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Publication DateJournal of Experimental Medicine, ISSN 0022-1007, 2013, Volume 210, Issue 9, pp. 1695 - 1710
Treatment with monoclonal antibody specific for cytotoxic T lymphocyte-associated antigen 4 (CTLA-4), an inhibitory receptor expressed by T lymphocytes, has...
EFFECTOR | MEDICINE, RESEARCH & EXPERIMENTAL | CTLA-4 BLOCKADE | LYMPHOCYTE-ASSOCIATED ANTIGEN-4 | CANCER-PATIENTS | IN-VIVO | COMBINATION IMMUNOTHERAPY | MONOCLONAL-ANTIBODY | IMMUNOLOGY | LARGE ESTABLISHED MELANOMA | GAMMA-RIV | ANTITUMOR-ACTIVITY | Fas Ligand Protein - metabolism | Lymph Nodes - pathology | Antibodies, Blocking - pharmacology | Lymphocyte Depletion | Granulocyte-Macrophage Colony-Stimulating Factor - therapeutic use | Receptors, IgG - metabolism | T-Lymphocytes, Regulatory - immunology | Signal Transduction - immunology | Melanoma - prevention & control | Lymph Nodes - drug effects | Cell Membrane - metabolism | Clone Cells | Cell Membrane - drug effects | Tumor Microenvironment - drug effects | Phagocytes - drug effects | Mice, Inbred C57BL | Treatment Outcome | Lymph Nodes - immunology | Lymphocytes, Tumor-Infiltrating - drug effects | Melanoma - pathology | Phagocytes - immunology | TNF-Related Apoptosis-Inducing Ligand - metabolism | Tumor Microenvironment - immunology | T-Lymphocytes, Regulatory - drug effects | Animals | Lymphocytes, Tumor-Infiltrating - pathology | Signal Transduction - drug effects | Melanoma - immunology | CD8-Positive T-Lymphocytes - drug effects | Antibodies, Blocking - therapeutic use | Lymphocyte Count | Mice | CD11b Antigen - metabolism | CD8-Positive T-Lymphocytes - immunology | CTLA-4 Antigen - antagonists & inhibitors | Melanoma - therapy | CD4 Antigens - metabolism | Lymphocytes, Tumor-Infiltrating - immunology | Index Medicus
EFFECTOR | MEDICINE, RESEARCH & EXPERIMENTAL | CTLA-4 BLOCKADE | LYMPHOCYTE-ASSOCIATED ANTIGEN-4 | CANCER-PATIENTS | IN-VIVO | COMBINATION IMMUNOTHERAPY | MONOCLONAL-ANTIBODY | IMMUNOLOGY | LARGE ESTABLISHED MELANOMA | GAMMA-RIV | ANTITUMOR-ACTIVITY | Fas Ligand Protein - metabolism | Lymph Nodes - pathology | Antibodies, Blocking - pharmacology | Lymphocyte Depletion | Granulocyte-Macrophage Colony-Stimulating Factor - therapeutic use | Receptors, IgG - metabolism | T-Lymphocytes, Regulatory - immunology | Signal Transduction - immunology | Melanoma - prevention & control | Lymph Nodes - drug effects | Cell Membrane - metabolism | Clone Cells | Cell Membrane - drug effects | Tumor Microenvironment - drug effects | Phagocytes - drug effects | Mice, Inbred C57BL | Treatment Outcome | Lymph Nodes - immunology | Lymphocytes, Tumor-Infiltrating - drug effects | Melanoma - pathology | Phagocytes - immunology | TNF-Related Apoptosis-Inducing Ligand - metabolism | Tumor Microenvironment - immunology | T-Lymphocytes, Regulatory - drug effects | Animals | Lymphocytes, Tumor-Infiltrating - pathology | Signal Transduction - drug effects | Melanoma - immunology | CD8-Positive T-Lymphocytes - drug effects | Antibodies, Blocking - therapeutic use | Lymphocyte Count | Mice | CD11b Antigen - metabolism | CD8-Positive T-Lymphocytes - immunology | CTLA-4 Antigen - antagonists & inhibitors | Melanoma - therapy | CD4 Antigens - metabolism | Lymphocytes, Tumor-Infiltrating - immunology | Index Medicus
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Loading RightsCancer Cell, ISSN 1535-6108, 02/2013, Volume 23, Issue 2, pp. 249 - 262
There is widespread interest in macrophages as a therapeutic target in cancer. Here, we demonstrate that trabectedin, a recently approved chemotherapeutic...
