scholarly journals THE INTERACTION OF SOLUBLE HORSERADISH PEROXIDASE WITH MOUSE PERITONEAL MACROPHAGES IN VITRO

1972 ◽  
Vol 55 (1) ◽  
pp. 186-204 ◽  
Author(s):  
Ralph M. Steinman ◽  
Zanvil A. Cohn
Keyword(s):  
Horseradish Peroxidase ◽  
Culture Medium ◽  
Peritoneal Macrophages ◽  
Wide Range ◽  
Mouse Macrophages ◽  
Secondary Lysosomes ◽  
Endocytic Vesicles ◽  
In Vitro Interaction ◽  
Mouse Peritoneal Macrophages

The in vitro interaction of soluble horseradish peroxidase (HRP) with homogeneous mono layers of mouse macrophages has been studied using sensitive biochemical and cytochemical techniques. The compartmentalization of HRP in extracellular and intracellular sites has been quantitatively evaluated. A significant fraction is bound to a serum-derived layer, which coats the surface of culture vessels and may be removed by appropriate washes. Macrophages interiorize HRP as a solute in pinocytic vesicles without appreciable binding of the glycoprotein to the plasma membrane. Uptake is directly proportional to the concentration of HRP in the culture medium. 1 x 106 cells ingest 0.0025% of the administered load per hr over a wide range of concentrations. Cytochemically, all demonstrable HRP is sequestered within the endocytic vesicles and secondary lysosomes of the vacuolar apparatus. After uptake, the enzymatic activity of HRP is inactivated exponentially with a half-life of 7–9 hr, until enzyme is no longer detectable. When macrophages have pinocytosed trace-labeled HRP-125I, cell-associated isotope disappears with a t ½ of 20–30 hr and they release monoiodotyrosine-125I into the culture medium. We were unable to obtain evidence that significant amounts of HRP (>2%) can be exocytosed after uptake, can exist intact on the cell surface, or can be digested extracellularly. It is difficult to reconcile these observations with several of the postulated mechanisms whereby macrophages are thought to play a prominent role in the induction of an immune response.

scholarly journals THE INTERACTION OF PARTICULATE HORSERADISH PEROXIDASE (HRP)-ANTI HRP IMMUNE COMPLEXES WITH MOUSE PERITONEAL MACROPHAGES IN VITRO

1972 ◽  
Vol 55 (3) ◽  
pp. 616-634 ◽  
Author(s):  
Ralph M. Steinman ◽  
Zanvil A. Cohn
Keyword(s):  
Horseradish Peroxidase ◽  
Immune Complexes ◽  
Half Life ◽  
Peritoneal Macrophages ◽  
Surface Complexes ◽  
Mouse Macrophages ◽  
Membrane Bound ◽  
Mouse Peritoneal Macrophages

The uptake, distribution, and fate of particulate horseradish peroxidase (HRP)-anti HRP aggregates has been studied in homogeneous monolayers of mouse macrophages in vitro. Macrophages rapidly interiorize the immune complexes after binding to the cell surface. The rate of interiorization is maximal for complexes formed in a broad zone of 4-fold antibody excess to equivalence and corresponds to a rate of 10% of the administered load/106 cells per hour. This rate is 4000-fold greater than the uptake of soluble HRP. The binding and endocytosis of HRP-anti HRP by macrophages is mediated by the trypsin insensitive Fc receptor. Cytochemically, intracellular HRP is localized within membrane bound vacuoles. After uptake of HRP, the enzymatic activity is degraded exponentially with a half-life of 14–18 hr until enzyme is no longer detectable. This half-life is twice as long as that previously observed for soluble uncomplexed HRP and is related to the combination of HRP with anti-HRP rather than the absolute amounts of enzyme or antibody ingested. The half-life of HRP-125I was 30 hr. Exocytosis of cell associated enzyme or TCA precipitable counts was not detected, nor were persistent surface complexes demonstrable. The extensive capacity of macrophages to interiorize and destroy large amounts of antigen after the formation of antibody illustrates a role of this cell in the efferent limb of the immune response.

scholarly journals Dynamics of leukotriene C production by macrophages.

