Detection of reticulo-endothelial blockade with low-dose test agent

Blood clearance and organ extraction of a low-dose reticulo-endothelial test agent, technetium labelled tin colloid (TTC), was measured in groups of rabbits pretreated with reticulo-endothelial blocking agents. Electron microscopy and ultrastructure analysis confirmed that Kupffer cells extracted TTC. Pretreatment with silica caused reduced Kupffer cell uptake and spillover of TTC into the spleen. Pretreatment with sheep red cells caused reduced Kupffer cell uptake and reduced splenic uptake but anti-fibronectin caused only reduced splenic uptake of TTC. TTC is a suitable agent to detect alteration of reticulo-endothelial function.     

Studies on mobilization of Kupffer cells in mice: II. Mobilization mediated by necrotic tissue injected intraperitoneally

Systemically acting mobilizing factors liberated from the necrotic centrilobular zone are suggested as a possible cause of the dramatic mobilization of Kupffer cells seen in mice following CCl₄ intoxication. The present work shows that Kupffer cell mobilization occurs in mice carrying necrosing Ehrlich ascites tumour cells intraperitoneally, but that other fixed reticulo-endothelial phagocytes (spleen and bone marrow) are not mobilized by the systemic effects of necrotic tissue.     

Comparative studies of endotoxin uptake by isolated rat Kupffer and peritoneal cells.

The process of uptake of endotoxin by cells of the reticuloendothelial system is of current interest. Rabbit peritoneal macrophages have been used to study macrophage-endotoxin interactions and have suggested a receptor-mediated process. It is generally believed that the site of in vivo endotoxin clearance is the liver and that this clearance involves the Kupffer cell population. In the current report, the uptake characteristics of iodine-125-labeled Salmonella minnesota lipopolysaccharide (LPS) were compared in both isolated rat Kupffer cells and elicited rat peritoneal cells. Both types of cells were isolated from male Sprague-Dawley rats fed a semisynthetic AIN-76 5% saturated-fat diet either by peritoneal lavage for peritoneal cells or by collagenase perfusion followed by purification on a 17.5% metrizamide gradient for Kupffer cells. Hot phenol water-extracted S. minnesota LPS was labeled with iodine by the chloramine-T method following a reaction with methyl-p-hydroxybenzimidate. The in vitro uptake of [125I]LPS by Kupffer cells was unsaturable up to concentrations of 33.33 micrograms/ml, while peritoneal cells became saturated at between 16.67 and 25 micrograms of LPS per ml. Uptake by both types of cells could be inhibited by a 10-fold excess of unlabeled LPS. Kinetic experiments demonstrated that Kupffer cells were unsaturable after 60 min of incubation, while peritoneal cells were saturable after 40 min of incubation. Pretreatment with 75 mM colchicine inhibited uptake by peritoneal cells but not Kupffer cells, while pretreatment with 12 mM 2-deoxyglucose inhibited uptake by Kupffer cells but not peritoneal cells. These results are consistent with a process of receptor-mediated endocytosis for peritoneal cells, while Kupffer cells may internalize endotoxins by absorptive pinocytosis. These results suggest that studies of peritoneal cell-endotoxin interactions do not accurately describe the physiologic process within the liver, the major site for the clearance of gut-derived endotoxins.     

Effects of forskolin on Kupffer cell production of interleukin-10 and tumor necrosis factor alpha differ from those of endogenous adenylyl cyclase activators: possible role for adenylyl cyclase 9

Proinflammatory cytokines like tumor necrosis factor alpha (TNF-alpha) that are released from Kupffer cells may trigger liver inflammation and damage. Hence, endogenous mechanisms for limiting TNF-alpha expression are crucial for avoiding the development of sepsis. Such mechanisms include the anti-inflammatory actions of interleukin-10 (IL-10) as well as signaling induced by the intracellular second messenger cyclic AMP (cAMP). Kupffer cells express several receptors that activate cAMP synthesis, including E-prostanoid receptors and beta-adrenergic receptors. The expression and role of specific adenylyl cyclases in the inhibition of Kupffer cell activation have so far not been subject to study. Pretreatment of rat Kupffer cell cultures with cAMP analogues [8-(4-chlorophenyl)-thio-cAMP], adenylyl cyclase activator (forskolin), or ligands for G-coupled receptors (isoproterenol or prostaglandin E2) 30 min before the addition of lipopolysaccharide (LPS) (1 microg/ml) caused attenuated TNF-alpha levels in culture medium (forskolin/isoproterenol, P < or = 0.05; prostaglandin E2, P < or = 0.01). Forskolin also reduced IL-10 mRNA and protein (P < or = 0.05), which was not observed with the other cAMP-inducing agents. Furthermore, we found that rat Kupffer cells express high levels of the forskolin-insensitive adenylyl cyclase 9 compared to whole liver and that this expression is down-regulated by LPS (P < or = 0.05). We conclude that regulation of TNF-alpha and IL-10 in Kupffer cells depends on the mechanism by which cAMP is elevated. Forskolin and prostaglandin E2 differ in their effects, which suggests a possible role of forskolin-insensitive adenylyl cyclases like adenylyl cyclase 9.     