CANCER-CELLS | APOPTOSIS | UNIQUE MECHANISM | ACTIVATION | TRAIL | ONCOLOGY | DEATH RECEPTOR 5 | INFLAMMATION | MONOCYTES | TUMOR-ASSOCIATED MACROPHAGES | DIFFERENTIATION | CELL BIOLOGY | Dioxoles - therapeutic use | Cell Proliferation | Apoptosis - drug effects | Humans | Caspase 8 - metabolism | Ovarian Neoplasms - pathology | Monocytes - metabolism | Phagocytes - pathology | Fibrosarcoma - metabolism | Immunoenzyme Techniques | Fibrosarcoma - pathology | Flow Cytometry | Monocytes - pathology | Female | Myeloid Cells - drug effects | Neovascularization, Pathologic - prevention & control | Ovarian Neoplasms - metabolism | Tumor Cells, Cultured | Ovarian Neoplasms - drug therapy | Macrophages - pathology | Phagocytes - drug effects | Tetrahydroisoquinolines - therapeutic use | Phagocytes - metabolism | Carcinoma, Lewis Lung - metabolism | Blotting, Western | Carcinoma, Lewis Lung - drug therapy | Antineoplastic Agents, Alkylating - therapeutic use | Monocytes - drug effects | Macrophages - metabolism | Animals | Signal Transduction - drug effects | Carcinoma, Lewis Lung - pathology | Myeloid Cells - metabolism | Macrophages - drug effects | Mice | Myeloid Cells - pathology | Fibrosarcoma - drug therapy | Chemotherapy | Sarcoma | Macrophages | Analysis | Cancer | Index Medicus
CANCER-CELLS | APOPTOSIS | UNIQUE MECHANISM | ACTIVATION | TRAIL | ONCOLOGY | DEATH RECEPTOR 5 | INFLAMMATION | MONOCYTES | TUMOR-ASSOCIATED MACROPHAGES | DIFFERENTIATION | CELL BIOLOGY | Dioxoles - therapeutic use | Cell Proliferation | Apoptosis - drug effects | Humans | Caspase 8 - metabolism | Ovarian Neoplasms - pathology | Monocytes - metabolism | Phagocytes - pathology | Fibrosarcoma - metabolism | Immunoenzyme Techniques | Fibrosarcoma - pathology | Flow Cytometry | Monocytes - pathology | Female | Myeloid Cells - drug effects | Neovascularization, Pathologic - prevention & control | Ovarian Neoplasms - metabolism | Tumor Cells, Cultured | Ovarian Neoplasms - drug therapy | Macrophages - pathology | Phagocytes - drug effects | Tetrahydroisoquinolines - therapeutic use | Phagocytes - metabolism | Carcinoma, Lewis Lung - metabolism | Blotting, Western | Carcinoma, Lewis Lung - drug therapy | Antineoplastic Agents, Alkylating - therapeutic use | Monocytes - drug effects | Macrophages - metabolism | Animals | Signal Transduction - drug effects | Carcinoma, Lewis Lung - pathology | Myeloid Cells - metabolism | Macrophages - drug effects | Mice | Myeloid Cells - pathology | Fibrosarcoma - drug therapy | Chemotherapy | Sarcoma | Macrophages | Analysis | Cancer | Index Medicus
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Loading RightsJournal of Bone and Mineral Research, ISSN 0884-0431, 07/2011, Volume 26, Issue 7, pp. 1517 - 1532
Bone‐lining tissues contain a population of resident macrophages termed osteomacs that interact with osteoblasts in vivo and control mineralization in vitro....
