Cellular kinetics associated with the development of acquired cellular resistance.
about
T Cell Adaptive Immunity Proceeds through Environment-Induced Adaptation from the Exposure of Cryptic Genetic VariationDisruption of the cellular inflammatory response to Listeria monocytogenes infection in mice with disruptions in targeted genes.Cellular basis for genetically determined enhanced resistance of certain mouse strains to listeriosis.Enhanced elimination of Listeria monocytogenes at the site of delayed footpad reactionEffects of treatment with muramyl dipeptide and certain of its analogs on resistance to Listeria monocytogenes in mice.Resistance and susceptibility of mice to bacterial infection: histopathology of listeriosis in resistant and susceptible strains.Macrophage activation during experimental murine brucellosis: a basis for chronic infectionPhenotypic expression of genetically controlled host resistance to Listeria monocytogenes.Ia antigens in serum during different murine infectionsEffects of antithymocyte sera and antimacrophage sera on cell-mediated immune reactions in Listeria-infected miceRelationship of antimicrobial cellular immunity to delayed hypersensitivity in ListeriosisMonocyte activation in horses persistently infected with equine infectious anemia virus.Kinetics and maintenance of acquired resistance in mice to Listeria monocytogenes.Effect of treatment with BCG on the course of visceral leishmaniasis in BALB/c mice.Listeria pneumonitis: induction of immunity after airborne infection with Listeria monocytogenes.Role of activated macrophages in resistance of congenitally athymic nude mice to hepatitis induced by herpes simplex virus type 2.The immune response to infection with vaccinia virus in mice. II. Appearance of hypersensitivity, production of macrophage migration inhibitory factor and transformation of spleen cells in response to virus antigensThe mitotic potential of fixed phagocytes in the liver as revealed during the development of cellular immunitySuppression of cell-mediated immunity to infection by an antimitotic drug. Further evidence that migrant macrophages express immunityThe relative importance of blood monocytes and fixed macrophages to the expression of cell-mediated immunity to infection.The action of cortisone acetate on cell-mediated immunity to infection. Suppression of host cell proliferation and alteration of cellular composition of infective foci.The induction of macrophage spreading by factor B of the properdin system.Macrophage function in Mycobacterium lepraemurium infection: morphological and functional changes of peritoneal and splenic macrophages in vitroMacrophages elicited with heat-killed bacillus Calomette-Guérin protect C57BL/6J mice against a syngeneic melanoma.The pinocytic rate of activated macrophages.The induction of macrophage spreading: role of coagulation factors and the complement systemDissociation of bactericidal activity from other functions of activated macrophages in exudates induced by thioglycolate medium.Protective effect of muramyl dipeptide analogs against infections of Pseudomonas aeruginosa or Candida albicans in mice.Correlation between in vivo anti-Pseudomonas and anti-Candida activities and clearance of carbon by the reticuloendothelial system for various muramyl dipeptide analogs, using normal and immunosuppressed mice.Fate of Listeria monocytogenes in murine peritoneal macrophage subpopulationsDirect correlation between delayed footpad reaction and resistance to local bacterial infectionProtective immunity and granuloma formation are mediated by two distinct tumor necrosis factor alpha- and gamma interferon-dependent T cell-phagocyte interactions in murine listeriosis: dissociation on the basis of phagocyte adhesion mechanisms.Expression of systemic protection and delayed-type hypersensitivity to Listeria monocytogenes is mediated by different T-cell subsets.BCG-induced macrophages as suppressor cells.Dissociated development of T cells mediating delayed-type hypersensitivity and protective T cells against Listeria monocytogenes and their functional difference in lymphokine production.Microbicidal activity and morphological characteristics of lung macrophages in Mycobacterium bovis BCG cell wall-induced lung granuloma in mice.Interleukin-1-induced promotion of T-cell differentiation in mice immunized with killed Listeria monocytogenesIncreased resistance and depressed delayed-type hypersensitivity to Listeria monocytogenes induced by pretreatment with lipopolysaccharide.Effect of hypersensitivity pneumonitis on the pulmonary defense mechanisms of guinea pig lungs.A monocyte-activation inhibitory factor produced by fibroblasts.
