Author:
Thejer Bashar M.,Adhikary Partho P.,Teakel Sarah L.,Fang Johnny,Weston Paul A.,Gurusinghe Saliya,Anwer Ayad G.,Gosnell Martin,Jazayeri Jalal A.,Ludescher Marina,Gray Lesley-Ann,Pawlak Michael,Wallace Robyn H.,Pant Sameer D.,Wong Marie,Fischer Tamas,New Elizabeth J.,Fehm Tanja N.,Neubauer Hans,Goldys Ewa M.,Quinn Jane C.,Weston Leslie A.,Cahill Michael A.
Abstract
Abstract
Background
Progesterone receptor membrane component 1 (PGRMC1) is often elevated in cancers, and exists in alternative states of phosphorylation. A motif centered on PGRMC1 Y180 was evolutionarily acquired concurrently with the embryological gastrulation organizer that orchestrates vertebrate tissue differentiation.
Results
Here, we show that mutagenic manipulation of PGRMC1 phosphorylation alters cell metabolism, genomic stability, and CpG methylation. Each of several mutants elicited distinct patterns of genomic CpG methylation. Mutation of S57A/Y180/S181A led to increased net hypermethylation, reminiscent of embryonic stem cells. Pathways enrichment analysis suggested modulation of processes related to animal cell differentiation status and tissue identity, as well as cell cycle control and ATM/ATR DNA damage repair regulation. We detected different genomic mutation rates in culture.
Conclusions
A companion manuscript shows that these cell states dramatically affect protein abundances, cell and mitochondrial morphology, and glycolytic metabolism. We propose that PGRMC1 phosphorylation status modulates cellular plasticity mechanisms relevant to early embryological tissue differentiation.
Funder
Charles Sturt University
Iraqi Cultural Attaché in Canberra
Australian Research Council
Ramaciotti Foundations
Publisher
Springer Science and Business Media LLC
Subject
Cell Biology,Molecular Biology
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