Binding of metastatic colon carcinoma cells to liver macrophages

The liver is frequently colonized by metastatic tumor cells despite its dense population of macrophages (Kupffer cells). We have studied the interactions between metastatic colon carcinoma cells (DHD) and syngeneic Kupffer cells under different experimental conditions in vitro. In an adhesion assay the binding of DHD cells to Kupffer cell monolayers was shown to be time and temperature dependent, reaching a maximum level after about 90 min of incubation at 37 degrees C. In contrast, only a low level of binding could be observed at 4 degrees C. The level of binding could be increased by pretreatment of the Kupffer cells with phorbol 12-myristate 13-acetate. A firm interaction between the two cell types was shown to be dependent on the presence of calcium- and trypsin-sensitive structures on the surface of the Kupffer cells. Pretreatment of the macrophages with the cytoskeletal inhibitors colchicine and cytochalasin B was also found to reduce significantly the binding of tumor cells. This binding was also inhibited to a large extent by D-mannose and N-acetyl-D-galactosamine. The Kupffer cells were not cytotoxic against the colon carcinoma cells.     

“Sternzellen” in the liver: Perisinusoidal cells with special reference to storage of vitamin A

The “Sternzellen” (von Kupffer, 1876) in the liver of normal animals and of those injected with excess vitamin A were examined with the light and electron microscopes. These cells were stellate perisinusoidal cells located in the space of Disse and were separated from the sinusoidal lumen by the endothelium. Their cytoplasm contained a number of lipid droplets which reacted intensely with gold chloride. These lipid droplets imparted intense vitamin A fluorescence under the fluorescence microscope. Following the administration of excess vitamin A, these lipid droplets increased remarkably. The “Sternzellen” were identical with cells described as “interstitial” or “fat-storing” cells by others, and were quite different from the so-called Kupffer cells of the liver reticulo-endothelial system.     

Induction of plasminogen activator inhibitor 1 gene expression in murine liver by lipopolysaccharide. Cellular localization and role of endogenous tumor necrosis factor-alpha.

We previously demonstrated that lipopolysaccharide (LPS) induces plasminogen activator inhibitor 1 (PAI-1) gene expression primarily in endothelial cells in most organs of the mouse, with maximal induction by 3 hours. Here we show that induction in the liver occurs in a distinctly different pattern. For example, the increase in PAI-1 mRNA in liver was biphasic with an initial peak at 1 to 2 hours and a second peak at 6 to 8 hours. Moreover, in situ hybridization experiments revealed that PAI-1 mRNA was induced in both endothelial cells and hepatocytes. The endothelial cell response was monophasic and maximal between 1 and 4 hours, whereas the hepatocyte response was biphasic, peaking at 2 hours and again at 6 to 8 hours. To determine possible mechanisms involved in the induction of PAI-1 by LPS, we analyzed the tissues for changes in tumor necrosis factor (TNF)-alpha LPS caused a rapid induction of TNF-alpha mRNA in Kupffer cells, detectable within 15 minutes. Pretreatment of mice with anti-TNF antiserum before challenge with LPS reduced the subsequent increase in plasma levels of PAI-1 by 50 to 70% and significantly reduced the level of induction of PAI-1 mRNA in the liver at both early and late times. Pretreatment appeared to inhibit induction primarily within hepatocytes. These results suggest that LPS may induce PAI-1 in endothelial cells and hepatocytes by different mechanisms.     

