| scholarly article | Q13442814 |
| P50 | author | Marco Colonna | Q37377244 |
| Renato Augusto DaMatta | Q42465148 | ||
| Rachel M Presti | Q49866514 | ||
| L. David Sibley | Q63241949 | ||
| P2093 | author name string | Ildiko R Dunay | |
| Blima Fux | |||
| Suellen Greco | |||
| P2860 | cites work | In vivo microbial stimulation induces rapid CD40 ligand-independent production of interleukin 12 by dendritic cells and their redistribution to T cell areas | Q24652833 |
| Severe reduction in leukocyte adhesion and monocyte extravasation in mice deficient in CC chemokine receptor 2. | Q28590391 | ||
| Blood monocytes consist of two principal subsets with distinct migratory properties | Q29614286 | ||
| Monitoring of blood vessels and tissues by a population of monocytes with patrolling behavior | Q29616447 | ||
| Analysis of fractalkine receptor CX(3)CR1 function by targeted deletion and green fluorescent protein reporter gene insertion | Q29618089 | ||
| CX3CR1-mediated dendritic cell access to the intestinal lumen and bacterial clearance | Q29620412 | ||
| Monocyte emigration from bone marrow during bacterial infection requires signals mediated by chemokine receptor CCR2 | Q29622852 | ||
| CCR6-mediated dendritic cell activation of pathogen-specific T cells in Peyer's patches. | Q33793565 | ||
| CCR6 mediates dendritic cell localization, lymphocyte homeostasis, and immune responses in mucosal tissue. | Q33904793 | ||
| Anatomical basis of tolerance and immunity to intestinal antigens | Q33965210 | ||
| Neutrophil depletion during Toxoplasma gondii infection leads to impaired immunity and lethal systemic pathology | Q34008575 | ||
| Chemokines as regulators of T cell differentiation. | Q34139602 | ||
| TLR11 activation of dendritic cells by a protozoan profilin-like protein. | Q34414638 | ||
| Phenotype and function of intestinal dendritic cells | Q34428958 | ||
| Oral infection of C57BL/6 mice with Toxoplasma gondii: a new model of inflammatory bowel disease? | Q34543919 | ||
| Migration of Toxoplasma gondii across biological barriers | Q35295818 | ||
| Intracellular parasite invasion strategies | Q35741714 | ||
| Interleukin-12 enhances murine survival against acute toxoplasmosis | Q35778829 | ||
| Toxoplasma gondii strains defective in oral transmission are also defective in developmental stage differentiation | Q35784110 | ||
| CD11c- and CD11b-expressing mouse leukocytes transport single Toxoplasma gondii tachyzoites to the brain | Q35848508 | ||
| Monocytes give rise to mucosal, but not splenic, conventional dendritic cells | Q36228955 | ||
| Effector cells of both nonhemopoietic and hemopoietic origin are required for interferon (IFN)-gamma- and tumor necrosis factor (TNF)-alpha-dependent host resistance to the intracellular pathogen, Toxoplasma gondii | Q36367987 | ||
| Recruitment of Gr-1+ monocytes is essential for control of acute toxoplasmosis | Q36403789 | ||
| Adaptations of intestinal macrophages to an antigen-rich environment | Q36630460 | ||
| Blood monocytes: distinct subsets, how they relate to dendritic cells, and their possible roles in the regulation of T-cell responses | Q37129845 | ||
| Toxoplasma gondii oral infection induces specific cytotoxic CD8 alpha/beta+ Thy-1+ gut intraepithelial lymphocytes, lytic for parasite-infected enterocytes. | Q41428913 | ||
| TNF/iNOS-producing dendritic cells mediate innate immune defense against bacterial infection | Q44308127 | ||
| Interferon-gamma: the major mediator of resistance against Toxoplasma gondii | Q45128276 | ||
| Dendritic cells rapidly recruited into epithelial tissues via CCR6/CCL20 are responsible for CD8+ T cell crosspriming in vivo. | Q46941018 | ||
| The Ly-6Chigh monocyte subpopulation transports Listeria monocytogenes into the brain during systemic infection of mice. | Q47914827 | ||
| Production of IL-12 by macrophages infected with Toxoplasma gondii depends on the parasite genotype | Q47991756 | ||
