| scholarly article | Q13442814 |
| P50 | author | Paul M Kaye | Q59697523 |
| Mattias Svensson | Q41598129 | ||
| P2093 | author name string | Rebecca Phillips | |
| Asher Maroof | |||
| Lynette Beattie | |||
| Najmeeyah Brown | |||
| Naveed Aziz | |||
| Nathalie Signoret | |||
| P2860 | cites work | The microtubule-binding protein Hook3 interacts with a cytoplasmic domain of scavenger receptor A | Q24293555 |
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| Interaction of SIGNR1 expressed by marginal zone macrophages with marginal zone B cells is essential to early IgM responses against Streptococcus pneumoniae | Q28592413 | ||
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| Involvement of the AP-1 adaptor complex in early steps of phagocytosis and macropinocytosis | Q35802963 | ||
| CD8+ T-cell priming regulated by cytokines of the innate immune system. | Q35862694 | ||
| NK cell activation in visceral leishmaniasis requires TLR9, myeloid DCs, and IL-12, but is independent of plasmacytoid DCs. | Q36229299 | ||
| Isolation and characterization of resident stromal macrophages and hematopoietic cell clusters from mouse bone marrow | Q36350804 | ||
| SIGN-R1 contributes to protection against lethal pneumococcal infection in mice. | Q36399613 | ||
| Mice deficient in nuclear factor (NF)-kappa B/p52 present with defects in humoral responses, germinal center reactions, and splenic microarchitecture | Q36400143 | ||
| New insights into the cell biology of the marginal zone of the spleen | Q36544048 | ||
| Function of CD8+ T lymphocytes in a self-curing mouse model of visceral leishmaniasis. | Q53872813 | ||
| Translational control of the innate immune response through IRF-7 | Q57203299 | ||
| Marginal zone macrophages express a murine homologue of DC-SIGN that captures blood-borne antigens in vivo | Q63408277 | ||
| Marginal metallophilic cells of the mouse spleen identified by a monoclonal antibody | Q69569968 | ||
| Intracellular Leishmania amazonensis amastigotes internalize and degrade MHC class II molecules of their host cells | Q71825225 | ||
| Leishmania donovani-infected macrophages: characterization of the parasitophorous vacuole and potential role of this organelle in antigen presentation | Q72864200 | ||
| Essential role of RelB in germinal center and marginal zone formation and proper expression of homing chemokines | Q74321402 | ||
| TLR9 signaling is essential for the innate NK cell response in murine cutaneous leishmaniasis | Q79946716 | ||
| B cells acquire particulate antigen in a macrophage-rich area at the boundary between the follicle and the subcapsular sinus of the lymph node | Q80688189 | ||
| Essential involvement of CX3CR1-mediated signals in the bactericidal host defense during septic peritonitis | Q81925259 | ||
| Systems biology of transcription control in macrophages | Q37002957 | ||
| Type I interferon as a stimulus for cross-priming | Q37027815 | ||
| C-type lectin receptors in antifungal immunity | Q37045359 | ||
| Transcriptional re-programming of primary macrophages reveals distinct apoptotic and anti-tumoral functions of IRF-3 and IRF-7. | Q37411480 | ||
| Localization of marginal zone macrophages is regulated by C-C chemokine ligands 21/19. | Q38883156 | ||
| An in vivo analysis of cytokine production during Leishmania donovani infection in scid mice. | Q38994048 | ||
| Dendritic cells, but not macrophages, produce IL-12 immediately following Leishmania donovani infection | Q39029010 | ||
| Natural antibodies and complement are endogenous adjuvants for vaccine-induced CD8+ T-cell responses. | Q39495272 | ||
| Subcapsular sinus macrophages in lymph nodes clear lymph-borne viruses and present them to antiviral B cells | Q40068378 | ||
| Leishmania donovani affects antigen presentation of macrophage by disrupting lipid rafts | Q40382223 | ||
| Spatiotemporal regulation of MyD88-IRF-7 signalling for robust type-I interferon induction | Q40437839 | ||
| Parasite-accessory cell interactions in murine leishmaniasis. II. Leishmania donovani suppresses macrophage expression of class I and class II major histocompatibility complex gene products | Q42487746 | ||
| Cultured mouse marrow cell lines: interactions between fibroblastoid cells and monocytes | Q42798754 | ||
| Crucial role of marginal zone macrophages and marginal zone metallophils in the clearance of lymphocytic choriomeningitis virus infection | Q43530560 | ||
| Type 1 interferon (IFNalpha/beta) and type 2 nitric oxide synthase regulate the innate immune response to a protozoan parasite | Q44248030 | ||
| 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 | ||
| Specific ICAM-3 grabbing nonintegrin-related 1 (SIGNR1) expressed by marginal zone macrophages is essential for defense against pulmonary Streptococcus pneumoniae infection | Q44539906 | ||
| Constitutive IFN-alpha/beta signal for efficient IFN-alpha/beta gene induction by virus | Q45736557 | ||