1980 ◽  
Vol 152 (5) ◽  
pp. 1236-1247 ◽  
Author(s):  
C A Rouzer ◽  
W A Scott ◽  
A L Hamill ◽  
Z A Cohn
Keyword(s):  
Time Course ◽  
Culture Medium ◽  
Peritoneal Macrophages ◽  
Experimental Conditions ◽  
Silicic Acid Chromatography ◽  
Pg Release ◽  
Antigen Antibody ◽  
Mouse Peritoneal Macrophages ◽  
Hydroxyeicosatetraenoic Acids

A method for the radiochemical assay of LTC production by mouse peritoneal macrophages in vitro is presented. The method involves labeling macrophages in culture with [5,6,8,9,11,12,14,15-3H]20:4 followed by stimulation of arachidonic acid (20:4) release under the experimental conditions desired. Radiolabeled leukotriene C (LTC) is recovered from the culture medium by extraction and silicic acid chromatography in 40% yield with full retention of biological activity. Because this LTC is radiochemically pure, the quantity of LTC release may be estimated from the amount of radioactivity in the sample. Use of the radioassay to study parameters affecting LTC synthesis by macrophages indicated that the time course of LTC synthesis and its relationship to the dose of a phagocytic stimulus (zymosan) were very similar to those of prostaglandin (PG) release. LTC release was also similar to that of PG in that lower levels of both metabolites were produced by Corynebacterium parvum-elicited macrophages than by resident cells. Finally, LTC release was stimulated in response to a challenge with antigen-antibody complexes, but lower maximal levels were attained than those with zymosan. The data presented here are consistent with the hypothesis that challenge of macrophages with a phagocytic stimulus leads to the release of 20:4 by an inducible phospholipase. Cyclooxygenase and lipoxygenase then compete for the released 20:4, leading to the production of PG, hydroxyeicosatetraenoic acids, and LTC.

scholarly journals IN VITRO STUDIES ON THE INTERACTION BETWEEN MOUSE PERITONEAL MACROPHAGES AND STRAINS OF SALMONELLA AND ESCHERICHIA COLI

1960 ◽  
Vol 112 (2) ◽  
pp. 403-417 ◽  
Author(s):  
Charles Jenkin ◽  
Baruj Benacerraf
Keyword(s):  
Escherichia Coli ◽  
Normal Mouse ◽  
Peritoneal Macrophages ◽  
In Vitro Studies ◽  
Experimental Conditions ◽  
Mouse Plasma ◽  
Virulent Strains ◽  
Mouse Macrophages ◽  
Mouse Peritoneal Macrophages

Virulent strains of Salmonella opsonized with normal mouse plasma are never phagocytosed as well as avirulent strains. The virulent strains of Salmonella phagocytosed after opsonization with normal mouse plasma are able to multiply within normal mouse peritoneal macrophages, whereas under similar experimental conditions the avirulent strains are killed. When virulent strains of Salmonella are opsonized with specific antiserum or plasma from BCG-infected mice, they are treated by normal mouse macrophages as if they were avirulent. Virulent bacteria opsonized with BCG plasma are phagocytosed and killed better by peritoneal macrophages from BCG-infected mice, than peritoneal macrophages from normal mice.

scholarly journals THE INTERACTION IN VITRO OF MYCOPLASMA PULMONIS WITH MOUSE PERITONEAL MACROPHAGES AND L-CELLS

1971 ◽  
Vol 133 (2) ◽  
pp. 231-259 ◽  
Author(s):  
Thomas C. Jones ◽  
James G. Hirsch
Keyword(s):  
Tritiated Thymidine ◽  
Calf Serum ◽  
Peritoneal Macrophages ◽  
Mycoplasma Pulmonis ◽  
Cultural Conditions ◽  
Low Concentrations ◽  
Mouse Macrophages ◽  
Similar Growth ◽  
Mouse Peritoneal Macrophages

