Project description:The appropriate development of myeloid progenitors into macrophages, the body’s professional phagocyte, is essential for organismal development, especially in mammals1. This dependence is exemplified by the observation that loss-of-function mutation in colony stimulating factor 1 receptor (CSF1R) results in multiple tissue abnormalities including osteopetrosis2. Despite this importance, little is known about the molecular and cell biological regulation of macrophage development. Here, we report the surprising finding that the chloride-sensing kinase With-no-lysine 1 (WNK1) is required for embryonic development of tissue-resident macrophages (TRMs). Myeloid-specific deletion of Wnk1 caused a dramatic loss of TRMs and subsequently disrupted organ development, induced systemic neutrophilia, and resulted in mortality between 3 and 4 weeks of age. Specifically, we observed that WNK1 absence stalled macrophage differentiation at the myeloid multipotent progenitor (MPP) stage, instead skewing MPP differentiation towards granulopoiesis. Mechanistically, the cognate CSF1R cytokine, macrophage-colony stimulating factor (M-CSF), triggers macropinocytosis in myeloid progenitors, which in turn induces phosphorylation of WNK1. Importantly, macropinocytosis by myeloid progenitors increases cytosolic chloride, which is directly sensed by WNK1. Perturbing chloride flux during macropinocytosis, inhibiting WNK1 chloride-sensing, and blocking macropinocytosis each skew progenitor differentiation from macrophage lineage to granulocyte lineage. Thus, we have uncovered a novel mechanism that links a cell biological process to a molecular circuit whereby WNK1 chloride-sensing and chloride flux act downstream of M-CSF-induced macropinocytosis by multipotent progenitors to ensure macrophage lineage fidelity.

Project description:The kinase protein WNK1 is highly expressed and phosphorylated in the testis, suggesting possible functions in regulating male fertility. Indeed, conditional pachytene-spermatocyte Wnk1 knock-out mice generated using the novel Wnt7a-Cre failed to produce functional sperm which resulted from the primary spermatogenic arrest during mid-pachynema. Global transcriptomic approaches identified ‘translation’ as one of the impacted events in Wnk1-depleted spermatocytes.

Project description:RNAseq was used to analyse transcriptional changes occuring in WNK1-expressing or WNK1-deficient DN3 thymocytes following injection of anti-CD3e

Project description:We performed RNA-seq in JJN3 human multiple myeloma cells with or without WNK1 knockdown to profile global transcriptomic changes

Project description:WNK1 enforces macrophage lineage fidelity

Project description:We report the transcriptomic profile of primary human endometrial stromal cells subjected to 48-hour transfection with control non-targeting siRNA or siRNA targeting WNK1 followed by 3-day in vitro decidualization treatment.

Project description:We report the transcriptomic profile of uterine tissues obtained from the control (Wnk1f/f) and Wnk1 cKO (PGRCre/+;Wnk1f/f) mice during pseudopregnancy day 4.5.

Project description:Chromosomal instability (CIN) refers to the rate at which cells are unable to properly segregate whole chromosomes, leading to aneuploidy. Using young to old-aged human dermal fibroblasts, we observed a dysfunction of the mitotic machinery arising with age that mildly perturbs chromosome segregation fidelity and contributes to the generation of fully senescent cells. Here, we found that elderly cells have an increased number of stable kinetochore-microtubule (k-MT) attachments and decreased efficiency in the correction of improper k-MT interactions. Importantly, chromosome mis-segregation rates in old-aged cells decreased upon both genetic and small molecule enhancement of MT-depolymerizing kinesin-13 activity. Notably, restored chromosome segregation accuracy inhibited the phenotypes of cellular senescence.

Project description:scRNA-seq of total cells from aortas of mice with Wnk1 deletion in vascular smooth muscle cells

Project description:scRNA-seq of total cells from aortas of mice with Wnk1 deletion in vascular smooth muscle cells