Interferon regulatory factor 7 contributes to the control of Leishmania donovani in the mouse liver

Optimal hepatic resistance to Leishmania donovani in mice requires the coordinated effort of a variety of leukocyte populations that together induce activation of local macrophages to a leishmanicidal state. Although nitric oxide and reactive oxygen intermediates are potent leishmanicidal effector molecules operating in the acquired phase of immunity, there have long been suggestions that other mechanisms of leishmanicidal activity exist. We recently discovered that Irf-7 regulates a novel innate leishmanicidal response in resident splenic macrophages that line the marginal zone. Here, we tested whether this mechanism also operates in Kupffer cells, the resident macrophage population of the liver and the major target for hepatic infection by L. donovani. Comparing the Kupffer cell responses in situ in B6 and B6.Irf-7(-/-) mice, we found no evidence that Irf-7 affected amastigote uptake or early survival. However, we did find that Irf-7-deficient mice had impaired acquired resistance to hepatic L. donovani infection. This phenotype was attributable to a reduction in the capacity of hepatic CD4(+) T cells, NK cells, and NKT cells to produce gamma interferon (IFN-γ) and also to defective induction of NOS2 in infected Kupffer cells. Our data therefore add interferon regulatory factor 7 (IRF-7) to the growing list of interferon regulatory factors that have effects on downstream events in the acquired cellular immune response to nonviral pathogens.     

The role of Kupffer cells and regulation of neutrophil migration into the liver by macrophage inflammatory protein-2 in primary listeriosis in mice

Depletion of mouse Kupffer cells and splenic macrophages following intravenous administration of liposome-entrapped clodronate severely reduced host resistance to primary infection with Listeria monocytogenes. Infection of clodronate-treated mice with a sublethal dose of L. monocytogenes resulted in death of the mice within 3 days. The macrophage depletion resulted in marked increases in bacterial growth in the liver and spleen, but not in other tissues. The proliferation of L. monocytogenes was observed in a large number of hepatocytes that underwent apoptosis. Infiltration of neutrophils in the liver and rapid formation of microabscesses were observed in the control mice after L. monocytogenes infection. However, there was less accumulation of neutrophils in the liver of Kupffer cell-depleted mice than in the control mice. Expression of macrophage inflammatory protein-2 (MIP-2) was enhanced in the livers of both the control and Kupffer cell-depleted mice after L. monocytogenes infection. MIP-2 was also induced in a murine hepatocyte cell line following L. monocytogenes infection. The administration of neutralizing anti-interleukin-8 receptor homolog antibody severely abrogated neutrophil infiltration into the Listeria-infected mouse liver. Anti-MIP-2 antibody moderately reduced neutrophil infiltration and microabscess formation in the liver. These findings indicate that Kupffer cells protect hepatocytes from L. monocytogenes infection and the resultant apoptosis. Moreover, MIP-2 and its related molecules produced by the infected hepatocytes regulate neutrophil infiltration and microabscess formation in primary listeriosis.     

High-affinity binding of fibronectin to cultured Kupffer cells

Hepatic Kupffer cells are a major component of the reticuloendothelial or macrophage system. They were the first phagocytic cell type whose phagocytosis was shown to be influenced by plasma fibronectin, a dimeric opsonic glycoprotein. In the current study, the binding of soluble radioiodinated fibronectin purified from rat serum to isolated rat hepatic Kupffer cells was investigated using a cultured Kupffer cell monolayer technique. Binding was specific, since unlabeled purified fibronectin competed in a dose-dependent manner with the 125I-fibronectin for binding to the Kupffer cells. Addition of gelatin enhanced the binding of 125I-fibronectin to Kupffer cells. The phagocytosis of gelatinized-coated red cells by Kupffer cells was increased either by preopsonizing the target particles with purified fibronectin or by the addition of purified fibronectin to the culture medium. In contrast, exposure of the Kupffer cells to medium containing purified fibronectin followed by wash-removal of the fibronectin did not increase the uptake of gelatin-coated red blood cells, even though fibronectin was detected on the surface of the Kupffer cells by immunofluorescence. Trypsinized monolayers expressed decreased capacity to bind 125I-fibronectin as well as fibronectin-coated sheep erythrocytes. The binding of 125I-fibronectin-gelatin complexes was inhibited by excess unlabeled fibronectin. We calculated that specific high-affinity (Kd = 7.46 x 10(-9) M) binding sites for fibronectin exist on Kupffer cells. There are approximately 2,800-3,500 binding sites or putative "fibronectin receptors" per Kupffer cell. These sites appear to mediate the enhanced phagocytosis of gelatin-coated particles opsonized by fibronectin.     