| Intraepithelial lymphocytes traffic to the intestine and enhance resistance to Toxoplasma gondii oral infection | Q48220005 | ||
| Adoptive transfer of gut intraepithelial lymphocytes protects against murine infection with Toxoplasma gondii | Q48683344 | ||
| CXCR2 deficiency confers impaired neutrophil recruitment and increased susceptibility during Toxoplasma gondii infection. | Q48709220 | ||
| Induction of dendritic cell migration upon Toxoplasma gondii infection potentiates parasite dissemination. | Q50714975 | ||
| Gram-negative bacteria aggravate murine small intestinal Th1-type immunopathology following oral infection with Toxoplasma gondii. | Q52928766 | ||
| Parasite-induced IL-12 stimulates early IFN-gamma synthesis and resistance during acute infection with Toxoplasma gondii. | Q54195040 | ||
| CCR5 provides a signal for microbial induced production of IL-12 by CD8α+ dendritic cells | Q56880736 | ||
| Functional Inactivation of Immature Dendritic Cells by the Intracellular Parasite Toxoplasma gondii | Q59178739 | ||
| A novel population of Gr-1+-activated macrophages induced during acute toxoplasmosis | Q73938142 | ||
| Human polymorphonuclear leukocytes produce IL-12, TNF-alpha, and the chemokines macrophage-inflammatory protein-1 alpha and -1 beta in response to Toxoplasma gondii antigens | Q77841673 | ||
| Murine neutrophil stimulation by Toxoplasma gondii antigen drives high level production of IFN-gamma-independent IL-12 | Q78102997 | ||
| Use of Ly6G-specific monoclonal antibody to deplete neutrophils in mice | Q81332054 | ||
| P433 | issue | 2 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | Toxoplasma gondii | Q131003 |
| inflammation | Q101991 | ||
| P304 | page(s) | 306-317 | |
| P577 | publication date | 2008-08-01 | |
| P1433 | published in | Immunity | Q6005457 |
| P1476 | title | Gr1(+) inflammatory monocytes are required for mucosal resistance to the pathogen Toxoplasma gondii | |
| P478 | volume | 29 |
| Q60211971 | 99th Dahlem conference on infection, inflammation and chronic inflammatory disorders: induction and control of regulatory T cells in the gastrointestinal tract: consequences for local and peripheral immune responses |
| Q37017572 | A Critical Role for Monocytes/Macrophages During Intestinal Inflammation-associated Lymphangiogenesis |
| Q37194952 | A Toxoplasma dense granule protein, GRA24, modulates the early immune response to infection by promoting a direct and sustained host p38 MAPK activation. |
| Q64992499 | A Toxoplasma gondii locus required for the direct manipulation of host mitochondria has maintained multiple ancestral functions. |
| Q36771337 | A novel murine model of rhinoscleroma identifies Mikulicz cells, the disease signature, as IL-10 dependent derivatives of inflammatory monocytes. |
| Q36119404 | Acute-Phase Deaths from Murine Polymicrobial Sepsis Are Characterized by Innate Immune Suppression Rather Than Exhaustion |
| Q60909088 | Age-Related Differential Stimulation of Immune Response by and During Acute Phase of Infection Affects Disease Severity |
| Q38425579 | Ageing and the immune system: focus on macrophages |
| Q64982993 | Alarmin S100A11 initiates a chemokine response to the human pathogen Toxoplasma gondii. |
| Q37672893 | Altered macrophage phenotype transition impairs skeletal muscle regeneration |
| Q34351310 | Angiotensin-converting enzyme inhibition prevents the release of monocytes from their splenic reservoir in mice with myocardial infarction. |
| Q38247207 | Apicomplexan infections in the gut. |
| Q48269867 | Atypical Activin A and IL-10 Production Impairs Human CD16+ Monocyte Differentiation into Anti-Inflammatory Macrophages |
| Q92239448 | Bone Marrow NK Cells: Origin, Distinctive Features, and Requirements for Tissue Localization |
| Q41851529 | Bone marrow mesenchymal stem and progenitor cells induce monocyte emigration in response to circulating toll-like receptor ligands |
| Q35756352 | Bone-Marrow-Resident NK Cells Prime Monocytes for Regulatory Function during Infection |