Osteoblast | Osteoclast | Osteomac | Bone Formation | Macrophage | OSTEOBLAST | COLONY-STIMULATING FACTOR | PHOSPHATASE | MACROPHAGE | TISSUE | RECEPTOR | MONONUCLEAR PHAGOCYTE SYSTEM | CRUCIAL ROLE | CALLUS | OSTEOCLAST | REPAIR | IMMUNE-SYSTEM | BONE FORMATION | ENDOCRINOLOGY & METABOLISM | EXPRESSION | OSTEOMAC | Bone Matrix - metabolism | Inflammation - pathology | Clodronic Acid - pharmacology | Liposomes - administration & dosage | Tartrate-Resistant Acid Phosphatase | Membranes - drug effects | Tibia - injuries | Tibia - pathology | Acid Phosphatase - metabolism | Isoenzymes - metabolism | Bone Matrix - drug effects | Surface Properties - drug effects | Macrophage Colony-Stimulating Factor - pharmacology | Wound Healing - drug effects | Disease Models, Animal | Calcification, Physiologic - drug effects | Mice, Inbred C57BL | Osteoblasts - drug effects | Osteogenesis - drug effects | Osteoprotegerin - pharmacology | Mice, Transgenic | Membranes - pathology | Tibia - drug effects | Osteoblasts - pathology | Macrophages - metabolism | Animals | Macrophages - drug effects | Clodronic Acid - administration & dosage | Mice | Index Medicus
Osteoblast | Osteoclast | Osteomac | Bone Formation | Macrophage | OSTEOBLAST | COLONY-STIMULATING FACTOR | PHOSPHATASE | MACROPHAGE | TISSUE | RECEPTOR | MONONUCLEAR PHAGOCYTE SYSTEM | CRUCIAL ROLE | CALLUS | OSTEOCLAST | REPAIR | IMMUNE-SYSTEM | BONE FORMATION | ENDOCRINOLOGY & METABOLISM | EXPRESSION | OSTEOMAC | Bone Matrix - metabolism | Inflammation - pathology | Clodronic Acid - pharmacology | Liposomes - administration & dosage | Tartrate-Resistant Acid Phosphatase | Membranes - drug effects | Tibia - injuries | Tibia - pathology | Acid Phosphatase - metabolism | Isoenzymes - metabolism | Bone Matrix - drug effects | Surface Properties - drug effects | Macrophage Colony-Stimulating Factor - pharmacology | Wound Healing - drug effects | Disease Models, Animal | Calcification, Physiologic - drug effects | Mice, Inbred C57BL | Osteoblasts - drug effects | Osteogenesis - drug effects | Osteoprotegerin - pharmacology | Mice, Transgenic | Membranes - pathology | Tibia - drug effects | Osteoblasts - pathology | Macrophages - metabolism | Animals | Macrophages - drug effects | Clodronic Acid - administration & dosage | Mice | Index Medicus
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Loading RightsNature, ISSN 0028-0836, 09/2009, Volume 461, Issue 7261, pp. 282 - 286
Phagocytic removal of apoptotic cells occurs efficiently in vivo such that even in tissues with significant apoptosis, very few apoptotic cells are detectable....
UTP | THYMUS | RECEPTOR SUBTYPES | EPITHELIAL-CELLS | CHEMOTAXIS | INFLAMMATION | ENGULFMENT | ELEGANS | MULTIDISCIPLINARY SCIENCES | DEATH | EXTRACELLULAR NUCLEOTIDES | Uridine Triphosphate - metabolism | Monocytes - cytology | Humans | Culture Media, Conditioned - chemistry | Culture Media, Conditioned - pharmacology | Monocytes - metabolism | Receptors, Purinergic P2Y2 | Adenosine Triphosphate - pharmacology | Chemotactic Factors - pharmacology | Chemotactic Factors - metabolism | Adenosine Triphosphate - metabolism | Receptors, Purinergic P2 - genetics | Phagocytes - cytology | Cell Line | Phagocytosis - drug effects | Jurkat Cells | Phagocytes - drug effects | Mice, Inbred C57BL | Uridine Triphosphate - pharmacology | Cells, Cultured | Phagocytosis - physiology | Thymus Gland - cytology | Purinergic P2 Receptor Antagonists | Chemotaxis - drug effects | Macrophages - cytology | Phagocytes - metabolism | Monocytes - drug effects | Macrophages - metabolism | Animals | Signal Transduction - drug effects | Receptors, Purinergic P2 - metabolism | Macrophages - drug effects | Mice | Apoptosis - physiology | Macrophage Activation - drug effects | Receptors, Purinergic P2 - deficiency | Culture Media, Conditioned - metabolism | Phagocytes | Nucleotides | Research | Properties | Apoptosis | Rodents | Cells | Index Medicus
UTP | THYMUS | RECEPTOR SUBTYPES | EPITHELIAL-CELLS | CHEMOTAXIS | INFLAMMATION | ENGULFMENT | ELEGANS | MULTIDISCIPLINARY SCIENCES | DEATH | EXTRACELLULAR NUCLEOTIDES | Uridine Triphosphate - metabolism | Monocytes - cytology | Humans | Culture Media, Conditioned - chemistry | Culture Media, Conditioned - pharmacology | Monocytes - metabolism | Receptors, Purinergic P2Y2 | Adenosine Triphosphate - pharmacology | Chemotactic Factors - pharmacology | Chemotactic Factors - metabolism | Adenosine Triphosphate - metabolism | Receptors, Purinergic P2 - genetics | Phagocytes - cytology | Cell Line | Phagocytosis - drug effects | Jurkat Cells | Phagocytes - drug effects | Mice, Inbred C57BL | Uridine Triphosphate - pharmacology | Cells, Cultured | Phagocytosis - physiology | Thymus Gland - cytology | Purinergic P2 Receptor Antagonists | Chemotaxis - drug effects | Macrophages - cytology | Phagocytes - metabolism | Monocytes - drug effects | Macrophages - metabolism | Animals | Signal Transduction - drug effects | Receptors, Purinergic P2 - metabolism | Macrophages - drug effects | Mice | Apoptosis - physiology | Macrophage Activation - drug effects | Receptors, Purinergic P2 - deficiency | Culture Media, Conditioned - metabolism | Phagocytes | Nucleotides | Research | Properties | Apoptosis | Rodents | Cells | Index Medicus
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Loading RightsJournal of Experimental Medicine, ISSN 0022-1007, 2014, Volume 211, Issue 8, pp. 1571 - 1583
Interleukin (IL)-22-producing group 3 innate lymphoid cells (ILC3) promote mucosal healing and maintain barrier integrity, but how microbial signals are...
