Affiliation:
1. International Institute of Molecular and Cell Biology in Warsaw Warsaw Poland
2. Medical University of Warsaw Warsaw Poland
3. Maria Sklodowska‐Curie National Research Institute of Oncology Warsaw Poland
4. Nencki Institute of Experimental Biology Warsaw Poland
5. Mossakowski Medical Research Institute Polish Academy of Sciences Warsaw Poland
Abstract
AbstractBMP6 is an iron‐sensing cytokine whose transcription in liver sinusoidal endothelial cells (LSECs) is enhanced by high iron levels, a step that precedes the induction of the iron‐regulatory hormone hepcidin. While several reports suggested a cell‐autonomous induction of Bmp6 by iron‐triggered signals, likely via sensing of oxidative stress by the transcription factor NRF2, other studies proposed the dominant role of a paracrine yet unidentified signal released by iron‐loaded hepatocytes. To further explore the mechanisms of Bmp6 transcriptional regulation, we used female mice aged 10–11 months, which are characterized by hepatocytic but not LSEC iron accumulation, and no evidence of systemic iron overload. We found that LSECs of aged mice exhibit increased Bmp6 mRNA levels as compared to young controls, but do not show a transcriptional signature characteristic of activated NFR2‐mediated signaling in FACS‐sorted LSECs. We further observed that primary murine LSECs derived from both wild‐type and NRF2 knock‐out mice induce Bmp6 expression in response to iron exposure. By analyzing transcriptomic data of FACS‐sorted LSECs from aged versus young mice, as well as early after iron citrate injections, we identified ETS1 as a candidate transcription factor involved in Bmp6 transcriptional regulation. By performing siRNA‐mediated knockdown, small‐molecule treatments, and chromatin immunoprecipitation in primary LSECs, we show that Bmp6 transcription is regulated by iron via ETS1 and p38/JNK MAP kinase‐mediated signaling, at least in part independently of NRF2. Thereby, these findings identify the new components of LSEC iron sensing machinery broadly associated with cellular stress responses.