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Cutting Edge: Origins, Recruitment, and Regulation of CD11c+ Cells in Inflamed Islets of Autoimmune Diabetes Mice.


ABSTRACT: In NOD mice, CD11c+ cells increase greatly with islet inflammation and contribute to autoimmune destruction of pancreatic ? cells. In this study, we investigated their origin and mechanism of recruitment. CD11c+ cells in inflamed islets resembled classical dendritic cells based on their transcriptional profile. However, the majority of these cells were not from the Zbtb46-dependent dendritic-cell lineage. Instead, monocyte precursors could give rise to CD11c+ cells in inflamed islets. Chemokines Ccl5 and Ccl8 were persistently elevated in inflamed islets and the influx of CD11c+ cells was partially dependent on their receptor Ccr5. Treatment with islet Ag-specific regulatory T cells led to a marked decrease of Ccl5 and Ccl8, and a reduction of monocyte recruitment. These results implicate a monocytic origin of CD11c+ cells in inflamed islets and suggest that therapeutic regulatory T cells directly or indirectly regulate their influx by altering the chemotactic milieu in the islets.

SUBMITTER: Klementowicz JE 

PROVIDER: S-EPMC5501182 | biostudies-literature | 2017 Jul

REPOSITORIES: biostudies-literature

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Cutting Edge: Origins, Recruitment, and Regulation of CD11c<sup>+</sup> Cells in Inflamed Islets of Autoimmune Diabetes Mice.

Klementowicz Joanna E JE   Mahne Ashley E AE   Spence Allyson A   Nguyen Vinh V   Satpathy Ansuman T AT   Murphy Kenneth M KM   Tang Qizhi Q  

Journal of immunology (Baltimore, Md. : 1950) 20170526 1


In NOD mice, CD11c<sup>+</sup> cells increase greatly with islet inflammation and contribute to autoimmune destruction of pancreatic β cells. In this study, we investigated their origin and mechanism of recruitment. CD11c<sup>+</sup> cells in inflamed islets resembled classical dendritic cells based on their transcriptional profile. However, the majority of these cells were not from the Zbtb46-dependent dendritic-cell lineage. Instead, monocyte precursors could give rise to CD11c<sup>+</sup> cel  ...[more]

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