Interleukin-1beta - pharmacology | Humans | Colitis - pathology | Monocytes - metabolism | Intestinal Mucosa - drug effects | Interleukin-23 - metabolism | Feces | Interleukins - biosynthesis | Toll-Like Receptors - metabolism | Colitis - immunology | Lymphocytes - metabolism | Dendrites - drug effects | Dendrites - metabolism | Citrobacter rodentium - physiology | Immunity, Innate - drug effects | Phagocytes - drug effects | Receptors, Chemokine - metabolism | Citrobacter rodentium - drug effects | Lymphocytes - microbiology | Phagocytes - metabolism | Tumor Necrosis Factor Ligand Superfamily Member 15 - metabolism | Monocytes - drug effects | Animals | Colitis - microbiology | Phagocytes - microbiology | Lymphocytes - drug effects | Mice | CX3C Chemokine Receptor 1 | Colitis - prevention & control | Intestinal Mucosa - pathology | Index Medicus | 303
Interleukin-1beta - pharmacology | Humans | Colitis - pathology | Monocytes - metabolism | Intestinal Mucosa - drug effects | Interleukin-23 - metabolism | Feces | Interleukins - biosynthesis | Toll-Like Receptors - metabolism | Colitis - immunology | Lymphocytes - metabolism | Dendrites - drug effects | Dendrites - metabolism | Citrobacter rodentium - physiology | Immunity, Innate - drug effects | Phagocytes - drug effects | Receptors, Chemokine - metabolism | Citrobacter rodentium - drug effects | Lymphocytes - microbiology | Phagocytes - metabolism | Tumor Necrosis Factor Ligand Superfamily Member 15 - metabolism | Monocytes - drug effects | Animals | Colitis - microbiology | Phagocytes - microbiology | Lymphocytes - drug effects | Mice | CX3C Chemokine Receptor 1 | Colitis - prevention & control | Intestinal Mucosa - pathology | Index Medicus | 303
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Loading RightsProceedings of the National Academy of Sciences of the United States of America, ISSN 0027-8424, 7/2014, Volume 111, Issue 29, pp. 10444 - 10449
Chemoresistance of cisplatin therapy is related to extensive repair of cisplatin-modified DNA in the nucleus by the nucleotide excision repair (NER)....
