0000000000281955

AUTHOR

Natalia Soshnikova

showing 3 related works from this author

Signalling codes for the maintenance and lineage commitment of embryonic gastric epithelial progenitors

2020

The identity of embryonic gastric epithelial progenitors is unknown. We used single-cell RNA sequencing, genetic lineage tracing and organoid assays to assess whether Axin2 and Lgr5 expressing cells are gastric progenitors in the developing mouse stomach. We show that Axin2+ cells represent a transient population of embryonic epithelial cells in the forestomach. Lgr5+ cells generate both glandular corpus and squamous forestomach organoids ex vivo. Only Lgr5+ progenitors give rise to zymogenic cells in culture. Modulating the activity of the WNT, BMP and Notch pathways in vivo and ex vivo, we found that WNTs are essential for the maintenance of Lgr5+ epithelial cells. Notch prevents differen…

Lineage (genetic)PopulationCell fate determinationBiologyMice03 medical and health sciences0302 clinical medicineAnimalsCell LineageProgenitor celleducationMolecular Biology030304 developmental biology0303 health scienceseducation.field_of_studyStem CellsStomachLGR5Wnt signaling pathwayCell DifferentiationEpithelial CellsEmbryonic stem cellCell biologyOrganoidsGastric Mucosa030220 oncology & carcinogenesisFemaleEx vivoSignal TransductionDevelopmental BiologyDevelopment
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Functions of SETD7 during development, homeostasis and cancer

2019

A controlled organ homeostasis is essential to sustain the integrity of any living organism. This homeostasis relies on stem cells, which maintain themselves and give rise to the various types of differentiated cells. It is well established that the differentiation of pluripotent embryonic stem cells (ESCs) depends on major changes in transcriptional programs. Covalent modifications of DNA, RNA and proteins are instrumental in setting up the genetic programs associated with cell fates. Another important mechanism for regulation of gene expression is protein localisation and stability. In addition to ubiquitination, SUMOylation and phosphorylation, methylation of proteins is an important det…

0301 basic medicineRegulation of gene expressionCellular differentiationCellSUMO proteinRNABiologyEmbryonic stem cellCell biology03 medical and health sciencesEditorial Commentary030104 developmental biology0302 clinical medicinemedicine.anatomical_structure030220 oncology & carcinogenesismedicineStem cellOrganism
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The Interplay between Nutrition, Innate Immunity, and the Commensal Microbiota in Adaptive Intestinal Morphogenesis

2021

The gastrointestinal tract is a functionally and anatomically segmented organ that is colonized by microbial communities from birth. While the genetics of mouse gut development is increasingly understood, how nutritional factors and the commensal gut microbiota act in concert to shape tissue organization and morphology of this rapidly renewing organ remains enigmatic. Here, we provide an overview of embryonic mouse gut development, with a focus on the intestinal vasculature and the enteric nervous system. We review how nutrition and the gut microbiota affect the adaptation of cellular and morphologic properties of the intestine, and how these processes are interconnected with innate immunit…

0301 basic medicineendotheliumimmunometabolismNutritional StatusReviewGut floraDiet High-Fatdigestive systemEnteric Nervous System03 medical and health sciencesMice0302 clinical medicinevascularizationmorphologymicrobiotaMorphogenesisAnimalsHomeostasisHumansTX341-641Intestinal MucosaSymbiosisintestinedevelopmentOrganismGastrointestinal tractNutrition and DieteticsInnate immune systembiologyNutrition. Foods and food supplyEpithelial Cellsbiology.organism_classificationEmbryonic stem cellImmunity InnateCell biologyGastrointestinal MicrobiomeGastrointestinal Tract030104 developmental biologynutritionhigh-fat diet030220 oncology & carcinogenesisEnteric nervous systemAdaptationFood ScienceIntestinal morphogenesisNutrients
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