scholarly article | Q13442814 |
P50 | author | Stephanie Eisenbarth | Q55277437 |
Adam Williams | Q89459239 | ||
Steven M Lewis | Q92060082 | ||
P2860 | cites work | Characterization of heme as activator of Toll-like receptor 4. | Q47787071 |
MyD88-dependent activation of dendritic cells and CD4(+) T lymphocytes mediates symptoms, but is not required for the immunological control of parasites during rodent malaria. | Q47833974 | ||
IL-12 is required for antibody-mediated protective immunity against blood-stage Plasmodium chabaudi AS malaria infection in mice | Q47898035 | ||
IFN Regulatory Factor 3 Balances Th1 and T Follicular Helper Immunity during Nonlethal Blood-Stage Plasmodium Infection | Q48021565 | ||
cGAS-mediated control of blood-stage malaria promotes Plasmodium-specific germinal center responses | Q48023186 | ||
CD169+ macrophages orchestrate innate immune responses by regulating bacterial localization in the spleen. | Q48230625 | ||
Differential Intrasplenic Migration of Dendritic Cell Subsets Tailors Adaptive Immunity. | Q50230453 | ||
Red blood cells with elevated cytoplasmic Ca(2+) are primarily taken up by splenic marginal zone macrophages and CD207+ dendritic cells | Q50243741 | ||
Inflammation enhances consumption and presentation of transfused RBC antigens by dendritic cells. | Q50690172 | ||
Human dendritic cell subsets from spleen and blood are similar in phenotype and function but modified by donor health status. | Q51869621 | ||
Isolation of the intact white pulp. Quantitative and qualitative analysis of the cellular composition of the splenic compartments. | Q52029249 | ||
The species-specific structure of microanatomical compartments in the human spleen: strongly sialoadhesin-positive macrophages occur in the perifollicular zone, but not in the marginal zone. | Q52041011 | ||
Blood dendritic cells interact with splenic marginal zone B cells to initiate T-independent immune responses. | Q52114309 | ||
Alternative cross-priming through CCL17-CCR4-mediated attraction of CTLs toward NKT cell-licensed DCs. | Q54439509 | ||
Listeria Monocytogenes: A Model Pathogen Continues to Refine Our Knowledge of the CD8 T Cell Response. | Q55645457 | ||
Cytotoxic CD8 T cells recognize and kill Plasmodium vivax-infected reticulocytes | Q56359213 | ||
Notch2-dependent DC2s mediate splenic germinal center responses | Q57049820 | ||
The Role of the Immunological Synapse in Differential Effects of APC Subsets in Alloimmunization to Fresh, Non-stored RBCs | Q57817939 | ||
Marginal Zone B Cells Induce Alloantibody Formation Following RBC Transfusion | Q59798202 | ||
A crucial role for retinoic acid in the development of Notch-dependent murine splenic CD8−CD4−and CD4+dendritic cells | Q60251133 | ||
Normal histology of the human spleen | Q68517019 | ||
CD8alpha+ dendritic cells are required for efficient entry of Listeria monocytogenes into the spleen | Q79207317 | ||
Lymphatic drainage of the spleen | Q79560623 | ||
Cutting edge: alum adjuvant stimulates inflammatory dendritic cells through activation of the NALP3 inflammasome | Q81925149 | ||
Critical role of integrin CD11c in splenic dendritic cell capture of missing-self CD47 cells to induce adaptive immunity | Q89068950 | ||
Distinct progenitor lineages contribute to the heterogeneity of plasmacytoid dendritic cells | Q89171096 | ||
Dendritic cell subsets in T cell programming: location dictates function | Q93338385 | ||
Innate immune recognition of an AT-rich stem-loop DNA motif in the Plasmodium falciparum genome | Q24611264 | ||
CD4 T-cell subsets in malaria: TH1/TH2 revisited | Q26849470 | ||
Tissue-resident macrophages | Q26991488 | ||
Six-of-the-best: unique contributions of γδ T cells to immunology | Q27010451 | ||
The spleen in local and systemic regulation of immunity | Q27025001 | ||
Dynamic imaging of the effector immune response to listeria infection in vivo | Q27312060 | ||
In vivo approaches reveal a key role for DCs in CD4+ T cell activation and parasite clearance during the acute phase of experimental blood-stage malaria | Q27321691 | ||
Human spleen microanatomy: why mice do not suffice | Q28081182 | ||
Marginal zone B cells | Q28240061 | ||
B-1a and B-1b cells exhibit distinct developmental requirements and have unique functional roles in innate and adaptive immunity to S. pneumoniae | Q28263264 | ||
Structure and function of the spleen | Q28264813 | ||
CD8 T Cells Enter the Splenic T Cell Zones Independently of CCR7, but the Subsequent Expansion and Trafficking Patterns of Effector T Cells after Infection Are Dysregulated in the Absence of CCR7 Migratory Cues | Q28269097 | ||
Structure and dynamic behavior of Toll-like receptor 2 subfamily triggered by malarial glycosylphosphatidylinositols of Plasmodium falciparum | Q28299735 | ||
