Hans-Reimer Rodewald scite author profile

Most haematopoietic cells renew from adult hematopoietic stem cells (HSC)1-3, however, macrophages in adult tissues can self-maintain independently of HSC4-7. Progenitors with macrophage potential in vitro have been described in the yolk sac before emergence of HSC8-13, and fetal macrophages13-15 can develop independently of Myb 4 , a transcription factor required for HSC16, and can persist in adult tissues4,17,18. Nevertheless, the origin of adult macrophages and the qualitative and quantitative contributions of HSC and putative non-HSC progenitors are still unclear19. Here we show that the vast majority of adult tissueresident macrophages in liver (Kupffer cells), brain (microglia), epidermis (Langerhans cells), and lung (alveolar macrophages) originate from a Tie2 + cellular pathway generating Csf1r + erythro-myeloid progenitors (EMP) distinct from HSC. EMP develop in the yolk sac at embryonic day (E) 8.5, migrate and colonise the nascent fetal liver before E10.5, and give rise to fetal erythrocytes, macrophages, granulocytes and monocytes until at least E16.5. Subsequently, HSC-derived cells replace erythrocytes, granulocytes and monocytes, whereas Kupffer cells, microglia, and Langerhans cells are not replaced in 1-year old animals, while alveolar macrophages may be progressively replaced in aging mice. Our fate mapping 6

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Thymus Organogenesis

Rodewald

2008

Annu. Rev. Immunol.

242

237

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The epithelial architecture of the thymus fosters growth, differentiation, and T cell receptor repertoire selection of large numbers of immature T cells that continuously feed the mature peripheral T cell pool. Failure to build or to maintain a proper thymus structure can lead to defects ranging from immunodeficiency to autoimmunity. There has been long-standing interest in unraveling the cellular and molecular basis of thymus organogenesis. Earlier studies gave important morphological clues on thymus development. More recent cell biological and genetic approaches yielded new and conclusive insights regarding the germ layer origin of the epithelium and the composition of the medulla as a mosaic of clonally derived islets. The existence of epithelial progenitors common for cortex and medulla with the capacity for forming functional thymus after birth has been uncovered. In addition to the thymus in the chest, mice can have a cervical thymus that is small, but functional, and produces T cells only after birth. It will be important to elucidate the pathways from putative thymus stem cells to mature thymus epithelial cells, and the properties and regulation of these pathways from ontogeny to thymus involution.

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Tissue-Restricted Adaptive Type 2 Immunity Is Orchestrated by Expression of the Costimulatory Molecule OX40L on Group 2 Innate Lymphoid Cells

et al. 2018

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SummaryThe local regulation of type 2 immunity relies on dialog between the epithelium and the innate and adaptive immune cells. Here we found that alarmin-induced expression of the co-stimulatory molecule OX40L on group 2 innate lymphoid cells (ILC2s) provided tissue-restricted T cell co-stimulation that was indispensable for Th2 and regulatory T (Treg) cell responses in the lung and adipose tissue. Interleukin (IL)-33 administration resulted in organ-specific surface expression of OX40L on ILC2s and the concomitant expansion of Th2 and Treg cells, which was abolished upon deletion of OX40L on ILC2s (Il7raCre/+Tnfsf4fl/fl mice). Moreover, Il7raCre/+Tnfsf4fl/fl mice failed to mount effective Th2 and Treg cell responses and corresponding adaptive type 2 pulmonary inflammation arising from Nippostrongylus brasiliensis infection or allergen exposure. Thus, the increased expression of OX40L in response to IL-33 acts as a licensing signal in the orchestration of tissue-specific adaptive type 2 immunity, without which this response fails to establish.

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