| scholarly article | Q13442814 |
| P50 | author | Ulrich von Andrian | Q7879876 |
| Nir Hacohen | Q42799920 | ||
| P2093 | author name string | Nicolas Chevrier | |
| Yang-Xin Fu | |||
| Matteo Iannacone | |||
| Lidia Bosurgi | |||
| E Ashley Moseman | |||
| Elena Tonti | |||
| Alexei Tumanov | |||
| P2860 | cites work | Functional role of type I and type II interferons in antiviral defense | Q24276429 |
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| On the role of antigen in maintaining cytotoxic T-cell memory | Q37361402 | ||
| Subcapsular sinus macrophages in lymph nodes clear lymph-borne viruses and present them to antiviral B cells | Q40068378 | ||
| Cell-Mediated Immunity to Vesicular Stomatitis Virus Infections in Mice | Q40123463 | ||
| Vesicular stomatitis virus glycoprotein G activates a specific antiviral Toll-like receptor 4-dependent pathway | Q40172425 | ||
| Subcapsular sinus macrophages prevent CNS invasion on peripheral infection with a neurotropic virus. | Q41485418 | ||
| Lymphotoxin-beta-deficient mice show defective antiviral immunity. | Q41679119 | ||
| Critical role for the chemokine receptor CXCR6 in NK cell-mediated antigen-specific memory of haptens and viruses. | Q42360336 | ||
| Vesicular stomatitis virus glycoprotein displaying retrovirus-like particles induce a type I IFN receptor-dependent switch to neutralizing IgG antibodies | Q43695116 | ||
| B cells control the migration of a subset of dendritic cells into B cell follicles via CXC chemokine ligand 13 in a lymphotoxin-dependent fashion | Q43982539 | ||
| Expression of lymphotoxin beta governs immunity at two distinct levels | Q44010556 | ||
| Lymphotoxins and cytomegalovirus cooperatively induce interferon-beta, establishing host-virus détente. | Q44130049 | ||
| Distinct role of surface lymphotoxin expressed by B cells in the organization of secondary lymphoid tissues | Q44158648 | ||
| Cutting edge: enhancement of antibody responses through direct stimulation of B and T cells by type I IFN. | Q44427081 | ||
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| Bite transmission of vesicular stomatitis virus (New Jersey serotype) to laboratory mice by Simulium vittatum (Diptera: Simuliidae). | Q45747521 | ||
| Cooperation of B cells and T cells is required for survival of mice infected with vesicular stomatitis virus | Q45758771 | ||
| Immunity to viruses in B cell-deficient mice: influence of antibodies on virus persistence and on T cell memory | Q45768116 | ||
| T helper cell-independent neutralizing B cell response against vesicular stomatitis virus: role of antigen patterns in B cell induction? | Q45772009 | ||
| Antibody mediated suppression of secondary IgM response in nude mice against vesicular stomatitis virus | Q45837085 | ||
| The role of antibodies in natural and acquired resistance of mice to vesicular stomatitis virus | Q45840603 | ||
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| A B cell-deficient mouse by targeted disruption of the membrane exon of the immunoglobulin mu chain gene | Q46098688 | ||
| B cell receptor signal strength determines B cell fate | Q47221910 | ||
| The role of antibody concentration and avidity in antiviral protection. | Q47620972 | ||
| A role for the lymphotoxin/LIGHT axis in the pathogenesis of murine collagen-induced arthritis | Q47817061 | ||
| Mechanical transmission of vesicular stomatitis New Jersey virus by Simulium vittatum (Diptera: Simuliidae) to domestic swine (Sus scrofa). | Q52700245 | ||
| VSV replication in neurons is inhibited by type I IFN at multiple stages of infection | Q60716878 | ||
| Repopulation of macrophages in popliteal lymph nodes of mice after liposome-mediated depletion | Q68411289 | ||
| Elimination of spleen and of lymph node macrophages and its difference in the effect on the immune response to particulate antigens | Q68443829 | ||
| Rabies vaccine failures | Q69916280 | ||
| Distribution pattern of drained antigens and antibodies in the subcapsular sinus of the lymph node of the rat | Q70049023 | ||
| Transport of immune complexes from the subcapsular sinus to lymph node follicles on the surface of nonphagocytic cells, including cells with dendritic morphology | Q71043272 | ||
| The architecture of rat lymph nodes. IV. Distribution of ferritin and colloidal carbon in the draining lymph nodes after foot-pad injection | Q71492578 | ||