| Q35143581 | Border maneuvers: deployment of mucosal immune defenses against Toxoplasma gondii |
| Q38919873 | Broccoli-Derived Nanoparticle Inhibits Mouse Colitis by Activating Dendritic Cell AMP-Activated Protein Kinase |
| Q47273899 | CCR2+ inflammatory monocytes are recruited to Yersinia pyogranulomas and dictate adaptive responses at the expense of innate immunity during oral infection |
| Q33815140 | CCR2-dependent intraepithelial lymphocytes mediate inflammatory gut pathology during Toxoplasma gondii infection |
| Q34041961 | CCR5 controls immune and metabolic functions during Toxoplasma gondii infection |
| Q40331482 | CCR7-dependent immunity during acute Toxoplasma gondii infection |
| Q34079167 | CD11b⁺, Ly6G⁺ cells produce type I interferon and exhibit tissue protective properties following peripheral virus infection |
| Q94545349 | CD209 C-Type Lectins Promote Host Invasion, Dissemination, and Infection of Toxoplasma gondii |
| Q42577315 | CD4 T-cell suppression by cells from Toxoplasma gondii-infected retinas is mediated by surface protein PD-L1 |
| Q40668548 | CD47 Plays a Role as a Negative Regulator in Inducing Protective Immune Responses to Vaccination against Influenza Virus |
| Q50787445 | CD64 distinguishes macrophages from dendritic cells in the gut and reveals the Th1-inducing role of mesenteric lymph node macrophages during colitis. |
| Q35209897 | CD8α(+) dendritic cells are the critical source of interleukin-12 that controls acute infection by Toxoplasma gondii tachyzoites |
| Q37403732 | CSF-1 receptor-mediated differentiation of a new type of monocytic cell with B cell-stimulating activity: its selective dependence on IL-34. |
| Q35018100 | CXCR3-dependent CD4⁺ T cells are required to activate inflammatory monocytes for defense against intestinal infection |
| Q37656431 | Campylobacter jejuni induces extra-intestinal immune responses via Toll-like-receptor-4 signaling in conventional IL-10 deficient mice with chronic colitis |
| Q57462284 | Characterization of a effector uncovers an alternative GSK3/β-catenin-regulatory pathway of inflammation |
| Q36338435 | Characterization of iNOS(+) Neutrophil-like ring cell in tumor-bearing mice |
| Q44420198 | Characterization of the inflammatory response during Ehrlich ascitic tumor development |
| Q36691483 | Chronic Toxoplasma gondii infection enhances β-amyloid phagocytosis and clearance by recruited monocytes. |
| Q37151168 | Circulating Ly-6C+ myeloid precursors migrate to the CNS and play a pathogenic role during autoimmune demyelinating disease. |
| Q43718662 | Clinical and immunological characteristics associated with the presence of protozoa in sputum smears |
| Q34052183 | Combinatorial effects of interleukin 10 and interleukin 4 determine the progression of hepatic inflammation following murine enteric parasitic infection |
| Q36553712 | Combined action of nucleic acid-sensing Toll-like receptors and TLR11/TLR12 heterodimers imparts resistance to Toxoplasma gondii in mice |
| Q64118491 | Comprehensive Kinetic Survey of Intestinal, Extra-Intestinal and Systemic Sequelae of Murine Ileitis Following Peroral Low-Dose Infection |
| Q37743170 | Congenital toxoplasmosis: candidate host immune genes relevant for vertical transmission and pathogenesis |
| Q27009419 | Contextual functions of antigen-presenting cells in the gastrointestinal tract |
| Q33782573 | Control of metastatic niche formation by targeting APBA3/Mint3 in inflammatory monocytes. |
| Q36163076 | Critical role for MyD88-mediated neutrophil recruitment during Clostridium difficile colitis. |
| Q47954798 | Cytokine profiling reveals decreased serum levels of CCL2 in active ocular toxoplasmosis |
| Q33624096 | Decrease of Foxp3+ Treg cell number and acquisition of effector cell phenotype during lethal infection |
| Q39021691 | Dendritic cell migration in health and disease |
| Q36263627 | Dendritic cells, monocytes and macrophages: a unified nomenclature based on ontogeny |