Methods have been devised for establishing infection in vitro of mouse macrophages and fibroblasts with Mycoplasma pulmonis. The mycoplasmas attached to the cells and under appropriate cultural conditions grew into a lawn of microorganisms covering most of the cell surface. The mycoplasmas grew abundantly on fibroblasts cultured in minimal essential medium containing 20% fetal calf serum; supplementation of this medium with heart infusion broth was necessary to obtain similar growth on macrophages. The infection of these cells appeared to be essentially an extracellular process; only rarely were partially degraded mycoplasmas seen with phagocytic vacuoles. The addition to heavily infected macrophage cultures of low concentrations of anti-mycoplasma antibody stimulated rapid, massive phagocytosis of the surface microorganisms. In sharp contrast, the same antiserum had no discernable effect on the mycoplasma-fibroblast relationship. The antibody effect in the macrophage system was apparently a direct opsonic one rather than an indirect result of microbial killing, since the mycoplasmas in macrophage or fibroblast cultures incorporated labelled thymidine into DNA after the addition of antiserum to the medium. The phagocytic event and the subsequent fate of the mycoplasmas were studied in detail after the addition of antibody to the macrophage cultures. Phase-contrast cinemicrophotography revealed membrane ruffles surrounding the surface mycoplasmas and disappearance from view of the organisms; 10–30 min later translucent grapelike clusters were seen in large phagocytic vacuoles. On electronmicroscopic study the surface mycoplasmas were surrounded by pincers-like projections of the macrophage. Numerous mycoplasmas were seen in phagocytic vacuoles; in the early minutes after the addition of antibody the intracellular mycoplasmas appeared normal, but within 2 hr they appeared partially degraded with a central electron-lucent area and electron-opaque deposits at the microbial cell margin. 24 hr after the addition of antiserum, digestion of the mycoplasmas was nearly complete; the cells appeared normal except for large residual bodies composed of amorphous moderately dense material and increased lipid deposits. Degradation of mycoplasmas within macrophages was also studied using infected cultures in which the mycoplasmas, but not the macrophages, had incorporated tritiated thymidine into DNA. The appearance of large amounts of acid-soluble radiolabel after phagocytosis stimulated by antibody confirmed the degradation of the intracellular mycoplasmas.

scholarly journals THE INFLUENCE OF ERYTHROPHAGOCYTOSIS ON THE INTERACTION OF MACROPHAGES AND SALMONELLA IN VITRO

1966 ◽  
Vol 124 (2) ◽  
pp. 173-183 ◽  
Author(s):  
Fred A. Gill ◽  
Donald Kaye ◽  
Edward W. Hook
Keyword(s):  
Salmonella Typhimurium ◽  
Peritoneal Macrophages ◽  
Cytotoxic Action ◽  
No Inhibition ◽  
Mouse Macrophages ◽  
Mouse Erythrocyte ◽  
Mouse Peritoneal Macrophages

Phagocytosis and killing of Salmonella typhimurium by mouse peritoneal macrophages was inhibited when the bacteria and antibody-coated homologous erythrocytes or heterologous erythrocytes were simultaneously exposed to macrophages in vitro. No inhibition of phagocytosis or killing was observed in experiments employing uncoated or disrupted antibody-coated homologous erythrocytes. Degradation of S. typhimurium as measured by the loss of fluorescence from intracellular salmonella coated with fluorescein-labeled antibody was inhibited in macrophages which had previously ingested antibody-coated homologous erythrocytes. Anti-mouse-erythrocyte serum was found to have a cytotoxic action on mouse macrophages. However, the viability of macrophages was not altered by phagocytosis of antibody-coated homologous erythrocytes or uncoated heterologous erythrocytes.

scholarly journals The ingestion and digestion of human lactoferrin by mouse peritoneal macrophages and the transfer of its iron into ferritin.

1977 ◽  
Vol 146 (3) ◽  
pp. 817-827 ◽  
Author(s):  
J L van Snick ◽  
B Markowetz ◽  
P L Masson
Keyword(s):  
Iron Content ◽  
Culture Medium ◽  
Reticuloendothelial System ◽  
Peritoneal Macrophages ◽  
Human Lactoferrin ◽  
Saturation Point ◽  
Intracellular Digestion ◽  
Additional Support ◽  
Mouse Peritoneal Macrophages

Human lactoferrin (Lf) labeled with 125I and/or 59Fe was found to be ingested in vitro by mouse peritoneal macrophages (MPM). The uptake measured after 15 h incubation reached a saturation point at a concentration of 200 microgram/ml in the culture medium, whatever was the iron content of Lf. In such conditions, the uptake of transferrin (Tf) used as a control was 10 times lower. At a concentration of 80 microgram/ml in the medium, one cell picked up about 0.7 X 10(6) molecules of Lf per hour, and 0.13 X 10(6) molecules of Tf per hour. Iron-saturated Lf disappeared from MPM with a half life of 14.5 h, whereas the halflife of iron-free Lf was 4.2 h. Concomitant with the intracellular digestion of Lf, the iron was transmitted to ferritin. These data provide additional support for the hypothesis that Lf plays a key role in iron turnover, especially at the level of the reticuloendothelial system where iron is recovered from the catabolism of erythrocytes.

