[HTML][HTML] Defining dendritic cells
BU Schraml, CR e Sousa - Current opinion in immunology, 2015 - Elsevier
Current opinion in immunology, 2015•Elsevier
Highlights•cDCs, pDCs and monocytes arise from distinct developmental intermediates.•
Lineage affiliation by ontogeny provides a robust means of cell classification.•Transcriptional
signatures help map equivalent DC subtypes across species.•Fate mapping reveals
previously unappreciated heterogeneity in DCs.Dendritic cells (DCs) are versatile
controllers of the immune system, best known for their potent ability to initiate adaptive
immunity. Traditionally, DCs have been defined on the basis of cell morphology, expression …
Lineage affiliation by ontogeny provides a robust means of cell classification.•Transcriptional
signatures help map equivalent DC subtypes across species.•Fate mapping reveals
previously unappreciated heterogeneity in DCs.Dendritic cells (DCs) are versatile
controllers of the immune system, best known for their potent ability to initiate adaptive
immunity. Traditionally, DCs have been defined on the basis of cell morphology, expression …
Highlights
- cDCs, pDCs and monocytes arise from distinct developmental intermediates.
- Lineage affiliation by ontogeny provides a robust means of cell classification.
- Transcriptional signatures help map equivalent DC subtypes across species.
- Fate mapping reveals previously unappreciated heterogeneity in DCs.
Dendritic cells (DCs) are versatile controllers of the immune system, best known for their potent ability to initiate adaptive immunity. Traditionally, DCs have been defined on the basis of cell morphology, expression of specific markers and select functional attributes such as the ability to migrate to T cell areas of secondary lymphoid organs and activate T lymphocytes. However, such properties are not qualitative and often change in conditions of inflammation or infection. Phenotypic-based and function-based definitions can therefore lead to difficulties in cell identification. Here we review other approaches to try and solve questions of DC lineage attribution with an emphasis on recent insights arising from our increased understanding of DC ontogeny and differentiation.
Elsevier