| Q29616446 | Development of monocytes, macrophages, and dendritic cells |
| Q37005642 | Diet-dependent, microbiota-independent regulation of IL-10-producing lamina propria macrophages in the small intestine. |
| Q35855476 | Distinct Upstream Role of Type I IFN Signaling in Hematopoietic Stem Cell-Derived and Epithelial Resident Cells for Concerted Recruitment of Ly-6Chi Monocytes and NK Cells via CCL2-CCL3 Cascade |
| Q53682434 | Dual TLR2/9 Recognition of Herpes Simplex Virus Infection Is Required for Recruitment and Activation of Monocytes and NK Cells and Restriction of Viral Dissemination to the Central Nervous System. |
| Q37621648 | Dual role for inflammasome sensors NLRP1 and NLRP3 in murine resistance to Toxoplasma gondii |
| Q40117729 | Dual role of monocyte-derived dendritic cells in Trypanosoma cruzi infection. |
| Q37415544 | Dysregulation of macrophage signal transduction by Toxoplasma gondii: past progress and recent advances |
| Q42427494 | E-cadherin marks a subset of inflammatory dendritic cells that promote T cell-mediated colitis. |
| Q38234941 | Evolution of Our Understanding of Myeloid Regulatory Cells: From MDSCs to Mregs |
| Q50034396 | Expansion of Tfh-like cells during chronic Salmonella exposure mediates the generation of autoimmune hypergammaglobulinemia in MyD88-deficient mice |
| Q35210869 | Experimental infection with the Toxoplasma gondii ME-49 strain in the Brazilian BR-1 mini pig is a suitable animal model for human toxoplasmosis |
| Q27334591 | Extramedullary myelopoiesis in malaria depends on mobilization of myeloid-restricted progenitors by IFN-γ induced chemokines |
| Q36331567 | Functional role of monocytes and macrophages for the inflammatory response in acute liver injury |
| Q33602978 | GRA25 is a novel virulence factor of Toxoplasma gondii and influences the host immune response |
| Q35058891 | Glioma-associated microglia/macrophages display an expression profile different from M1 and M2 polarization and highly express Gpnmb and Spp1. |
| Q37364789 | Heme oxygenase-1 activity is involved in the control of Toxoplasma gondii infection in the lung of BALB/c and C57BL/6 and in the small intestine of C57BL/6 mice. |
| Q62735118 | Hepatic recruitment of the inflammatory Gr1+monocyte subset upon liver injury promotes hepatic fibrosis |
| Q34467203 | Heterogeneity across the murine small and large intestine |
| Q37638184 | High-resolution intravital imaging reveals that blood-derived macrophages but not resident microglia facilitate secondary axonal dieback in traumatic spinal cord injury |
| Q33472679 | Histamine H(3) receptor-mediated signaling protects mice from cerebral malaria |
| Q39677282 | Human glioblastoma-associated microglia/monocytes express a distinct RNA profile compared to human control and murine samples. |
| Q36994369 | Human innate immunity to Toxoplasma gondii is mediated by host caspase-1 and ASC and parasite GRA15. |
| Q36253264 | IFN-α-driven CCL2 production recruits inflammatory monocytes to infection site in mice |
| Q42938541 | IFN-γ signals a changing of the guards |
| Q24649151 | Identification of splenic reservoir monocytes and their deployment to inflammatory sites |
| Q24612341 | Immune response and immunopathology during toxoplasmosis |
| Q26827675 | Immunological cells and functions in Gaucher disease |
| Q64915316 | Immunomodulatory Effects of the Neuropeptide Pituitary Adenylate Cyclase-Activating Polypeptide in Acute Toxoplasmosis. |
| Q36031544 | Impact of Toxoplasma gondii on Dendritic Cell Subset Function in the Intestinal Mucosa |
| Q34139953 | Impaired chromatin remodelling at STAT1-regulated promoters leads to global unresponsiveness of Toxoplasma gondii-infected macrophages to IFN-γ |
| Q36396820 | Impaired innate immunity in mice deficient in interleukin-1 receptor-associated kinase 4 leads to defective type 1 T cell responses, B cell expansion, and enhanced susceptibility to infection with Toxoplasma gondii |