The increased potential for the production of inflammatory cytokines by Kupffer cells and splenic macrophages eight days after thermal injury

Burn patients often experience a devastating inflammatory response to infection within the first two weeks after thermal injury. The inflammatory cytokines IL-6, TNF and IL-1 have been implicated in this condition but most studies have focused on the abnormal levels of cytokines in the plasma. In this study the production of cytokines was compared for Kupffer cells versus splenic macrophages; endotoxin (LPS) stimulation versus no stimulation; and burn (post burn days 1, 3 and 8) versus no burn (control). Corresponding serum levels of IL-6 were also determined. Kupffer cells from normal or burned animals were shown to produce much higher amounts of the inflammatory cytokines than that produced by splenic macrophages. An exception to this was the equal production of TNF by LPS-stimulated hepatic and splenic cells. Both LPS-stimulated Kupffer cells and splenic macrophages produced larger amounts of the cytokines than that produced by the unstimulated cells. There was a significant effect of thermal injury on cytokine production by LPS-stimulated Kupffer cells at post burn day 8 and on TNF production by stimulated splenic macrophages also at post burn day eight. Although there was a statistically significant effect of thermal injury at post burn day 8 on IL-1 production by unstimulated splenic macrophages, the absolute amount of cytokine produced was very small. The results suggest that by post burn day 8 the cells may have become primed to respond to a stimulus such as endotoxin (LPS), a condition that could arise in a burn patient from sepsis. Strangely, the large spike in serum IL-6 level occurred at post burn day one and the level of the cytokine returned nearly to the control value on post burn days 3 and 8.     

Effects of Kupffer cell inhibition on liver function and hepatocellular activity in mice

Kupffer cells are the tissue macrophages in the liver and play an important role in the defense mechanisms of the body. However, their role in liver function and hepatocellular activity remains unclear. This study was therefore undertaken to investigate the effect of gadolinium chloride-induced Kupffer cell dysfunction on liver function and hepatocellular signaling activity in mice and to establish an animal model for studying the role of Kupffer cells in vivo. Kunming mice were intraperitoneally injected with different doses of gadolinium chloride (GdCl3), a selective inhibitor of Kupffer cells, and the mice were sacrificed at different time periods following the drug administration. Hepatotoxicity and Kupffer cell function, as well as the levels of signaling molecules and inflammatory mediators in liver tissue, were measured. We demonstrated that the administration of 10-20 mg/kg GdCl3 caused apoptosis of Kupffer cells and blocked the Kupffer cell effector function, as shown by a decrease in CD68 expression and phagocytic activity. In addition, the NO, PGE2 and cAMP levels in the liver were also reduced significantly. Furthermore, 20 mg/kg GdCl3 decreased the levels of cNOS, PKC and NF-kappaB p65 expression by 26.6, 68 and 64%, respectively. In contrast, hepatotoxicity was not observed when the same doses of GdCl3 were used. Moreover, we found that Kupffer cell function and the NO, PGE2 and cAMP contents, as well as PKC and NF-kappaB p65 levels in the liver were only partially, but not fully recovered in up to six days following 20 mg/kg GdCl3 injection. However, the administration of higher doses of GdCl3 (40 mg/kg) caused both hepatotoxicity and Kupffer cell necrosis, as well as an increased release of TNF, NO, and PGE2 in the liver. These results indicate that administration of suitable doses of GdCl3 blocked the effector function of Kupffer cells selectively, but did not cause liver parenchymal cell toxicity, and provide a frame-work for the establishment of an animal model for studying the role of Kupffer cells in signaling in the liver. Lastly, the present study also provides evidence that shows there is a positive association between the expression of cAMP, PKC, or NF-kappaB and the levels of NO, PGE2 and TNF in the liver of Kupffer-cell-blocked mice, and suggests that Kupffer cells may play a part in mediating liver function and hepatocellular activity.     

Chronic ethanol feeding increases activation of NADPH oxidase by lipopolysaccharide in rat Kupffer cells: role of increased reactive oxygen in LPS-stimulated ERK1/2 activation and TNF-alpha production