Phagocytes | Mitochondria | Prodrugs | Neurons | Cell lines | Mitochondrial DNA | Neuroblastoma | Respiration | Oligomycins | Adducts | OXPHOS | Click chemistry | Pharmacokinetics | Brain cancer | NANOPARTICLE PLATFORM | THERAPY | DNA | MULTIDISCIPLINARY SCIENCES | pharmacokinetics | click chemistry | brain cancer | CELL-LINES | CARCINOMA | BRAIN | DELIVERY | Organ Specificity - drug effects | Prodrugs - administration & dosage | Genome, Mitochondrial - genetics | Male | Cisplatin - administration & dosage | Brain - metabolism | Neuroblastoma - pathology | Tissue Distribution - drug effects | Lactic Acid - chemistry | Nanoparticles - ultrastructure | Rats | Mitochondria - metabolism | Cisplatin - pharmacology | Mitochondria - drug effects | Brain - drug effects | Drug Resistance, Neoplasm - genetics | Animals | Cisplatin - therapeutic use | Neuroblastoma - drug therapy | Polyglycolic Acid - chemistry | Cell Line, Tumor | Prodrugs - therapeutic use | Prodrugs - pharmacology | Energy Metabolism - drug effects | Drug Resistance, Neoplasm - drug effects | Chemotherapy | Research | Cisplatin | Cancer | Nanoparticles | Brain | Correlation analysis | Genomes | Cells | Index Medicus | Biological Sciences | Physical Sciences
Phagocytes | Mitochondria | Prodrugs | Neurons | Cell lines | Mitochondrial DNA | Neuroblastoma | Respiration | Oligomycins | Adducts | OXPHOS | Click chemistry | Pharmacokinetics | Brain cancer | NANOPARTICLE PLATFORM | THERAPY | DNA | MULTIDISCIPLINARY SCIENCES | pharmacokinetics | click chemistry | brain cancer | CELL-LINES | CARCINOMA | BRAIN | DELIVERY | Organ Specificity - drug effects | Prodrugs - administration & dosage | Genome, Mitochondrial - genetics | Male | Cisplatin - administration & dosage | Brain - metabolism | Neuroblastoma - pathology | Tissue Distribution - drug effects | Lactic Acid - chemistry | Nanoparticles - ultrastructure | Rats | Mitochondria - metabolism | Cisplatin - pharmacology | Mitochondria - drug effects | Brain - drug effects | Drug Resistance, Neoplasm - genetics | Animals | Cisplatin - therapeutic use | Neuroblastoma - drug therapy | Polyglycolic Acid - chemistry | Cell Line, Tumor | Prodrugs - therapeutic use | Prodrugs - pharmacology | Energy Metabolism - drug effects | Drug Resistance, Neoplasm - drug effects | Chemotherapy | Research | Cisplatin | Cancer | Nanoparticles | Brain | Correlation analysis | Genomes | Cells | Index Medicus | Biological Sciences | Physical Sciences
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Loading Rights2003, Handbook of experimental pharmacology, ISBN 3540442502, Volume 158., x, 496
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Blood, ISSN 0006-4971, 2013, Volume 121, Issue 11, pp. 2074 - 2083
Eosinophils release their granule proteins extracellularly through exocytosis, piecemeal degranulation, or cytolytic degranulation. Findings in diverse human...
APOPTOSIS | DEFENSE | IMMUNITY | ACTIVATION | PROTEIN | AIRWAY MUCOSAL EOSINOPHILS | LYSIS | DEGRANULATION | NEUTROPHILS | CYTOLYSIS | HEMATOLOGY | Eosinophils - metabolism | Eosinophils - drug effects | Humans | Cells, Cultured | Extracellular Space - drug effects | Chemokine CCL11 - pharmacology | Extracellular Space - genetics | DNA - metabolism | Exocytosis - physiology | Exocytosis - drug effects | Dose-Response Relationship, Drug | Eosinophils - physiology | Secretory Vesicles - secretion | Extracellular Space - metabolism | Cell Death - genetics | Cell Death - physiology | Eosinophils - secretion | Secretory Vesicles - drug effects | Cell Membrane - metabolism | Cell Death - drug effects | Cell Degranulation - physiology | Cell Membrane - drug effects | Cell Degranulation - drug effects | Index Medicus | Abridged Index Medicus | Phagocytes, Granulocytes, and Myelopoiesis
APOPTOSIS | DEFENSE | IMMUNITY | ACTIVATION | PROTEIN | AIRWAY MUCOSAL EOSINOPHILS | LYSIS | DEGRANULATION | NEUTROPHILS | CYTOLYSIS | HEMATOLOGY | Eosinophils - metabolism | Eosinophils - drug effects | Humans | Cells, Cultured | Extracellular Space - drug effects | Chemokine CCL11 - pharmacology | Extracellular Space - genetics | DNA - metabolism | Exocytosis - physiology | Exocytosis - drug effects | Dose-Response Relationship, Drug | Eosinophils - physiology | Secretory Vesicles - secretion | Extracellular Space - metabolism | Cell Death - genetics | Cell Death - physiology | Eosinophils - secretion | Secretory Vesicles - drug effects | Cell Membrane - metabolism | Cell Death - drug effects | Cell Degranulation - physiology | Cell Membrane - drug effects | Cell Degranulation - drug effects | Index Medicus | Abridged Index Medicus | Phagocytes, Granulocytes, and Myelopoiesis
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Loading RightsJournal of Endodontics, ISSN 0099-2399, 2012, Volume 38, Issue 3, pp. 367 - 371
Abstract Introduction The purpose of this study was to evaluate the biocompatibility of calcium aluminate cement (EndoBinder) in subcutaneous tissue of rats....
