Cell-specific glycoforms of sialoadhesin and CD45 are counter-receptors for the cysteine-rich domain of the mannose receptor

We previously reported that CR-Fc, an Fc chimeric protein containing the cysteine-rich (CR) domain of the mannose receptor, binds to marginal zone metallophilic macrophages (Mo) and B cell areas in the spleen and to subcapsular sinus Mo in lymph nodes of naive mice (CR-Fc(+) cells). Several CR-Fc ligands were found in spleen and lymph node tissue lysates using ligand blots. In this paper we report the identification of two of these ligands as sialoadhesin (Sn), an Mo-specific membrane molecule, and the leukocyte common antigen, CD45. CR-Fc bound selectively to Sn purified from spleen and lymph nodes and to two low molecular weight isoforms of CD45 in a sugar-dependent manner. CR-Fc binding and non-binding forms of Sn, probably derived from CR-Fc(+) and CR-Fc(-) cells respectively, were selected from spleen lysates. Analysis of the glycan pool associated with the CR-Fc-binding form revealed the presence of charged structures resistant to sialidase, absent in the non-binding form, that could correspond to sulfated structures. These results confirm the identification of the CR region of the mannose receptor as a lectin. We also demonstrate that the same glycoprotein expressed in different cells of the same organ can display distinct sugar epitopes that determine its binding properties.     

Lysosomal and cytosolic sialidases in rabbit alveolar macrophages: demonstration of increased lysosomal activity after in vivo activation with bacillus Calmette-Guerin

Sialidase activity was assayed in homogenized rabbit alveolar macrophages using a fluorogenic substrate: sodium 4-methylumbelliferyl-alpha-D-neuraminate. After differential centrifugation one acid-active enzyme (optimum pH 4.2) was detected in the 16,000 X g pellet that contained lysosomes, mitochondria and peroxisomes. A second activity, with an optimum pH of 5.4, was found in the cytosolic fraction. The acid-active sialidase accounted for more than 95% of the total sialidase activity in crude homogenate. When alveolar macrophages were collected from rabbits stimulated with bacillus Calmette-Guerin (BCG), the acid-active sialidase specific activity was increased 2.5-fold whereas other lysosomal enzymes such as N-acetylglucosaminidase and beta-galactosidase were stable. The cytosolic sialidase activity did not change.     

Suppressor cell activity in tumor-bearing mice. I. Dualistic inhibition by suppressor T lymphocytes and macrophages.

Spleen cells from mice bearing methylcholanthrene-induced fibrosarcomas impaired mitogen responses of normal syngeneic lymphocytes. Nylon wool column and other depletion techniques were utilized to characterize the cellular source of suppressive activity in tumor-bearing host (TBH) spleens. Evidence is presented for two distinct suppressor cell systems operating in the spleens, but not lymph nodes, of BALB/c mice bearing transplanted tumors. Spleens from TBH were shown to have greatly increased numbers of macrophages over their normal counterparts. TBH macrophages were observed to have suppressive activity at low in vitro concentrations. Anti-Thy 1 serum treatment of TBH macrophages abrogated low dose inhibition but not suppression due to high numbers of macrophages. No functional difference was detected between anti-Thy 1 serum-treated TBH and normal splenic macrophages. In a macrophage-depleted culture system, mildly nylon wool adherent, anti-Thy 1 serum, and hydrocortisone succinate-sensitive suppressor cells could be detected. Soluble supernatant products of TBH spleen and thymus cells were also found to inhibit in vitro mitogen responses, whereas TBH macrophages and lymph node cells demonstrated no soluble suppressive activity. The major source of soluble inhibitor of DNA synthesis (IDS) seems to be an anti-Thy 1 serum, hydrocortisone-sensitive population.     

Differential expression of endogenous sialidases of human monocytes during cellular differentiation into macrophages