Reactive oxygen species (ROS) contribute to the development of chronic ethanol-induced liver injury. Although ROS modulate the activity of many signal transduction pathways, the molecular targets of ROS during ethanol exposure are not well understood. Here, we investigated whether specific ROS-sensitive signal transduction pathways contribute to increased tumor necrosis factor alpha (TNF-alpha) production by Kupffer cells after chronic ethanol feeding to rats. Lipopolysaccharide (LPS) rapidly increased ROS production, measured by dihydrorhodamine fluorescence, in Kupffer cells from ethanol- and pair-fed rats, and ROS production was 2.5-fold greater in ethanol-fed compared with pair-fed. Pretreatment with diphenyleneiodonium (DPI), which inhibits reduced nicotinamide adenine dinucleotide phosphate (NADPH) oxidase, normalized ROS production in Kupffer cells from ethanol-fed rats. LPS rapidly increased Rac1-guanosinetriphosphatase (GTPase) activity and p67(phox) translocation to the plasma membrane in Kupffer cells from pair-fed rats. After ethanol feeding, Rac1-GTPase activity was already increased over pair-fed at baseline and remained elevated over pair-fed after LPS stimulation. Further, LPS-stimulated p67(phox) translocation to the plasma membrane was enhanced after chronic ethanol feeding. LPS-stimulated extracellular signal-regulated kinase (ERK)1/2 and p38 phosphorylation, two signaling pathways regulated by ROS, were increased twofold in Kupffer cells from ethanol-fed rats compared with pair-fed controls. However, only LPS-stimulated ERK1/2 phosphorylation was inhibited by DPI, which also reduced LPS-stimulated TNF-alpha production in Kupffer cells from pair- and ethanol-fed rats. These results demonstrate that chronic ethanol feeding increases LPS-stimulated NADPH oxidase-dependent production of ROS in Kupffer cells. Further, ERK1/2 is an important target of NADPH oxidase-derived ROS in Kupffer cells, contributing to enhanced LPS-stimulated TNF-alpha production by Kupffer cells after chronic ethanol feeding.     

Activity of the reticuloendothelial system and the antibody response: III. The fate of type III pneumococcal polysaccharide and the antibody response*

Pretreatment of mice with stilboestrol was shown to reduce the splenic direct PFC response to low, but not to high, immunizing doses of SIII. The fate of ¹²⁵I-labelled SIII in control and stilboestrol-treated mice over a period of 3 weeks was observed. Stilboestrol-treated mice showed enhanced rate of clearance from the blood and hepatic uptake of ¹²⁵I-labelled SIII, and a consistently depressed level of circulating ¹²⁵I-labelled SIII. No consistent differences in splenic uptake of SIII between control and stilboestrol-treated mice were observed, but the excretion of radioactivity appeared to be slower in the latter group. The altered pattern of blood clearance and liver uptake of SIII in stilboestrol-treated mice is consistent with the potent stimulation of RES phagocytic activity induced by this agent, and it is suggested that the increased sequestration of SIII in stilboestrol-treated mice may be related to the observed effects of stilboestrol on the antibody response to this antigen.     

Heterogeneity of kupffer cells and splenic,alveolar, and peritoneal macrophages for the production of TNF,IL-1, AND IL-6

Kupffer cells and alveolar, splenic, and peritoneal macrophages from normal rats were incubated for various periods of time in the presence of LPS, and the culture supernatants were analyzed for IL-6, IL-1, and TNF. There was very little difference in the amounts of the cytokines produced by the macrophages when stimulated with 0.01–10/ml of LPS. The shapes of the time course curves for the production of the cytokines by the different types of macrophages were generally similar, although only Kupffer cells continued to produce IL-6 throughout the entire incubation period and splenic macrophages showed a lag period in the production of IL-1. Kupffer cells produced more IL-6 than that produced by the other populations of macrophages, and alveolar macrophages produced more IL-1 compared to that produced by splenic cells. Kupffer cells and peritoneal macrophages produced more IL-6 in 24 h than in 6 h of culture, and splenic macrophages produced more IL-1 in 24 compared to 6 h of culture. Alveolar macrophages produced more TNF than that produced by the other populations of cells but only when integrated over the entire incubation period. These results confirm and extend the observed functional heterogeneity of macrophages obtained from different tissues of the same animal. This study and future studies will lead to a better understanding of the role of cytokines in the inflammatory response.     

Kupffer cell proliferation and glucan-induced granuloma formation in mice depleted of blood monocytes by strontium-89

In mice with prolonged severe monocytopenia induced by selective irradiation of the bone marrow with the bone-seeking isotope 89Sr, the proliferative capacity of Kupffer cells was studied by immunohistochemistry with an anti-mouse macrophage monoclonal antibody, F4/80, ultrastructural peroxidase (PO) cytochemistry, and tritiated thymidine (3HTdR) autoradiography. The number and 3HTdR uptake of Kupffer cells were significantly increased in the splenectomized mice after severe monocytopenia had continued for more than 4 wk, and almost all the Kupffer cells showed a localization pattern of PO activity similar to that of resident macrophages in the liver of normal mice. In the glucan-induced granuloma formation in similar monocytopenic mice, Kupffer cells proliferated, conglomerated, and transformed into epithelioid cells, which fused together to become multinuclear giant cells. These results suggest that Kupffer cells are a self-renewing population by their own cell division and can participate actively in granulomatous inflammations in severely monocytopenic and intact mice.     