scholarly journals Candidacidal activity of mouse macrophages in vitro

1980 ◽  
Vol 29 (2) ◽  
pp. 477-482 ◽  
Author(s):  
P K Maiti ◽  
R Kumar ◽  
L N Mohapatra
Keyword(s):  
Peritoneal Macrophages ◽  
Mouse Serum ◽  
Activated Macrophages ◽  
Immune Mouse ◽  
Mouse Macrophages ◽  
In Vitro Exposure ◽  
Candida Infections ◽  
Mouse Peritoneal Macrophages ◽  
Immune Mouse Serum

Mouse peritoneal macrophages were infected in vitro with Candida albicans, and the phagocytic and candidacidal activities were estimated by microscopic examination of Giemsa-stained cells. Activated macrophages obtained from either BCG-vaccinated animals or by in vitro exposure of normal macrophages to phytohemagglutinin-induced lymphokines exhibited higher phagocytic and candidacidal activities than did normal macrophages. However, activated macrophages obtained by in vitro exposure of macrophages to candida-induced lymphokines exhibited the highest phagocytic and candidacidal activities. The incorporation of immune mouse serum into the culture medium also enhanced the phagocytic and candidacidal activities of the normal macrophages but failed to improve the function of the activated macrophages. These results suggest that both activated macrophages and antibodies may be required for controlling candida infections in mice.

scholarly journals THE UPTAKE AND DIGESTION OF IODINATED HUMAN SERUM ALBUMIN BY MACROPHAGES IN VITRO

1967 ◽  
Vol 126 (5) ◽  
pp. 941-958 ◽  
Author(s):  
Barbara A. Ehrenreich ◽  
Zanvil A. Cohn
Keyword(s):  
Human Serum Albumin ◽  
Peritoneal Macrophages ◽  
Radioactive Material ◽  
In Vitro Cultivation ◽  
Cultivation Conditions ◽  
Secondary Lysosomes ◽  
Mouse Peritoneal Macrophages ◽  
Reduced Temperature ◽  
Pinocytic Vesicles

Mouse peritoneal macrophages take up I*-HSA from their medium during in vitro cultivation. Conditions which promote I*-HSA uptake are the same as those which stimulate formation of pinocytic vesicles. Autoradiography of cells pulsed with 125I-HSA showed that intracellular isotope is localized in perinuclear granules, or secondary lysosomes. Following a pulse of 125I-HSA, intracellular radioactivity decreases and the amount of TCA-soluble isotope in the medium increases correspondingly. About 50% of the intracellular isotope is lost in 5 hr. The release of isotope from pulsed cells is not inhibited by parafluorophenylalanine, 2,4-dinitrophenol or by a reduction of the serum concentration of the medium. However, the processing of ingested 125I-HSA is reversibly inhibited by reduced temperature. The TCA-soluble radioactive material excreted by pulsed macrophages was identified as monoiodotyrosine.

The development of Trypanosoma cruzi in macrophages in vitro. Interaction with lysosomes and host cell fate

Parasitology ◽  
1980 ◽  
Vol 80 (1) ◽  
pp. 139-145 ◽  
Author(s):  
Regina Milder ◽  
Judith Kloetzel
Keyword(s):  
Trypanosoma Cruzi ◽  
Host Cell ◽  
Cell Fate ◽  
Peritoneal Macrophages ◽  
Blue Dye ◽  
Cell Monolayers ◽  
Secondary Lysosomes ◽  
Electron Microscopical ◽  
In Vitro Interaction

SummaryThe interaction between mouse peritoneal macrophages and ‘Y’ strain Trypanosoma cruzi bloodstream forms was studied at optical and electron microscopical levels. The method of marking lysosomes with Thorotrast, either before or after infection of cell monolayers with parasites, revealed that secondary lysosomes fused with phagosomes shortly after trypanosome interiorization. In spite of this, 24 h later most parasites were no longer in a vacuole but lay free within the host cell cytoplasm, multiplying actively. At this time, and up to shortly before 96 h when parasites escaped to the external milieu, most parasitized cells were not lethally injured, as revealed by the Trypan blue dye-exclusion test. Only when parasites were released into the external medium was this situation reversed and infected macrophages took up the dye.

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