| Q33700082 | In vitro infection of human nervous cells by two strains of Toxoplasma gondii: a kinetic analysis of immune mediators and parasite multiplication. |
| Q42419013 | Increased Adipocyte Area in Injured Muscle With Aging and Impaired Remodeling in Female Mice. |
| Q41564404 | Increased CD11b(+) Gr-1(+) cell population in the placenta after infection with Toxoplasma gondii |
| Q34354896 | Infection-induced regulation of natural killer cells by macrophages and collagen at the lymph node subcapsular sinus |
| Q33768939 | Inflammatory monocytes but not neutrophils are necessary to control infection with Toxoplasma gondii in mice |
| Q35105630 | Inflammatory monocytes orchestrate innate antifungal immunity in the lung. |
| Q35489009 | Inflammatory monocytes recruited to the liver within 24 hours after virus-induced inflammation resemble Kupffer cells but are functionally distinct |
| Q37127389 | Inflammatory monocytes regulate pathologic responses to commensals during acute gastrointestinal infection. |
| Q38549766 | Innate and Adaptive Cellular Immune Responses to Mycobacterium tuberculosis Infection |
| Q35634587 | Innate and adaptive interferons suppress IL-1α and IL-1β production by distinct pulmonary myeloid subsets during Mycobacterium tuberculosis infection |
| Q27002611 | Innate immune signaling in defense against intestinal microbes |
| Q37559655 | Innate recognition of Toxoplasma gondii in humans involves a mechanism distinct from that utilized by rodents. |
| Q37735128 | Innate resistance against Toxoplasma gondii: an evolutionary tale of mice, cats, and men. |
| Q37953824 | Insights into inflammatory bowel disease using Toxoplasma gondii as an infectious trigger |
| Q33554402 | Interactions between the host innate immune system and microbes in inflammatory bowel disease |
| Q34576329 | Internalization and TLR-dependent type I interferon production by monocytes in response to Toxoplasma gondii |
| Q35953647 | Intestinal macrophages arising from CCR2(+) monocytes control pathogen infection by activating innate lymphoid cells. |
| Q37194943 | Intestinal monocytes and macrophages are required for T cell polarization in response to Citrobacter rodentium |
| Q33815694 | Intranasal Poly-IC treatment exacerbates tuberculosis in mice through the pulmonary recruitment of a pathogen-permissive monocyte/macrophage population |
| Q36971309 | Invasion and intracellular survival by protozoan parasites |
| Q34456673 | Leishmania mexicana induces limited recruitment and activation of monocytes and monocyte-derived dendritic cells early during infection |
| Q91975133 | Long-Term Impact of Toxoplasma gondii Infection on Human Monocytes |
| Q33794381 | Luminal microbes promote monocyte-stem cell interactions across a healthy colonic epithelium |
| Q61941968 | Ly6C Blood Monocyte/Macrophage Drive Chronic Inflammation and Impair Wound Healing in Diabetes Mellitus |
| Q37351573 | Ly6C(hi) monocytes regulate T cell responses in viral hepatitis |
| Q47144686 | Ly6Chi inflammatory monocytes promote susceptibility to Leishmania donovani infection |
| Q30718708 | Ly6Chigh Monocytes Protect against Kidney Damage during Sepsis via a CX3CR1-Dependent Adhesion Mechanism |
| Q27348931 | MIF Promotes Classical Activation and Conversion of Inflammatory Ly6C(high) Monocytes into TipDCs during Murine Toxoplasmosis |
| Q38913938 | Macrophages in gastrointestinal homeostasis and inflammation. |
| Q26851960 | Macrophages in intestinal homeostasis and inflammation |
| Q37142513 | Meprin A impairs epithelial barrier function, enhances monocyte migration, and cleaves the tight junction protein occludin. |
| Q40148415 | Mesenchymal Cell-Specific MyD88 Signaling Promotes Systemic Dissemination of Salmonella Typhimurium via Inflammatory Monocytes. |
| Q40337268 | Mesenchymal Stromal Cells Modulate Monocytes Trafficking in Coxsackievirus B3-Induced Myocarditis |
| Q36115730 | Microbe-dendritic cell dialog controls regulatory T-cell fate |