P2860
Q28732174-9A1D4EBC-3688-45B6-B8A1-4C5F4DF737CCQ33753997-78676BF4-C2F4-47FC-8DBA-F33FA6FFB6E9Q33902525-145C5EAB-4F9B-4B0C-A829-2525F22B2ED6Q33908379-C47E6EA9-4017-484F-8499-DE2C83F8E0BEQ33910568-17E2621B-C6EC-4258-B4C1-AA21F51AB42FQ33911634-9E91EDA1-68B2-434F-A66A-AD115D4A2326Q34077663-3270FB69-A532-4669-A5FB-9B8316E4DDA2Q34088762-6CE4C0CE-3198-4D98-9883-79B10EB22B46Q34096332-71B2DFE6-57AA-4B96-8E86-C73E91C4B5E6Q34102594-58288679-3621-4629-8EF0-405CAEB21BEAQ34103974-66795B32-713D-4D18-81BF-4B041D1BACC5Q34131475-99C30977-61DC-4D1B-9697-5644604BFB06Q34410075-BF2B0F06-5197-434D-BAA2-0DE7C74BE687Q34430563-7F100B1E-66B5-4A8E-A81D-B265D73134B2Q34462534-6D443875-4853-40D3-B6B8-6B767126CC96Q34464103-1520F070-3101-4021-BD32-3C13331868A3Q36252234-7B4E52C1-1CC7-4156-BA63-EAC5111ECE67Q36269804-B2B878B8-FE06-4885-BB76-3BD3F4105C6EQ36270289-AE803FC6-B2F6-4851-B1C7-91DE06E95C0FQ36270300-7DAAAD36-D3C7-4A7D-BBC0-2B9B17F51C2DQ36271355-B1417272-33EF-4088-A370-849A46483224Q36341173-41F2FA8F-F42D-4383-A752-2CF5DDFEB3D5Q36342441-F218EB79-FA94-4D10-9F61-152CE9832D71Q36343883-C1DE5663-88ED-4B81-9F53-8F16B94C30A7Q36358570-DA8FFA7E-F47C-4576-9E47-9A78DF90914EQ36360057-039D3DAD-F05E-4EE8-83F7-9F60E6F8A9C8Q36429545-49A4E45B-79FC-453B-8577-1908A1A4D4D4Q36431289-6A6899C7-4BDA-43AC-8722-F408A8F4AF28Q36433792-9EE00C43-3AF4-496A-82D9-C76CCF65295FQ36433871-8C50C7EE-461B-4559-8582-8E0BCBDD3964Q36438980-99BE17CE-AA82-4AFC-A39C-2A1A03D9767DQ36944821-F45A9CE2-3ABD-4312-AA89-DD7DAD13FE9DQ36978123-58B43704-3333-4B30-B257-846B4455CB13Q40116520-3E536599-3238-4E80-9F1E-AAA88FF58A38Q40155589-516F2F9D-3013-4A3D-8048-6CD1F29960CFQ40176574-5A7DBAF9-0692-4DE5-AC5E-5E8812ED117FQ40429205-9F00A64A-CCAE-4A46-B91E-0DEF4A4C1E40Q40615893-1136132F-212E-4BB9-8281-3C62A00E2CDDQ40914184-52CF1A9B-73CE-4D13-95A9-BE6448C5A206Q41731396-15A3489D-9D78-465B-87E4-096EABF17B24
P2860
Cellular kinetics associated with the development of acquired cellular resistance.
description
1969 nî lūn-bûn
@nan
1969年の論文
@ja
1969年学术文章
@wuu
1969年学术文章
@zh-cn
1969年学术文章
@zh-hans
1969年学术文章
@zh-my
1969年学术文章
@zh-sg
1969年學術文章
@yue
1969年學術文章
@zh
1969年學術文章
@zh-hant
name
Cellular kinetics associated with the development of acquired cellular resistance.
@ast
Cellular kinetics associated with the development of acquired cellular resistance.
@en
type
label
Cellular kinetics associated with the development of acquired cellular resistance.
@ast
Cellular kinetics associated with the development of acquired cellular resistance.
@en
prefLabel
Cellular kinetics associated with the development of acquired cellular resistance.
@ast
Cellular kinetics associated with the development of acquired cellular resistance.
@en
P2860
P356
P1476
Cellular kinetics associated with the development of acquired cellular resistance.
@en
P2093
P2860
P304
P356
10.1084/JEM.130.2.299
P407
P577
1969-08-01T00:00:00Z