Project description:Trained wound-memory in epidermal cells elicits a more efficient response to future injuries, but the full spectrum of their adaptive responses and the contribution of cell lineage subsets is unknown. We performed single cell RNA-Seq of Lrig1 and Lgr5 stem cell progenies in the context of two consecutive skin injuries to deeply characterise lineage specific adaptation mecanisms.
Project description:Trained wound-memory in epidermal cells elicits a more efficient response to future injuries, but the full spectrum of their adaptive responses and the contribution of cell lineage subsets is unknown. We performed single cell RNA-Seq of Lrig1 and Lgr5 stem cell progenies in the context of two consecutive skin injuries to deeply characterise lineage specific adaptation mecanisms.
Project description:Trained wound-memory in epidermal cells elicits a more efficient response to future injuries, but the full spectrum of their adaptive responses and the contribution of cell lineage subsets is unknown. We performed mini bulk RNA-Seq of Lrig1 and Lgr5 stem cell progenies in the context of two consecutive skin injuries to deeply characterise lineage specific adaptation mecanisms.
Project description:Wound priming in epidermal Lrig1 stem cell progeny leads to a more efficient response to future injuries. To understand if primed progenitors maintain during aging the transcriptional program acquired during wound healing in young age, we performed single cell RNA-Seq of Lrig1 stem cell progeny 40 weeks after injury.
Project description:Wound priming in epidermal Lrig1 stem cell progeny leads to a more efficient response to future injuries. To identify a key epigenetic factor of this cellular adaptation, we performed an epigenetic drug screening in Lrig1 genetically labled mice. Pre-treatment with PRT4165 lead to a more efficient wound closure. To understand if PRT4165 was able to recapitulate wound priming, we performed single cell RNA-seq transcriptome profiling of epidermal Lrig1 stem cell progenies from PRT4165-treated or untreated murine skin. [PRT4165is an inhibitor of the enzymatic activity of Ring1a/Ring1b, component of the Polycomb repressive complexes 1 (PRC1), responsible for the monoubiquitination of lysin 119 on histone H2A (H2AK119ub)]