| Q33699119 | Microbial control of regulatory and effector T cell responses in the gut. |
| Q39124518 | Modulation of host immune responses to Toxoplasma gondii by microRNAs. |
| Q34033981 | Modulation of innate immunity by Toxoplasma gondii virulence effectors |
| Q36840151 | Monocyte and macrophage contributions to cardiac remodeling. |
| Q33511278 | Monocyte and neutrophil recruitment during oral Salmonella infection is driven by MyD88-derived chemokines |
| Q40579285 | Monocyte function in the fetus and the preterm neonate: immaturity combined with functional impairment |
| Q29620067 | Monocyte recruitment during infection and inflammation |
| Q35230750 | Monocyte trafficking in acute and chronic inflammation |
| Q34065838 | Monocyte trafficking to hepatic sites of bacterial infection is chemokine independent and directed by focal intercellular adhesion molecule-1 expression |
| Q90202158 | Monocyte-derived dendritic cells in malaria |
| Q38791792 | Monocyte-mediated defense against bacteria, fungi, and parasites |
| Q38248578 | Monocytes and infection: modulator, messenger and effector |
| Q38199685 | Monocytes in health and disease - Minireview |
| Q37764125 | Monocytes mediate mucosal immunity to Toxoplasma gondii |
| Q92223560 | Monocytes undergo multi-step differentiation in mice during oral infection by Toxoplasma gondii |
| Q47550777 | Monocytic Myeloid-Derived Suppressor Cells in Chronic Infections. |
| Q38007905 | Mononuclear phagocyte diversity in the intestine. |
| Q30540134 | Motile invaded neutrophils in the small intestine of Toxoplasma gondii-infected mice reveal a potential mechanism for parasite spread |
| Q42559283 | Mouse adenovirus type 1 infection of macrophages |
| Q37949275 | Mucosal macrophages in intestinal homeostasis and inflammation |
| Q33392688 | MyD88 is required for protection from lethal infection with a mouse-adapted SARS-CoV. |
| Q38134246 | Myeloid cells in atherosclerosis: a delicate balance of anti-inflammatory and proinflammatory mechanisms |
| Q37808167 | Myeloid-derived suppressor cells in parasitic infections |
| Q90290834 | NFAT1 Regulates Ly6Chi Monocyte Recruitment to the CNS and Plays an Essential Role in Resistance to Toxoplasma gondii Infection |
| Q36141120 | NK cell-derived interferon-γ orchestrates cellular dynamics and the differentiation of monocytes into dendritic cells at the site of infection |
| Q40048102 | NLRP3 and Potassium Efflux Drive Rapid IL-1β Release from Primary Human Monocytes during Toxoplasma gondii Infection. |
| Q38076049 | Negative regulation of human mononuclear phagocyte function |
| Q34924724 | Neutrophils are required for both the sensitization and elicitation phase of contact hypersensitivity |
| Q35187119 | Nod2 sensing of lysozyme-digested peptidoglycan promotes macrophage recruitment and clearance of S. pneumoniae colonization in mice. |
| Q41845510 | Nonhematopoietic cells control the outcome of infection with Listeria monocytogenes in a nucleotide oligomerization domain 1-dependent manner |
| Q33747396 | Notch Regulates Macrophage-Mediated Inflammation in Diabetic Wound Healing. |
| Q27314835 | Nucleotide-oligomerization-domain-2 affects commensal gut microbiota composition and intracerebral immunopathology in acute Toxoplasma gondii induced murine ileitis |
| Q36931850 | Oral oocyst-induced mouse model of toxoplasmosis: effect of infection with Toxoplasma gondii strains of different genotypes, dose, and mouse strains (transgenic, out-bred, in-bred) on pathogenesis and mortality |
| Q59806954 | Origin, Differentiation, and Function of Intestinal Macrophages |
| Q35913586 | Over-Expression of CD200 Protects Mice from Dextran Sodium Sulfate Induced Colitis |
| Q35128914 | Overproduction of Toxoplasma gondii cyclophilin-18 regulates host cell migration and enhances parasite dissemination in a CCR5-independent manner |
| Q55548585 | Peroral Low-Dose Toxoplasma gondii Infection of Human Microbiota-Associated Mice — A Subacute Ileitis Model to Unravel Pathogen–Host Interactions. |