Macromolecular charge and reticuloendothelial function: comparison between the kinetics of administered native and cationized ferritins and the corresponding immune complexes in the mouse.

In order to evaluate the role of macromolecular charge on uptake by the reticuloendothelial system (RES), kinetic studies were carried out following the intravenous administration of 125I-labelled native ferritin (NF, pI 4.5) or cationized ferritin (CF, pI 7) to Swiss-Webster female mice subsequently killed at 2, 4, 8, 24 and 36 hr later. The same experiments were performed following the administration of radio-labelled (125I) native ferritin immune complexes (NFIC, pI 5-6.5) and cationized ferritin immune complexes (CFIC, pI 6.5-7.5). These complexes were prepared in five-times antigen excess by combination of affinity-purified anti-ferritin IgG-125I with NF or CF. A striking difference between the plasma clearance of NF and that of CF was observed in that the former was rapidly eliminated within 8 hr whereas the latter persisted in the circulation at 24 hr. This was associated with a significant increase in the uptake of NF by the liver, spleen, and kidney. No differences were observed in blood cell-associated radioactivity. Immunohistochemical studies confirmed the presence of increased amounts of NF in Kupffer cells and splenic phagocytes. Thus, the uptake of ferritin by components of the RES is highly dependent upon its pI. The present data may be explained by differences in diffusibility of CF and NF or alternatively by differential interactions with the cell surface in vivo. Contrary to the prior investigation carried out with the antigens alone, the plasma clearance and organ (liver, spleen and kidney) kinetic studies of NFIC and CFIC were similar. In addition, immunohistochemical studies demonstrated that the uptakes of NFIC (pI 5-6.5), CFIC (pI 6.5-7.5) and CFIC (pI 7-9) by Kupffer cells and splenic phagocytes were similar. As further confirmation for similarity in binding to Fc receptors of human polymorphonuclear leucocytes, Scatchard analysis failed to demonstrate any differences between NFIC and CFIC. These studies provide evidence that, within the range employed in this investigation, the charge of ferritin within the immune complex (and hence the charge of the complex itself) does not affect its uptake by receptors of phagocytic cells. In contrast, the uptake of ferritin, which is not Fc or C3 receptor dependent, is clearly conditioned by electrostatic charge.     

Quantitative and ultrastructural studies on the uptake of drug loaded liposomes by mononuclear phagocytes infected with Leishmania donovani

This study compared splenic and hepatic uptake of free and liposome-entrapped sodium antimony gluconate after i.v. administration to mice infected with Leishmania donovani. It was demonstrated that entrapment within liposomes greatly altered the kinetics of uptake of the drug. We were also able to show that liposomes composed of sphingomyelin, stearylamine and cholesterol were marginally better than any other preparation in delivering entrapped drug to liver and spleen. X-ray microanalytical studies on the uptake of liposomes by Kupffer cells infected with L. donovani have indicated that internalised liposomes probably fuse with parasitophorous vacuoles, transferring their contents into the immediate locality of the leishmanial parasites. It is proposed that this is the way in which liposome entrapped antileishmanial agents have an enhanced therapeutic effect over free drug therapy.     

The effect of colloidal carbon on the organ distribution of sheep red cells and the immune response

The organ distribution, blood clearance rate, and immune response to intravenous ⁵¹Cr-labelled sheep red blood cells (SRBC) have been studied in mice, following administration of a single intravenous dose of colloidal carbon. In normal mice 80–90 per cent of SRBC were found in the liver and 2–6 per cent in the spleen. The blood clearance rate of SRBC was extremely rapid. Colloidal carbon caused a marked depression of hepatic uptake of SRBC and a corresponding increase in splenic uptake. This effect was maximal at 6 hours after carbon administration and recovery of hepatic phagocytosis occurred over 4 days. The rate of clearance of SRBC was greatly reduced while the hepatic uptake of red cells was depressed. At low doses of cells there was an increase in titre of humoral antibody and in numbers of spleen PFCs while, at high doses of cells, a slight depression in immune response occurred.

`Stimulation' of splenic uptake of antigen and of the immune response by colloidal carbon is associated with depression of hepatic phagocytosis.