| Differential regulation of lymphotoxin (LT), lymphotoxin-beta (LT-beta), and TNF-alpha in murine T cell clones activated through the TCR | Q72363560 | ||
| Regulation of IgG antibody titers by the amount persisting of immune-complexed antigen | Q72715979 | ||
| Expression of lymphotoxin-beta (LT-beta) in chronic inflammatory conditions | Q78634785 | ||
| 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 | ||
| P433 | issue | 3 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | macrophage | Q184204 |
| P304 | page(s) | 415-426 | |
| P577 | publication date | 2012-03-01 | |
| P1433 | published in | Immunity | Q6005457 |
| P1476 | title | B cell maintenance of subcapsular sinus macrophages protects against a fatal viral infection independent of adaptive immunity | |
| P478 | volume | 36 |
| Q42841151 | A BTLA-mediated bait and switch strategy permits Listeria expansion in CD8α(+) DCs to promote long-term T cell responses |
| Q40440208 | A Lymphotoxin/Type I IFN Axis Programs CD8+ T Cells To Infiltrate a Self-Tissue and Propagate Immunopathology |
| Q59359645 | A Single Locus Controls Interferon Gamma-Independent Antiretroviral Neutralizing Antibody Responses |
| Q35471373 | A re-evaluation of the role of B cells in protective immunity to Chlamydia infection |
| Q33834887 | A systemic macrophage response is required to contain a peripheral poxvirus infection |
| Q42795549 | Activating Peripheral Innate Immunity Enables Safe and Effective Oncolytic Virotherapy in the Brain |
| Q26866169 | Activation of B cells by non-canonical helper signals |
| Q62002345 | An innate talent uncovered |
| Q41957699 | B cell depletion curtails CD4+ T cell memory and reduces protection against disseminating virus infection |
| Q54217016 | B cell-mediated maintenance of CD169+ cells is critical for liver regeneration. |
| Q38966197 | B cells and macrophages pursue a common path toward the development and progression of chronic lymphocytic leukemia |
| Q33638936 | B cells are not essential for Lactobacillus-mediated protection against lethal pneumovirus infection |
| Q35034215 | B cells enhance antigen-specific CD4 T cell priming and prevent bacteria dissemination following Chlamydia muridarum genital tract infection. |
| Q33776937 | B cells regulate macrophage phenotype and response to chemotherapy in squamous carcinomas |
| Q42043218 | Bisphosphonates target B cells to enhance humoral immune responses |
| Q58707686 | CD169 Macrophages Capture and Dendritic Cells Instruct: The Interplay of the Gatekeeper and the General of the Immune System |
| Q35138138 | CEACAM1 induces B-cell survival and is essential for protective antiviral antibody production |
| Q91868476 | Characterization of the Dynamic Behavior of Neutrophils Following Influenza Vaccination |
| Q88103069 | Chemokine 'grooming' by cLECs directs DC migration |
| Q51703615 | Cigarette smoke-induced iBALT mediates macrophage activation in a B cell-dependent manner in COPD. |
| Q90080340 | Contribution of Resident Memory CD8+ T Cells to Protective Immunity Against Respiratory Syncytial Virus and Their Impact on Vaccine Design |
| Q35489105 | Deficiency of the B cell-activating factor receptor results in limited CD169+ macrophage function during viral infection |
| Q35620368 | Effects of tofacitinib on lymphocyte sub-populations, CMV and EBV viral load in patients with plaque psoriasis. |
| Q39487696 | Emerging trends in the formation and function of tuberculosis granulomas |
| Q40476014 | IL-18 and Subcapsular Lymph Node Macrophages are Essential for Enhanced B Cell Responses with TLR4 Agonist Adjuvants. |
| Q34608905 | Immune responses of a native and an invasive bird to Buggy Creek Virus (Togaviridae: Alphavirus) and its arthropod vector, the swallow bug (Oeciacus vicarius). |
| Q90432712 | Infectious Diseases and the Lymphoid Extracellular Matrix Remodeling: A Focus on Conduit System |
| Q30828890 | Inflammatory monocytes hinder antiviral B cell responses. |
| Q42564909 | Innate B cells: oxymoron or validated concept? |
| Q35627416 | Innate lymphotoxin receptor mediated signaling promotes HSV-1 associated neuroinflammation and viral replication. |
| Q34262291 | Interferon-induced protein Ifit2 protects mice from infection of the peripheral nervous system by vesicular stomatitis virus |
