Lymph nodes prevent the systemic dissemination of pathogens such as viruses that infect peripheral tissues after penetrating the body's surface barriers. They are also the staging ground of adaptive immune responses to pathogen-derived antigens. It is unclear how virus particles are cleared from afferent lymph and presented to cognate B cells to induce antibody responses. Here we identify a population of CD11b+CD169+MHCII+ macrophages on the floor of the subcapsular sinus (SCS) and in the medulla of lymph nodes that capture viral particles within minutes after subcutaneous injection. Macrophages in the SCS translocated surface-bound viral particles across the SCS floor and presented them to migrating B cells in the underlying follicles. Selective depletion of these macrophages compromised local viral retention, exacerbated viraemia of the host, and impaired local B-cell activation. These findings indicate that CD169+ macrophages have a dual physiological function. They act as innate 'flypaper' by preventing the systemic spread of lymph-borne pathogens and as critical gatekeepers at the lymph-tissue interface that facilitate the recognition of particulate antigens by B cells and initiate humoral immune responses.
Hepatic natural killer (NK) cells mediate antigen (Ag)-specific contact hypersensitivity (CHS) in T-cell and B-cell deficient mice. We now report that hepatic, but not splenic or naïve NK cells also develop specific memory to vaccines containing Ags from influenza, vesicular stomatitis virus (VSV) or human immunodeficiency virus-1 (HIV). Adoptive transfer of virus-sensitized NK cells to naïve recipients enhanced the animals' survival upon lethal challenge with the sensitizing virus, but not a different virus. NK cell memory to haptens and viruses depended upon CXCR6, a chemokine receptor on hepatic NK cells that was required for memory NK cell persistence but not for Ag recognition. Hence, hepatic NK-cells can develop adaptive immunity to structurally diverse Ags, an activity that requires NK-cell-expressed CXCR6.
Constitutive egress of bone marrow (BM)-resident hematopoietic stem and progenitor cells (HSPCs) into the blood is a well-established phenomenon, but the ultimate fate and functional relevance of circulating HSPCs is largely unknown. We show that mouse thoracic duct (TD) lymph contains HSPCs that possess short- and long-term multilineage reconstitution capacity. TD-derived HSPCs originate in the BM, enter the blood, and traffic to multiple peripheral organs, where they reside for at least 36 hr before entering draining lymphatics to return to the blood and, eventually, the BM. HSPC egress from extramedullary tissues into lymph depends on sphingosine-1-phosphate receptors. Migratory HSPCs proliferate within extramedullary tissues and give rise to tissue-resident myeloid cells, preferentially dendritic cells. HSPC differentiation is amplified upon exposure to Toll-like receptor agonists. Thus, HSPCs can survey peripheral organs and can foster the local production of tissue-resident innate immune cells under both steady-state conditions and in response to inflammatory signals.
SUMMARY
Infections induce pathogen-specific T cell differentiation into diverse effectors (TEff) that give rise to memory (TMem) subsets. The cell fate decisions and lineage relationships that underlie these transitions are poorly understood. Here, we found that the chemokine receptor CX3CR1 identifies three distinct CD8+ TEff and TMem subsets. Classical central (TCM) and effector memory (TEM) cells and their corresponding TEff precursors were CX3CR1− and CX3CR1high, respectively. Viral infection also induced a numerically stable CX3CR1int subset that represented ~15% of blood-borne TMem cells. CX3CR1int TMem cells underwent more frequent homeostatic divisions than other TMem subsets and not only self-renewed, but also contributed to the expanding CX3CR1− TCM pool. Both TCM and CX3CR1int cells homed to lymph nodes, but CX3CR1int cells, and not TEM cells, predominantly surveyed peripheral tissues. As CX3CR1int TMem cells present unique phenotypic, homeostatic and migratory properties, we designate this subset peripheral memory (TPM) cells and propose that TPM cells are chiefly responsible for the surveillance of non-lymphoid tissues.
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