Here we show that serum iron, transferrin saturation (TSAT), hepatic transferrin receptor (TFR1) gene (Tfrc) expression, and erythropoietic activity exhibit circadian rhythms. Daily oscillations of serum iron, TSAT, hepatic Tfrc expression, and erythropoietic activity are maintained in mice housed in constant darkness, where oscillation reflects an endogenous circadian period. Oscillations of serum iron, TSAT, hepatic Tfrc, and erythropoietic activity were ablated when circadian machinery was disrupted in Bmal1 knockout mice. Interestingly, we find that circadian oscillations of erythropoietic activity and hepatic Tfrc expression are maintained in opposing phase, likely allowing for optimized usage and storage of serum iron whilst maintaining adequate serum levels and TSAT. This study provides the first confirmatory evidence that serum iron is circadian regulated, discerns circadian rhythms of TSAT, a widely used clinical marker of iron status, and uncovers liver‐specific circadian regulation of TFR1, a major player in cellular iron uptake.

Funder

National Health and Medical Research Council

Publisher

Wiley

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