Endocrinology & Metabolism | Dentistry | tissue reaction | Biocompatibility | mineral trioxide aggregate | calcium aluminate cement | RESORPTION | SUBCUTANEOUS CONNECTIVE-TISSUE | PULP | PROROOT MTA | SOLUBILITY | DENTIN SIALOPROTEIN | ROOT-CANAL SEALER | DENTISTRY, ORAL SURGERY & MEDICINE | RADIOPACITY | HYDROXIDE | Inflammation - pathology | Neovascularization, Physiologic - drug effects | Rats, Wistar | Giant Cells - drug effects | Connective Tissue - drug effects | Microvessels - pathology | Male | Phagocytes - pathology | Necrosis | Plasma Cells - pathology | Plasma Cells - drug effects | Collagen - drug effects | Time Factors | Intubation - instrumentation | Calcium Compounds - pharmacology | Neutrophils - pathology | Silicates - pharmacology | Subcutaneous Tissue - pathology | Leukocytes, Mononuclear - drug effects | Connective Tissue - pathology | Macrophages - pathology | Phagocytes - drug effects | Neutrophils - drug effects | Microvessels - drug effects | Rats | Materials Testing | Biocompatible Materials - pharmacology | Fibroblasts - pathology | Polyethylene - chemistry | Leukocytes, Mononuclear - pathology | Oxides - pharmacology | Lymphocytes - pathology | Animals | Fibroblasts - drug effects | Lymphocytes - drug effects | Macrophages - drug effects | Root Canal Filling Materials - pharmacology | Aluminum Compounds - pharmacology | Edema - pathology | Drug Combinations | Giant Cells - pathology | Subcutaneous Tissue - drug effects
Endocrinology & Metabolism | Dentistry | tissue reaction | Biocompatibility | mineral trioxide aggregate | calcium aluminate cement | RESORPTION | SUBCUTANEOUS CONNECTIVE-TISSUE | PULP | PROROOT MTA | SOLUBILITY | DENTIN SIALOPROTEIN | ROOT-CANAL SEALER | DENTISTRY, ORAL SURGERY & MEDICINE | RADIOPACITY | HYDROXIDE | Inflammation - pathology | Neovascularization, Physiologic - drug effects | Rats, Wistar | Giant Cells - drug effects | Connective Tissue - drug effects | Microvessels - pathology | Male | Phagocytes - pathology | Necrosis | Plasma Cells - pathology | Plasma Cells - drug effects | Collagen - drug effects | Time Factors | Intubation - instrumentation | Calcium Compounds - pharmacology | Neutrophils - pathology | Silicates - pharmacology | Subcutaneous Tissue - pathology | Leukocytes, Mononuclear - drug effects | Connective Tissue - pathology | Macrophages - pathology | Phagocytes - drug effects | Neutrophils - drug effects | Microvessels - drug effects | Rats | Materials Testing | Biocompatible Materials - pharmacology | Fibroblasts - pathology | Polyethylene - chemistry | Leukocytes, Mononuclear - pathology | Oxides - pharmacology | Lymphocytes - pathology | Animals | Fibroblasts - drug effects | Lymphocytes - drug effects | Macrophages - drug effects | Root Canal Filling Materials - pharmacology | Aluminum Compounds - pharmacology | Edema - pathology | Drug Combinations | Giant Cells - pathology | Subcutaneous Tissue - drug effects
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Loading RightsPLoS ONE, ISSN 1932-6203, 11/2018, Volume 13, Issue 11, pp. e0207262 - e0207262
Oral microbiota consists of hundreds of different species of bacteria, fungi, protozoa and archaea, important for oral health. Oral mycoses, mostly affecting...