| Q27026477 | Persistence of Toxoplasma gondii in the central nervous system: a fine-tuned balance between the parasite, the brain and the immune system |
| Q22255519 | Phagocyte responses to protozoan infection and how Toxoplasma gondii meets the challenge |
| Q36156031 | Phenotypic, morphological, and functional heterogeneity of splenic immature myeloid cells in the host response to tularemia |
| Q24617053 | Phosphorylation of immunity-related GTPases by a Toxoplasma gondii-secreted kinase promotes macrophage survival and virulence |
| Q35213593 | Platelet activation attracts a subpopulation of effector monocytes to sites of Leishmania major infection |
| Q92912811 | Proliferation of Resident Macrophages Is Dispensable for Protection during Giardia duodenalis Infections |
| Q40062647 | Protease-Activated Receptor 2 contributes to Toxoplasma gondii-mediated gut inflammation. |
| Q27005837 | Protection and pathology during parasite infection: IL-10 strikes the balance |
| Q42175323 | Pulmonary contusion is associated with toll-like receptor 4 upregulation and decreased susceptibility to pseudomonas pneumonia in a mouse model. |
| Q100490761 | Putative biomarkers for early diagnosis and prognosis of congenital ocular toxoplasmosis |
| Q36223307 | Recipient Myd88 Deficiency Promotes Spontaneous Resolution of Kidney Allograft Rejection |
| Q33599823 | Recombinant TgHSP70 Immunization Protects against Toxoplasma gondii Brain Cyst Formation by Enhancing Inducible Nitric Oxide Expression |
| Q34471984 | Recruited inflammatory monocytes stimulate antiviral Th1 immunity in infected tissue |
| Q87374508 | Recruitment of Gr1(+)CD11b (+)F4/80 (+) population in the bone marrow and spleen by irradiation-induced pulmonary damage |
| Q41094698 | Redundant Function of Plasmacytoid and Conventional Dendritic Cells Is Required To Survive a Natural Virus Infection. |
| Q30409386 | Regulation of immunopathogenesis during Plasmodium and Toxoplasma infections: more parallels than distinctions? |
| Q36826878 | Replication and distribution of Toxoplasma gondii in the small intestine after oral infection with tissue cysts |
| Q34153471 | Role of CCR2 in inflammatory conditions of the central nervous system |
| Q36138041 | Role of Inflammatory Monocytes in Vaccine-Induced Reduction of Helicobacter felis Infection |
| Q38329556 | Role of innate and adaptive immune mechanisms in cardiac injury and repair |
| Q37760423 | Securing the immune tightrope: mononuclear phagocytes in the intestinal lamina propria |
| Q37367175 | Selective expansion of the monocytic lineage directed by bacterial infection |
| Q50041053 | Selective recruitment of non-classical monocytes promotes skeletal muscle repair |
| Q95271890 | Sepsis Triggers a Late Expansion of Functionally Impaired Tissue-Vascular Inflammatory Monocytes During Clinical Recovery |
| Q27309244 | Specific depletion of Ly6C(hi) inflammatory monocytes prevents immunopathology in experimental cerebral malaria |
| Q30827689 | Splenic differentiation and emergence of CCR5+CXCL9+CXCL10+ monocyte-derived dendritic cells in the brain during cerebral malaria. |
| Q40385188 | Steroid Receptor Coactivator 3 Contributes to Host Defense against Enteric Bacteria by Recruiting Neutrophils via Upregulation of CXCL2 Expression. |
| Q64084524 | Strain CNCM I-745 Modifies the Mononuclear Phagocytes Response in the Small Intestine of Mice Following Typhimurium Infection |
| Q36055984 | Stromal-derived IL-6 alters the balance of myeloerythroid progenitors during Toxoplasma gondii infection |
| Q39247894 | Suppression of vaccine immunity by inflammatory monocytes |
| Q34652095 | Surveillance on the status of immune cells after Echinnococcus granulosus protoscoleces infection in Balb/c mice |
| Q40939737 | TFF Peptides Play a Role in the Immune Response Following Oral Infection of Mice with Toxoplasma Gondii |
| Q34216703 | TLR4/MyD88-induced CD11b+Gr-1intF4/80+ non-migratory myeloid cells suppress Th2 effector function in the lung |