The chemotactic receptor EBI2 regulates the homeostasis, localization and immunological function of splenic dendritic cells | Q28508363 | ||
Notch2-dependent classical dendritic cells orchestrate intestinal immunity to attaching-and-effacing bacterial pathogens | Q28509751 | ||
EBI2-mediated bridging channel positioning supports splenic dendritic cell homeostasis and particulate antigen capture | Q29347264 | ||
Differential antigen processing by dendritic cell subsets in vivo | Q29615177 | ||
Development of monocytes, macrophages, and dendritic cells | Q29616446 | ||
The dendritic cell lineage: ontogeny and function of dendritic cells and their subsets in the steady state and the inflamed setting | Q29618424 | ||
Follicular shuttling of marginal zone B cells facilitates antigen transport | Q30441344 | ||
Fibroblastic reticular cells guide T lymphocyte entry into and migration within the splenic T cell zone | Q30484917 | ||
Splenic Dendritic Cells Survey Red Blood Cells for Missing Self-CD47 to Trigger Adaptive Immune Responses | Q30670402 | ||
Ly49H+ NK cells migrate to and protect splenic white pulp stroma from murine cytomegalovirus infection. | Q33331535 | ||
Changes in splenic microcirculatory pathways in chronic idiopathic thrombocytopenic purpura | Q33381431 | ||
The Plasmodium falciparum-specific human memory B cell compartment expands gradually with repeated malaria infections | Q33587496 | ||
Hemin controls T cell polarization in sickle cell alloimmunization | Q33797355 | ||
CD1-mediated gamma/delta T cell maturation of dendritic cells | Q33963163 | ||
The double life of a B-1 cell: self-reactivity selects for protective effector functions | Q34154602 | ||
The CD14+CD16+ inflammatory monocyte subset displays increased mitochondrial activity and effector function during acute Plasmodium vivax malaria | Q34215404 | ||
Hemolysis-induced lethality involves inflammasome activation by heme | Q34314447 | ||
Marginal zone B cells: virtues of innate-like antibody-producing lymphocytes | Q34324243 | ||
Listeria monocytogenes induces IFNβ expression through an IFI16-, cGAS- and STING-dependent pathway | Q34324531 | ||
Monocyte-mediated immune defense against murine Listeria monocytogenes infection | Q37975704 | ||
Innate immune functions of macrophage subpopulations in the spleen. | Q37983386 | ||
Innate lymphoid cells--how did we miss them? | Q38071916 | ||
Imaging of the spleen in malaria. | Q38133718 | ||
Innate sensing of malaria parasites | Q38260972 | ||
Novel subset of CD8{alpha}+ dendritic cells localized in the marginal zone is responsible for tolerance to cell-associated antigens. | Q38355730 | ||
Human and Mouse Mononuclear Phagocyte Networks: A Tale of Two Species? | Q38540521 | ||
The burgeoning family of unconventional T cells | Q38611633 | ||
Innate lymphoid cells in secondary lymphoid organs | Q38810910 | ||
Red blood cell alloimmunization: new findings at the bench and new recommendations for the bedside. | Q38907474 | ||
The Essential Role of Neutrophils during Infection with the Intracellular Bacterial Pathogen Listeria monocytogenes | Q38932594 | ||
Functional Antibodies and Protection against Blood-stage Malaria | Q38933541 | ||
T follicular helper cells in space-time. | Q38940412 | ||
Sphingosine-1 phosphate signaling regulates positioning of dendritic cells within the spleen | Q40065454 | ||
Distinct oxysterol requirements for positioning naïve and activated dendritic cells in the spleen | Q40110838 | ||
Regulation of hierarchical clustering and activation of innate immune cells by dendritic cells | Q40150146 | ||
Cross-Regulation of Two Type I Interferon Signaling Pathways in Plasmacytoid Dendritic Cells Controls Anti-malaria Immunity and Host Mortality. | Q40477433 | ||
Klf4 expression in conventional dendritic cells is required for T helper 2 cell responses. | Q41214702 | ||
RIG-I detects infection with live Listeria by sensing secreted bacterial nucleic acids | Q41360656 | ||
Human blood IgM "memory" B cells are circulating splenic marginal zone B cells harboring a prediversified immunoglobulin repertoire | Q41505077 | ||
A conduit system distributes chemokines and small blood-borne molecules through the splenic white pulp | Q42109460 | ||
Cross-presentation of cell-associated antigens by mouse splenic dendritic cell populations | Q42144716 | ||
Visualization of splenic marginal zone B-cell shuttling and follicular B-cell egress. | Q43118025 | ||
Interaction of mouse dendritic cells and malaria-infected erythrocytes: uptake, maturation, and antigen presentation | Q43704243 | ||
Macrophages of the splenic marginal zone are essential for trapping of blood-borne particulate antigen but dispensable for induction of specific T cell responses | Q44521235 | ||
Sphingosine 1-phosphate receptor 1 promotes B cell localization in the splenic marginal zone. | Q44805708 | ||