| Splenic marginal metallophilic macrophages and marginal zone macrophages are the major interferon-alpha/beta producers in mice upon intravenous challenge with herpes simplex virus | Q45749828 | ||
| Subcapsular encounter and complement-dependent transport of immune complexes by lymph node B cells. | Q46017170 | ||
| Cholesterol depletion associated with Leishmania major infection alters macrophage CD40 signalosome composition and effector function. | Q46130895 | ||
| P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
| P6216 | copyright status | copyrighted | Q50423863 |
| P433 | issue | 3 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | macrophage | Q184204 |
| Leishmania donovani | Q1950752 | ||
| P304 | page(s) | e1000813 | |
| P577 | publication date | 2010-03-01 | |
| P1433 | published in | PLOS Pathogens | Q283209 |
| P1476 | title | Innate killing of Leishmania donovani by macrophages of the splenic marginal zone requires IRF-7 | |
| P478 | volume | 6 |
| Q44844706 | A distinct subset of podoplanin (gp38) expressing F4/80+ macrophages mediate phagocytosis and are induced following zymosan peritonitis |
| Q28476049 | Adaptive immunity against Leishmania nucleoside hydrolase maps its c-terminal domain as the target of the CD4+ T cell-driven protective response |
| Q48056964 | An intronic polymorphism in the porcine IRF7 gene is associated with better health and immunity of the host during Sarcocystis infection, and affects interferon signalling. |
| Q36187247 | Blood Transcriptional Profiling Reveals Immunological Signatures of Distinct States of Infection of Humans with Leishmania infantum. |
| Q27304818 | Combining cationic liposomal delivery with MPL-TDM for cysteine protease cocktail vaccination against Leishmania donovani: evidence for antigen synergy and protection |
| Q33799144 | Critical role of IRF-5 in the development of T helper 1 responses to Leishmania donovani infection |
| Q31043850 | Curative effect of 18β-glycyrrhetinic acid in experimental visceral leishmaniasis depends on phosphatase-dependent modulation of cellular MAP kinases |
| Q35127522 | Differential Regulation of the Immune Response in the Spleen and Liver of Mice Infected with Leishmania donovani |
| Q55049268 | Experimental Stroke Differentially Affects Discrete Subpopulations of Splenic Macrophages. |
| Q39269782 | Exploiting 4-sulphate N-acetyl galactosamine decorated gelatin nanoparticles for effective targeting to professional phagocytes in vitro and in vivo |
| Q36053499 | Genetically Modified Live Attenuated Leishmania donovani Parasites Induce Innate Immunity through Classical Activation of Macrophages That Direct the Th1 Response in Mice |
| Q28485997 | High content analysis of primary macrophages hosting proliferating Leishmania amastigotes: application to anti-leishmanial drug discovery |
| Q37123835 | Human and mouse macrophages collaborate with neutrophils to kill larval Strongyloides stercoralis |
| Q33736426 | Human dendritic cells exhibit a pronounced type I IFN signature following Leishmania major infection that is required for IL-12 induction |
| Q34345575 | IRF7 regulates TLR2-mediated activation of splenic CD11c(hi) dendritic cells. |
| Q34525720 | Identification of Drosophila gene products required for phagocytosis of Leishmania donovani |
| Q38235268 | Immune responses during cutaneous and visceral leishmaniasis. |
| Q37983386 | Innate immune functions of macrophage subpopulations in the spleen. |
| Q30499231 | Interferon regulatory factor 7 contributes to the control of Leishmania donovani in the mouse liver. |
| Q37912265 | Leishmania-host interactions: what has imaging taught us? |
| Q37900121 | Leishmaniasis: complexity at the host-pathogen interface. |
| Q38001317 | Lymph node macrophages |
| Q64245353 | Model-based Evaluation of Gene Expression Changes in Response to Infection |
| Q91716961 | Neutrophil elastase promotes Leishmania donovani infection via interferon-β |
| Q44430636 | PKCδ regulates IL-12p40/p70 production by macrophages and dendritic cells, driving a type 1 healer phenotype in cutaneous leishmaniasis |
| Q47380817 | Protection of macrophages from intracellular pathogens by miR-182-5p mimic-a gene expression meta-analysis approach |
| Q28066034 | Regulation of immunity during visceral Leishmania infection |
| Q36144523 | The Challenge of Stability in High-Throughput Gene Expression Analysis: Comprehensive Selection and Evaluation of Reference Genes for BALB/c Mice Spleen Samples in the Leishmania infantum Infection Model. |
| Q27321179 | The neurotrophic receptor Ntrk2 directs lymphoid tissue neovascularization during Leishmania donovani infection |
| Q33707824 | The role of the innate immune response regulatory gene ABCF1 in mammalian embryogenesis and development |
| Q35741989 | Therapeutic vaccination with recombinant adenovirus reduces splenic parasite burden in experimental visceral leishmaniasis. |
| Q43801603 | Virulence loss and amastigote transformation failure determine host cell responses to Leishmania mexicana |
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