Author: Lütge, Mechthild; Pikor, Natalia B.; Ludewig, Burkhard
Title: Differentiation and activation of fibroblastic reticular cells Cord-id: sktdrd8q Document date: 2021_5_27
ID: sktdrd8q
Snippet: Secondary lymphoid organs (SLO) are underpinned by fibroblastic reticular cells (FRC) that form dedicated microenvironmental niches to secure induction and regulation of innate and adaptive immunity. Distinct FRC subsets are strategically positioned in SLOs to provide niche factors and govern efficient immune cell interaction. In recent years, the use of specialized mouse models in combination with singleâ€cell transcriptomics has facilitated the elaboration of the molecular FRC landscape at an
Document: Secondary lymphoid organs (SLO) are underpinned by fibroblastic reticular cells (FRC) that form dedicated microenvironmental niches to secure induction and regulation of innate and adaptive immunity. Distinct FRC subsets are strategically positioned in SLOs to provide niche factors and govern efficient immune cell interaction. In recent years, the use of specialized mouse models in combination with singleâ€cell transcriptomics has facilitated the elaboration of the molecular FRC landscape at an unprecedented resolution. While singleâ€cell RNAâ€sequencing has advanced the resolution of FRC subset characterization and function, the high dimensionality of the generated data necessitates careful analysis and validation. Here, we reviewed novel findings from highâ€resolution transcriptomic analyses that refine our understanding of FRC differentiation and activation processes in the context of infection and inflammation. We further discuss concepts, strategies, and limitations for the analysis of singleâ€cell transcriptome data from FRCs and the wideâ€ranging implications for our understanding of stromal cell biology.
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