Monocyte-derived dendritic cells formed at the infection site control the induction of protective T helper 1 responses against Leishmania | Q44920559 | ||
Profiling MHC II immunopeptidome of blood-stage malaria reveals that cDC1 control the functionality of parasite-specific CD4 T cells. | Q45933188 | ||
Transcriptional programming of dendritic cells for enhanced MHC class II antigen presentation | Q46090866 | ||
The Molecular Basis of Erythrocyte Invasion by Malaria Parasites | Q46322351 | ||
Bacterial entry to the splenic white pulp initiates antigen presentation to CD8+ T cells | Q46400132 | ||
Murine Red Blood Cells Lack Ligands for B Cell Siglecs, Allowing Strong Activation by Erythrocyte Surface Antigens. | Q47210721 | ||
Malaria biology and disease pathogenesis: insights for new treatments | Q34579700 | ||
Tissue-resident macrophages self-maintain locally throughout adult life with minimal contribution from circulating monocytes | Q34650719 | ||
Differential localization of effector and memory CD8 T cell subsets in lymphoid organs during acute viral infection. | Q34712280 | ||
Innate immune recognition and inflammasome activation in listeria monocytogenes infection | Q34983641 | ||
Stromal cell contributions to the homeostasis and functionality of the immune system. | Q34994909 | ||
Expression of chemokine receptor CXCR3 on T cells affects the balance between effector and memory CD8 T-cell generation | Q35008485 | ||
CD8α(+) dendritic cells are an obligate cellular entry point for productive infection by Listeria monocytogenes | Q35211997 | ||
Notch2 receptor signaling controls functional differentiation of dendritic cells in the spleen and intestine. | Q35577590 | ||
Innate lymphoid cells. Innate lymphoid cells: a new paradigm in immunology | Q35638915 | ||
Germinal center architecture disturbance during Plasmodium berghei ANKA infection in CBA mice | Q35839239 | ||
Robust Anti-viral Immunity Requires Multiple Distinct T Cell-Dendritic Cell Interactions | Q36054488 | ||
Circulating Th1-Cell-type Tfh Cells that Exhibit Impaired B Cell Help Are Preferentially Activated during Acute Malaria in Children | Q36167295 | ||
IFNAR1-Signalling Obstructs ICOS-mediated Humoral Immunity during Non-lethal Blood-Stage Plasmodium Infection | Q36182425 | ||
Malaria infection changes the ability of splenic dendritic cell populations to stimulate antigen-specific T cells | Q36228661 | ||
Dendritic cells, monocytes and macrophages: a unified nomenclature based on ontogeny | Q36263627 | ||
Inflammatory monocytes activate memory CD8(+) T and innate NK lymphocytes independent of cognate antigen during microbial pathogen invasion | Q36275683 | ||
The role of H-2 linked genes in helper T-cell function. II. Isolation on antigen-pulsed macrophages of two separate populations of F1 helper T cells each specific for antigen and one set of parental H-2 products | Q36340749 | ||
The spleen plays a central role in primary humoral alloimmunization to transfused mHEL red blood cells. | Q36600137 | ||
Additive roles for MCP-1 and MCP-3 in CCR2-mediated recruitment of inflammatory monocytes during Listeria monocytogenes infection. | Q36661058 | ||
The multifaceted biology of plasmacytoid dendritic cells | Q36731249 | ||
Re(de)fining the dendritic cell lineage. | Q36818027 | ||
Peripheral B cell subsets | Q36867717 | ||
Bridging channel dendritic cells induce immunity to transfused red blood cells | Q36949916 | ||
Antibody to Langerin/CD207 localizes large numbers of CD8alpha+ dendritic cells to the marginal zone of mouse spleen | Q37083660 | ||
Geography and plumbing control the T cell response to infection | Q37129841 | ||
The Nlrp3 Inflammasome Does Not Regulate Alloimmunization to Transfused Red Blood Cells in Mice. | Q37149950 | ||
Toll-like receptor 7 mediates early innate immune responses to malaria | Q37336051 | ||
Strain-specific innate immune signaling pathways determine malaria parasitemia dynamics and host mortality | Q37543684 | ||
Malarial pigment hemozoin and the innate inflammatory response | Q37555137 | ||
The follicular versus marginal zone B lymphocyte cell fate decision | Q37621246 | ||
The controversy over the age of blood: what do the clinical trials really teach us? | Q37679809 | ||
The CD8+ dendritic cell subset | Q37700814 | ||
Finding the right niche: B-cell migration in the early phases of T-dependent antibody responses | Q37761265 | ||
NK cell development, homeostasis and function: parallels with CD8⁺ T cells | Q37922581 | ||
P433 | issue | 33 | |
P577 | publication date | 2019-03-01 | |
P1433 | published in | Science Immunology | Q27727580 |
P1476 | title | Structure and function of the immune system in the spleen | |
P478 | volume | 4 |
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