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1.
Nat Metab ; 3(9): 1202-1216, 2021 09.
Article in English | MEDLINE | ID: mdl-34552271

ABSTRACT

Excess nutrient uptake and altered hormone secretion in the gut contribute to a systemic energy imbalance, which causes obesity and an increased risk of type 2 diabetes and colorectal cancer. This functional maladaptation is thought to emerge at the level of the intestinal stem cells (ISCs). However, it is not clear how an obesogenic diet affects ISC identity and fate. Here we show that an obesogenic diet induces ISC and progenitor hyperproliferation, enhances ISC differentiation and cell turnover and changes the regional identities of ISCs and enterocytes in mice. Single-cell resolution of the enteroendocrine lineage reveals an increase in progenitors and peptidergic enteroendocrine cell types and a decrease in serotonergic enteroendocrine cell types. Mechanistically, we link increased fatty acid synthesis, Ppar signaling and the Insr-Igf1r-Akt pathway to mucosal changes. This study describes molecular mechanisms of diet-induced intestinal maladaptation that promote obesity and therefore underlie the pathogenesis of the metabolic syndrome and associated complications.


Subject(s)
Diet, High-Fat , Intestines/cytology , Obesity/pathology , Prediabetic State/pathology , Stem Cells/cytology , Animals , Cell Lineage , Cell Proliferation , Fatty Acids/biosynthesis , Mice , Peroxisome Proliferator-Activated Receptors/metabolism , Signal Transduction
3.
Nat Cell Biol ; 23(1): 23-31, 2021 01.
Article in English | MEDLINE | ID: mdl-33398177

ABSTRACT

A detailed understanding of intestinal stem cell (ISC) self-renewal and differentiation is required to treat chronic intestinal diseases. However, the different models of ISC lineage hierarchy1-6 and segregation7-12 are subject to debate. Here, we have discovered non-canonical Wnt/planar cell polarity (PCP)-activated ISCs that are primed towards the enteroendocrine or Paneth cell lineage. Strikingly, integration of time-resolved lineage labelling with single-cell gene expression analysis revealed that both lineages are directly recruited from ISCs via unipotent transition states, challenging the existence of formerly predicted bi- or multipotent secretory progenitors7-12. Transitory cells that mature into Paneth cells are quiescent and express both stem cell and secretory lineage genes, indicating that these cells are the previously described Lgr5+ label-retaining cells7. Finally, Wnt/PCP-activated Lgr5+ ISCs are molecularly indistinguishable from Wnt/ß-catenin-activated Lgr5+ ISCs, suggesting that lineage priming and cell-cycle exit is triggered at the post-transcriptional level by polarity cues and a switch from canonical to non-canonical Wnt/PCP signalling. Taken together, we redefine the mechanisms underlying ISC lineage hierarchy and identify the Wnt/PCP pathway as a new niche signal preceding lateral inhibition in ISC lineage priming and segregation.


Subject(s)
Cell Lineage , Cell Polarity , Enteroendocrine Cells/cytology , Intestinal Mucosa/cytology , Paneth Cells/cytology , Stem Cells/cytology , Wnt Proteins/metabolism , Animals , Cell Self Renewal , Enteroendocrine Cells/metabolism , Female , Gene Expression Profiling , Intestinal Mucosa/metabolism , Male , Mice , Mice, Inbred C57BL , Mice, Knockout , Paneth Cells/metabolism , Receptors, G-Protein-Coupled/physiology , Single-Cell Analysis , Stem Cells/metabolism , beta Catenin/metabolism
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