Janeckova Lucie, Stastna Monika, Hrckulak Dusan, Berkova Linda, Kubovciak Jan, Onhajzer Jakub, Kriz Vitezslav, Dostalikova Stela, Mullerova Tereza, Vecerkova Katerina, Tenglerova Marketa, Coufal Stepan, Kostovcikova Klara, Blumberg Richard S, Filipp Dominik, Basler Konrad, Valenta Tomas, Kolar Michal, Korinek Vladimir
Laboratory of Cell and Developmental Biology, Institute of Molecular Genetics, Czech Academy of Sciences, Videnska 1083, Prague 4, 142 20, Czech Republic.
Laboratory of Genomics and Bioinformatics, Institute of Molecular Genetics, Czech Academy of Sciences, Prague, Czech Republic.
Stem Cell Res Ther. 2025 Apr 12;16(1):170. doi: 10.1186/s13287-025-04280-y.
The canonical Wnt signaling pathway controls the continuous renewal of the intestinal epithelium and the specification of epithelial cell lineages. Tcf4, a nuclear mediator of Wnt signaling, is essential for the differentiation and maintenance of Paneth cells in the small intestine. Its deficiency is associated with reduced expression of key α-defensins, highlighting its role in host-microbe interactions. However, the exact function of Tcf4 in specifying the secretory lineage and its contribution to antimicrobial peptide production remain incompletely understood. Remarkably, α-defensin expression has also been detected in human colon adenomas, where aberrant Wnt signaling is a hallmark. This raises important questions: What is the role of these Paneth-like cells in tumor biology, and how does Tcf4 influence their identity and function?
We investigated cell specification in small intestinal crypts and colon tumors using conditional Tcf7l2 deletion, cell type-specific Cre recombinases, and reporter alleles in mice. Transcriptomic (single-cell and bulk RNA sequencing) and histological analyses were performed and complemented by microbiome profiling, antibiotic treatment, and intestinal organoids to functionally validate the main findings.
The inactivation of Tcf4 depletes Paneth cells and antimicrobial peptides, disrupting the gut microbiota balance. In secretory progenitors, loss of Tcf4 shifts differentiation toward goblet cells. In the small intestine, alternative secretory progenitors produce Wnt ligands to support stem cells and epithelial renewal in the absence of Paneth cells. In colon tumors, Paneth-like cells form a tumor cell population, express Wnt ligands, and require Tcf4 for their identity. Loss of Tcf4 redirects their differentiation toward goblet cells.
Tcf4 controls the balance between Paneth and goblet cells and is essential for antimicrobial peptide production in the small intestine. In colon adenomas, Paneth-like tumor cells drive antimicrobial gene expression and provide Wnt3 ligands, which may have implications for cancer therapy.
经典Wnt信号通路控制肠道上皮的持续更新以及上皮细胞谱系的特化。Tcf4作为Wnt信号的核介质,对于小肠潘氏细胞的分化和维持至关重要。其缺陷与关键α-防御素的表达降低有关,突出了其在宿主-微生物相互作用中的作用。然而,Tcf4在确定分泌谱系的确切功能及其对抗微生物肽产生的贡献仍未完全了解。值得注意的是,在人结肠腺瘤中也检测到了α-防御素的表达,其中异常的Wnt信号是一个标志。这就提出了重要问题:这些潘氏样细胞在肿瘤生物学中的作用是什么,以及Tcf4如何影响它们的特性和功能?
我们使用条件性Tcf7l2缺失、细胞类型特异性Cre重组酶和小鼠报告等位基因,研究了小肠隐窝和结肠肿瘤中的细胞特化。进行了转录组学(单细胞和批量RNA测序)和组织学分析,并通过微生物组分析、抗生素治疗和肠道类器官进行补充,以在功能上验证主要发现。
Tcf4的失活会耗尽潘氏细胞和抗菌肽,破坏肠道微生物群平衡。在分泌祖细胞中,Tcf4的缺失会使分化向杯状细胞转变。在小肠中,替代分泌祖细胞会产生Wnt配体,以在没有潘氏细胞的情况下支持干细胞和上皮更新。在结肠肿瘤中,潘氏样细胞形成肿瘤细胞群体,表达Wnt配体,并且其特性需要Tcf4。Tcf4的缺失会使它们的分化转向杯状细胞。
Tcf4控制潘氏细胞和杯状细胞之间的平衡,对于小肠中抗菌肽的产生至关重要。在结肠腺瘤中,潘氏样肿瘤细胞驱动抗菌基因表达并提供Wnt3配体,这可能对癌症治疗有影响。
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