| Q35894071 | TNF Drives Monocyte Dysfunction with Age and Results in Impaired Anti-pneumococcal Immunity. |
| Q36387165 | The IL-12 Response of Primary Human Dendritic Cells and Monocytes to Toxoplasma gondii Is Stimulated by Phagocytosis of Live Parasites Rather Than Host Cell Invasion. |
| Q27491019 | The Major Locus for Mouse Adenovirus Susceptibility Maps to Genes of the Hematopoietic Cell Surface-Expressed LY6 Family |
| Q42197911 | The Nod2 sensor promotes intestinal pathogen eradication via the chemokine CCL2-dependent recruitment of inflammatory monocytes |
| Q64924595 | The Protozoan Parasite Toxoplasma gondii Selectively Reprograms the Host Cell Translatome. |
| Q38951470 | The Role of the Microbiota in Shaping Infectious Immunity |
| Q91624604 | The Toxoplasma effector TEEGR promotes parasite persistence by modulating NF-κB signalling via EZH2 |
| Q37145054 | The Toxoplasma gondii-shuttling function of dendritic cells is linked to the parasite genotype. |
| Q26863747 | The gut mucosal immune response to Toxoplasma gondii |
| Q33756071 | The impact of Toll-like-receptor-9 on intestinal microbiota composition and extra-intestinal sequelae in experimental Toxoplasma gondii induced ileitis |
| Q26829853 | The monocyte-macrophage axis in the intestine |
| Q37741022 | The multiple roles of monocyte subsets in steady state and inflammation |
| Q27341809 | The polymorphic pseudokinase ROP5 controls virulence in Toxoplasma gondii by regulating the active kinase ROP18 |
| Q35423526 | The role of Gr-1(+) cells and tumour necrosis factor-α signalling during Clostridium difficile colitis in mice |
| Q40515876 | The role of chemokines and their receptors during protist parasite infections |
| Q92094023 | The secreted kinase ROP17 promotes Toxoplasma gondii dissemination by hijacking monocyte tissue migration |
| Q36041799 | The secreted kinase ROP18 defends Toxoplasma's border |
| Q37146888 | Tipping the balance in favor of protective immunity during influenza virus infection |
| Q37826217 | Tolerogenic dendritic cells and their potential applications |
| Q34086419 | Toll-like receptor 4 and MAIR-II/CLM-4/LMIR2 immunoreceptor regulate VLA-4-mediated inflammatory monocyte migration |
| Q62658247 | Toward a functional characterization of blood monocytes |
| Q40101005 | Toxoplasma Co-infection Prevents Th2 Differentiation and Leads to a Helminth-Specific Th1 Response |
| Q37197979 | Toxoplasma gondii TgIST co-opts host chromatin repressors dampening STAT1-dependent gene regulation and IFN-γ-mediated host defenses. |
| Q92867371 | Toxoplasma gondii activates a Syk-CARD9-NF-κB signaling axis and gasdermin D-independent release of IL-1β during infection of primary human monocytes |
| Q34057241 | Toxoplasma gondii development of its replicative niche: in its host cell and beyond |
| Q92623881 | Toxoplasma gondii effector TgIST blocks type I interferon signaling to promote infection |
| Q35434828 | Toxoplasma gondii effectors are master regulators of the inflammatory response |
| Q46352136 | Toxoplasma gondii modulates the dynamics of human monocyte adhesion to vascular endothelium under fluidic shear stress |
| Q33749045 | Toxoplasma gondii profilin promotes recruitment of Ly6Chi CCR2+ inflammatory monocytes that can confer resistance to bacterial infection |
| Q36911407 | Toxoplasma gondii rhoptry 16 kinase promotes host resistance to oral infection and intestinal inflammation only in the context of the dense granule protein GRA15. |
| Q27305548 | Toxoplasma gondii soluble tachyzoite antigen triggers protective mechanisms against fatal intestinal pathology in oral infection of C57BL/6 mice |
| Q27027025 | Toxoplasma gondii-induced neuronal alterations |
| Q35090382 | Toxoplasma polymorphic effectors determine macrophage polarization and intestinal inflammation. |
| Q52714731 | Transcriptional repression by ApiAP2 factors is central to chronic toxoplasmosis. |
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