Sialidases are enzymes that influence cellular activity by removing terminal sialic acid from glycolipids and glycoproteins. Four genetically distinct sialidases have been identified in mammalian cells. In this study, we demonstrate that three of these sialidases, lysosomal Neu1 and Neu4 and plasma membrane-associated Neu3, are expressed in human monocytes. When measured using the artificial substrate 2'-(4-methylumbelliferyl)-alpha-d-N-acetylneuraminic acid (4-MU-NANA), sialidase activity of monocytes increased up to 14-fold per milligram of total protein after cells had differentiated into macrophages. In these same cells, the specific activity of other cellular proteins (e.g. beta-galactosidase, cathepsin A and alkaline phosphatase) increased only two- to fourfold during differentiation of monocytes. Sialidase activity measured with 4-MU-NANA resulted from increased expression of Neu1, as removal of Neu1 from the cell lysate by immunoprecipitation eliminated more than 99% of detectable sialidase activity. When exogenous mixed bovine gangliosides were used as substrates, there was a twofold increase in sialidase activity per milligram of total protein in monocyte-derived macrophages in comparison to monocytes. The increased activity measured with mixed gangliosides was not affected by removal of Neu1, suggesting that the expression of a sialidase other than Neu1 was present in macrophages. The amount of Neu1 and Neu3 RNAs detected by real time RT-PCR increased as monocytes differentiated into macrophages, whereas the amount of Neu4 RNA decreased. No RNA encoding the cytosolic sialidase (Neu2) was detected in monocytes or macrophages. Western blot analysis using specific antibodies showed that the amount of Neu1 and Neu3 proteins increased during monocyte differentiation. Thus, the differentiation of monocytes into macrophages is associated with regulation of the expression of at least three distinct cellular sialidases, with specific up-regulation of the enzyme activity of only Neu1.     

Sialoadhesin expression by bone marrow macrophages derived from Ehrlich-tumor-bearing mice

Sialoadhesin (sheep erythrocyte receptor, SER) is a macrophage-restricted adhesion molecule that binds certain sialylated ligands. It is borne by bone marrow stromal macrophages, promoting the interaction with developing myeloid cells, and by a subset of tissue macrophages involved in antigen presentation and activation of tumor-reactive T cells. The expression of sialoadhesin on SER⁺ macrophages is not constitutive but requires the continuous supply of a sialoadhesin-inducing serum factor. Tumor growth is often associated with marked alterations of myelopoiesis and impairment of T cell activation; yet the expression of sialoadhesin in macrophages derived from tumor bearers has not been addressed. The aim of this study was to assess whether Ehrlich tumor (ET) – a murine mammary carcinoma – growth may modify the sialoadhesin expression by bone marrow macrophages and/or sialoadhesin-inducing activity in ET-bearing sera. Moreover, putative functional sialoadhesin inhibitors produced by ET cells were tested. The results indicate that bone marrow cells from ET bearers show a seven- to eight-fold decrease in SER⁺ cells as detected by flow cytometry. This is accompanied by an overall decrease in sheep erythrocyte binding to tumor-bearer-derived bone marrow cells, but also by lower numbers of plastic-adherent cells. Functional sialoadhesin expression is preserved at the single-cell level and no inhibitors are found in ET-bearing sera or ET cell culture supernatants. Tumor progression does not impair the sialoadhesin-inducing activity of ET-bearing sera, or the ability of SER⁻ macrophages (e.g. peritoneal macrophages) to respond to such an induction. In conclusion, while SER⁺ macrophages are greatly decreased in bone marrow from ET bearers, this is not due to a down-regulation of sialoadhesin expression, nor to an impairment of sialoadhesin-inducing factor or to the presence of sialoadhesin-binding moieties of tumor origin, but, more likely, to a decrease of fully mature macrophages. Received: 18 March 1999 / Accepted: 22 July 1999     

Induction of lymphocyte blast transformation by purified fibronectin in vitro

Purified rat plasma fibronectin (Fn) induces a dose-dependent, nonspecific proliferation of lymphoid cells isolated from spleen and lymph nodes, but has no effect on thymocytes. Proliferation of cells occurred after 4 to 5 days of incubation and was generally 5- to 10-fold greater than control cells cultured without Fn or in the presence of the same concentrations of rat serum albumin. The responding cell appears to be the T cell and requires the presence of adherent accessory cells (macrophages). Although purified T and B cells failed to demonstrate a significant increase in blastogenesis in the presence of Fn, reconstitution of T, but not B, cells with irradiated peritoneal exudate macrophages restored the stimulatory effect of Fn. Furthermore, comparison of the effect of various concentrations of macrophages on the restored T cell response shows that proliferative activity in the presence of Fn is dependent on a critical number of macrophages. Adding higher numbers of macrophages beyond the optimal concentration results in a sharp decline in lymphocyte responsiveness to Fn, although the proliferation of control cells continues to increase at these macrophage concentrations. Macrophages pulsed with Fn for 1 hr failed to evoke an increase in T cell responsiveness after 3 or 5 days of incubation. In addition, incubation of Fn-pulsed T cells with macrophages that had been precultured with or without Fn also failed to result in T cell activation. The effect of Fn on T lymphocyte transformation appears to be mediated indirectly through its interaction with the macrophage, because 125I-Fn, which shows significant binding to peritoneal exudate macrophages, fails to interact with purified T cells. Radiolabeled Fn also demonstrated little or no binding activity for unseparated lymph node cells.     

Effective delivery of a lipophilic 6-chloro-2',3'-dideoxyguanosine (6-Cl-ddG) into rat lymphoid tissues.