| Q26996602 | Linking the microbiota and metabolic disease with lymphotoxin |
| Q64087548 | Lymph Node Subcapsular Sinus Macrophages as the Frontline of Lymphatic Immune Defense |
| Q38810913 | Lymph node - an organ for T-cell activation and pathogen defense. |
| Q35076738 | Lymph node but not intradermal injection site macrophages are critical for germinal center formation and antibody responses to rabies vaccination |
| Q84411798 | Lymph node choreography: B cells take the lead |
| Q91750018 | Lymphatic Endothelial Cells Are Essential Components of the Subcapsular Sinus Macrophage Niche |
| Q35417609 | Lymphatic system: an active pathway for immune protection |
| Q38953303 | Lymphotoxin in physiology of lymphoid tissues - Implication for antiviral defense |
| Q36823937 | Lymphotoxin network pathways shape the tumor microenvironment |
| Q38092570 | Lymphotoxin signalling in immune homeostasis and the control of microorganisms. |
| Q34535634 | Lymphotoxin-LIGHT pathway regulates the interferon signature in rheumatoid arthritis |
| Q41902336 | Lymphotoxin-sensitive microenvironments in homeostasis and inflammation. |
| Q44969513 | Macrophage heterogeneity in lymphoid tissues |
| Q59350817 | Mechanisms of lymphatic system-specific viral replication and its potential role in autoimmune disease |
| Q35646486 | Much More than M1 and M2 Macrophages, There are also CD169(+) and TCR(+) Macrophages |
| Q38346756 | Pathogen manipulation of B cells: the best defence is a good offence |
| Q30549895 | Peripheral prepositioning and local CXCL9 chemokine-mediated guidance orchestrate rapid memory CD8+ T cell responses in the lymph node |
| Q47109113 | Receptor Activator of NF-κB Orchestrates Activation of Antiviral Memory CD8 T Cells in the Spleen Marginal Zone. |
| Q34674559 | Regulation of macrophage development and function in peripheral tissues |
| Q34495557 | Revisiting the B-cell compartment in mouse and humans: more than one B-cell subset exists in the marginal zone and beyond. |
| Q34518758 | SCS macrophages suppress melanoma by restricting tumor-derived vesicle-B cell interactions |
| Q38062551 | Sialoadhesin - a macrophage-restricted marker of immunoregulation and inflammation |
| Q38287206 | Sinusoidal immunity: macrophages at the lymphohematopoietic interface |
| Q33414560 | Subversion of early innate antiviral responses during antibody-dependent enhancement of Dengue virus infection induces severe disease in immunocompetent mice |
| Q35218945 | Subversion of the B-cell compartment during parasitic, bacterial, and viral infections |
| Q64086728 | TLR7 Controls VSV Replication in CD169 SCS Macrophages and Associated Viral Neuroinvasion |
| Q37399047 | Temporal requirements for B cells in the establishment of CD4 T cell memory |
| Q55075205 | The Interplay Between Innate-Like B Cells and Other Cell Types in Autoimmunity. |
| Q27025082 | The Lymphotoxin Network: orchestrating a type I interferon response to optimize adaptive immunity |
| Q36119050 | The Regulation of Immunological Processes by Peripheral Neurons in Homeostasis and Disease |
| Q38601694 | The Role of BAFF System Molecules in Host Response to Pathogens |
| Q93079210 | The conduit system exports locally secreted IgM from lymph nodes |
| Q50658648 | The identification and developmental requirements of colonic CD169⁺ macrophages. |
| Q38193162 | The role of lymph node sinus macrophages in host defense |
| Q30414892 | Tolerogenic properties of lymphatic endothelial cells are controlled by the lymph node microenvironment |
| Q45324796 | Tumor Necrosis Factor-Mediated Survival of CD169+ Cells Promotes Immune Activation during Vesicular Stomatitis Virus Infection |
| Q35245316 | Tumor necrosis factor superfamily in innate immunity and inflammation |
| Q90656017 | Type I interferon-dependent CCL4 is induced by a cGAS/STING pathway that bypasses viral inhibition and protects infected tissue, independent of viral burden |
| Q28255842 | Type I interferons in infectious disease |
| Q90632261 | Usp18 Expression in CD169+ Macrophages is Important for Strong Immune Response after Vaccination with VSV-EBOV |
| Q47564581 | Viral subversion of B cell responses within secondary lymphoid organs |
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