Transcriptomics

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Myeloid-specific deficiency of ribosomal protein L13a alters macrophage polarity and diversity during differentiation from bone marrow


ABSTRACT: Macrophages show substantial plasticity, leading to a diverse population of these cells with different states of polarization during differentiation from bone marrow. However, the mechanistic insights into this process are not well understood. Here, we identified a novel role of ribosomal protein L13a previously shown to be engaged in the physiological control of inflammation regulating macrophage diversity and polarity. Using an ex-vivo differentiation model of bone marrow-derived macrophages (BMDM) from the control (L13aflox/flox) and myeloid-specific L13a KO (L13aflox/flox LysMCre+) mice (L13a-KO) we presented compelling evidence of the role of L13a in regulating macrophage polarization that goes beyond the M1-M2-based binary concept. We show that macrophages from L13a-KO mice lead to enhanced expression of classical markers of both M1 and M2 and surprising deviation from the expected response under known inducers of polarity. The phosphorylation-dependent activation of a number of signaling molecules played a role in this process. Bulk RNA and single-cell RNA sequencing of the BMDM from the L13a-KO mice show widespread change in overall gene expression and robust differences in the diverse populations of the bone marrow-derived cells from the control and KO mice. In addition, this study also shows a substantial increase of Th1 and Th2 signature genes in naïve CD4+ T cells isolated from the L13a-KO animals. Together, our studies provide new insights into the regulations of macrophage polarization by L13a-driven novel intermediate effectors or mediators.

ORGANISM(S): Mus musculus

PROVIDER: GSE272183 | GEO | 2025/07/02

REPOSITORIES: GEO

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