Virulence - drug effects | Enterococcus faecalis - drug effects | Mouth - drug effects | Epithelial Cells - drug effects | Humans | Candida albicans - metabolism | Candida albicans - growth & development | Candida albicans - drug effects | Homeostasis - drug effects | Mouthwashes - administration & dosage | Microglia - microbiology | Viridans Streptococci - pathogenicity | Biofilms - drug effects | Candida albicans - pathogenicity | Cell Line | Enterococcus faecalis - pathogenicity | Phagocytosis - drug effects | Microglia - drug effects | Viridans Streptococci - metabolism | Enterococcus faecalis - growth & development | Cell Adhesion - drug effects | Animals | Anti-Infective Agents, Local - administration & dosage | Enterococcus faecalis - metabolism | Mouth - microbiology | Viridans Streptococci - growth & development | Epithelial Cells - microbiology | Viridans Streptococci - drug effects | Mice | Candida albicans | Usage | Streptococcus | Toiletries industry | Microbiota (Symbiotic organisms) | Physiological aspects | Toothbrushes | Research | Health aspects | Fungi | Diabetics | Mycoses | Bacteria | Dentifrices | Elderly people | Prostheses | Dentures | Essential oils | Epithelial cells | Cetylpyridinium chloride | Virulence | Homeostasis | Clinical trials | Infections | Kinases | Gingivitis | Phagocytes | Microorganisms | Microbiota | Fluoride | Dental materials | Granulocytes | Chemical composition | Chlorhexidine | Intracellular killing | Protozoa | Toothpaste | Mouthwashes | Composition | Cytokines | Secretion | Diabetes mellitus | Archaea | Inflammation | Fluorides | Alcohol free | Pharynx | Medicine | Dental caries | Oral cavity | Side effects | Biofilms | Oral hygiene | Morphology | Elderly | Hygiene | Geriatrics | Index Medicus
Virulence - drug effects | Enterococcus faecalis - drug effects | Mouth - drug effects | Epithelial Cells - drug effects | Humans | Candida albicans - metabolism | Candida albicans - growth & development | Candida albicans - drug effects | Homeostasis - drug effects | Mouthwashes - administration & dosage | Microglia - microbiology | Viridans Streptococci - pathogenicity | Biofilms - drug effects | Candida albicans - pathogenicity | Cell Line | Enterococcus faecalis - pathogenicity | Phagocytosis - drug effects | Microglia - drug effects | Viridans Streptococci - metabolism | Enterococcus faecalis - growth & development | Cell Adhesion - drug effects | Animals | Anti-Infective Agents, Local - administration & dosage | Enterococcus faecalis - metabolism | Mouth - microbiology | Viridans Streptococci - growth & development | Epithelial Cells - microbiology | Viridans Streptococci - drug effects | Mice | Candida albicans | Usage | Streptococcus | Toiletries industry | Microbiota (Symbiotic organisms) | Physiological aspects | Toothbrushes | Research | Health aspects | Fungi | Diabetics | Mycoses | Bacteria | Dentifrices | Elderly people | Prostheses | Dentures | Essential oils | Epithelial cells | Cetylpyridinium chloride | Virulence | Homeostasis | Clinical trials | Infections | Kinases | Gingivitis | Phagocytes | Microorganisms | Microbiota | Fluoride | Dental materials | Granulocytes | Chemical composition | Chlorhexidine | Intracellular killing | Protozoa | Toothpaste | Mouthwashes | Composition | Cytokines | Secretion | Diabetes mellitus | Archaea | Inflammation | Fluorides | Alcohol free | Pharynx | Medicine | Dental caries | Oral cavity | Side effects | Biofilms | Oral hygiene | Morphology | Elderly | Hygiene | Geriatrics | Index Medicus
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Ly6G ligation blocks recruitment of neutrophils via a β2-integrin- dependent mechanism
Blood, ISSN 0006-4971, 08/2012, Volume 120, Issue 7, pp. 1489 - 1498
Ly6G is a glycosylphosphatidylinositol (GPI)-anchored protein of unknown function that is commonly targeted to induce experimental neutrophil depletion in...
Inflammation - pathology | Apoptosis - drug effects | Calcium - metabolism | Neutrophil Activation - drug effects | Peritoneum - drug effects | Peritoneum - pathology | Antigens, Ly - metabolism | Arthritis - prevention & control | Neutrophils - metabolism | Neutrophil Infiltration - drug effects | Neutrophils - pathology | Biomarkers - metabolism | Arthritis - pathology | Joints - drug effects | Mice, Inbred C57BL | Neutrophils - drug effects | Arthritis - blood | Receptors, Leukotriene B4 - metabolism | Joints - pathology | Down-Regulation - drug effects | Antibodies - pharmacology | CD18 Antigens - metabolism | Leukotriene B4 - pharmacology | Cell Movement - drug effects | Animals | Signal Transduction - drug effects | Mice | Index Medicus | Abridged Index Medicus | Phagocytes, Granulocytes, and Myelopoiesis
Inflammation - pathology | Apoptosis - drug effects | Calcium - metabolism | Neutrophil Activation - drug effects | Peritoneum - drug effects | Peritoneum - pathology | Antigens, Ly - metabolism | Arthritis - prevention & control | Neutrophils - metabolism | Neutrophil Infiltration - drug effects | Neutrophils - pathology | Biomarkers - metabolism | Arthritis - pathology | Joints - drug effects | Mice, Inbred C57BL | Neutrophils - drug effects | Arthritis - blood | Receptors, Leukotriene B4 - metabolism | Joints - pathology | Down-Regulation - drug effects | Antibodies - pharmacology | CD18 Antigens - metabolism | Leukotriene B4 - pharmacology | Cell Movement - drug effects | Animals | Signal Transduction - drug effects | Mice | Index Medicus | Abridged Index Medicus | Phagocytes, Granulocytes, and Myelopoiesis
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Loading RightsProceedings of the National Academy of Sciences of the United States of America, ISSN 0027-8424, 11/2015, Volume 112, Issue 47, pp. E6486 - E6495
Defects in the innate immune system in the lung with attendant bacterial infections contribute to lung tissue damage, respiratory insufficiency, and ultimately...
Roscovitine | Cystic fibrosis | TRPC6 | Phagosome | Alveolar macrophage | CELLS | alveolar macrophage | PHAGOCYTOSIS | RESPIRATORY-DISEASE | MULTIDISCIPLINARY SCIENCES | ACIDIFICATION | IDENTIFICATION | DRUG TARGETS | roscovitine | cystic fibrosis | LIPID RAFTS | phagosome | ALVEOLAR MACROPHAGES | CYSTIC-FIBROSIS | CFTR | Small Molecule Libraries - pharmacology | Receptors, G-Protein-Coupled - metabolism | Calcium - metabolism | Humans | Protein Transport - drug effects | Acids - metabolism | Exocytosis - drug effects | Diglycerides - metabolism | Cell Membrane - metabolism | Cell Membrane - drug effects | Pertussis Toxin - pharmacology | Phagosomes - drug effects | Cell Line | TRPC6 Cation Channel | Microbial Viability - drug effects | Purines - pharmacology | Phagosomes - metabolism | Cystic Fibrosis Transmembrane Conductance Regulator - metabolism | Small Molecule Libraries - chemistry | Patch-Clamp Techniques | Animals | Purines - chemistry | Calcium Signaling - drug effects | Macrophages, Alveolar - drug effects | Models, Biological | Fluorescent Antibody Technique | TRPC Cation Channels - metabolism | Intracellular Membranes - drug effects | Mice | Macrophages, Alveolar - metabolism | Intracellular Membranes - metabolism | Ion Channel Gating - drug effects | Phagocytes | Immune response | Translocation (Genetics) | Genetic research | Ion channels | Genetic aspects | Research | Properties | Index Medicus | Biological Sciences | PNAS Plus
Roscovitine | Cystic fibrosis | TRPC6 | Phagosome | Alveolar macrophage | CELLS | alveolar macrophage | PHAGOCYTOSIS | RESPIRATORY-DISEASE | MULTIDISCIPLINARY SCIENCES | ACIDIFICATION | IDENTIFICATION | DRUG TARGETS | roscovitine | cystic fibrosis | LIPID RAFTS | phagosome | ALVEOLAR MACROPHAGES | CYSTIC-FIBROSIS | CFTR | Small Molecule Libraries - pharmacology | Receptors, G-Protein-Coupled - metabolism | Calcium - metabolism | Humans | Protein Transport - drug effects | Acids - metabolism | Exocytosis - drug effects | Diglycerides - metabolism | Cell Membrane - metabolism | Cell Membrane - drug effects | Pertussis Toxin - pharmacology | Phagosomes - drug effects | Cell Line | TRPC6 Cation Channel | Microbial Viability - drug effects | Purines - pharmacology | Phagosomes - metabolism | Cystic Fibrosis Transmembrane Conductance Regulator - metabolism | Small Molecule Libraries - chemistry | Patch-Clamp Techniques | Animals | Purines - chemistry | Calcium Signaling - drug effects | Macrophages, Alveolar - drug effects | Models, Biological | Fluorescent Antibody Technique | TRPC Cation Channels - metabolism | Intracellular Membranes - drug effects | Mice | Macrophages, Alveolar - metabolism | Intracellular Membranes - metabolism | Ion Channel Gating - drug effects | Phagocytes | Immune response | Translocation (Genetics) | Genetic research | Ion channels | Genetic aspects | Research | Properties | Index Medicus | Biological Sciences | PNAS Plus
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