Lipophilic 6-chloro-2',3'-dideoxyguanosine (6-Cl-ddG) was evaluated for its improved lymph node delivery by comparison with the parental nucleoside (ddG) in vitro and in vivo. The in vitro studies with rat plasma, lymph node homogenate and stomach content indicated that 6-Cl-ddG converted to ddG more effectively in the lymph node homogenate and that 6-Cl-ddG was more stable than ddG in the stomach content. In an in vivo study, plasma and lymph nodes were collected from rats after a subcutaneous or oral administration of 6-Cl-ddG or ddG. With the subcutaneous administrations of the drugs, the area under the concentration time-curve (AUC) value in the plasma for converted ddG following a 6-Cl-ddG administration was less than half the value for ddG following a ddG administration but the converted ddG AUC values in the lymph nodes due to 6-Cl-ddG administration were 1.4- to 2.0-fold higher than the ddG AUC values due to ddG administration. Moreover, with the oral administrations, the converted ddG AUC value in plasma after a 6-Cl-ddG administration was 3-fold higher than ddG after a ddG administration, and high levels of converted ddG were detected in the lymph nodes, but no ddG was detected in the lymph node following ddG administration. These results suggest that lipophilic 6-Cl-ddG is a useful prodrug for delivering ddG into the lymph nodes by oral administration.     

Mammalian antimicrobial peptide influences control of cutaneous Leishmania infection

Cathelicidin-type antimicrobial peptides (CAMP) are important mediators of innate immunity against microbial pathogens acting through direct interaction with and disruption of microbial membranes and indirectly through modulation of host cell migration and activation. Using a mouse knock-out model in CAMP we studied the role of this host peptide in control of dissemination of cutaneous infection by the parasitic protozoan Leishmania. The presence of pronounced host inflammatory infiltration in lesions and lymph nodes of infected animals was CAMP-dependent. Lack of CAMP expression was associated with higher levels of IL-10 receptor expression in bone marrow, splenic and lymph node macrophages as well as higher anti-inflammatory IL-10 production by bone marrow macrophages and spleen cells but reduced production of the pro-inflammatory cytokines IL-12 and IFN-γ by lymph nodes. Unlike wild-type mice, local lesions were exacerbated and parasites were found largely disseminated in CAMP knockouts. Infection of CAMP knockouts with parasite mutants lacking the surface metalloprotease virulence determinant resulted in more robust disseminated infection than in control animals suggesting that CAMP activity is negatively regulated by parasite surface proteolytic activity. This correlated with the ability of the protease to degrade CAMP in vitro and co-localization of CAMP with parasites within macrophages. Our results highlight the interplay of antimicrobial peptides and Leishmania that influence the host immune response and the outcome of infection.     

The effect of bone marrow depletion on prostaglandin E-producing suppressor macrophages in mouse spleen

The i.p. injection of Corynebacterium parvum (CP) into CBA/J mice effected increases in macrophage colony-forming cells (M-CFC) when spleen cells were cultured with L cell culture filtrate as a source of colony-stimulating factor. Significant increases in phagocytic macrophages (M phi) with Fc receptors for IgG2a and IgG2b immune complexes were additionally noted among the spleen cells in these mice. These M phi effectively inhibited Con A-induced lymphocyte proliferation, probably reflecting a 10-fold increase above normal controls in prostaglandin E to 47 ng/3 X 10(6) spleen cells/ml. To determine whether the suppressor M phi are immediate derivatives of splenic M-CFC, we tried to induce suppressor M phi by the injection of CP into mice depleted of bone marrow M-CFC by the earlier administration of the bone-seeking isotope, 89Sr. This procedure reduced M-CFC in the bone marrow to less than 1% of normal for more than 30 days. Monocytes in the blood fell to 5% of normal by day 10 and were 30% on day 30. Levels of resident peritoneal M phi showed relatively little change in this period. By contrast, splenic M-CFC increased to 20-fold higher than the "cold" 88Sr controls. CP-induced suppressor M phi activity, however, was sharply reduced in 89Sr marrow-depleted mice on day 10, despite the striking increase in M-CFC. There was a threefold increase in the number of phagocytic M phi binding IgG2a immune complexes, with no significant increase in IgG2b binding M phi. The kinetics of recovery of suppressor M phi activity showed that on days 20, 30, and 50 after 89Sr injection the activities reached 20%, 30%, and 70% of the "cold" control, respectively, and correlated with the recovery of significant levels of M-CFC in the bone marrow. Taken together, these observations suggest that splenic M-CFC are not an immediate source of PGE-suppressor M phi in vivo. It appears more likely that the CP-inducible suppressor M phi, in particular, originate from radiosensitive bone marrow cells or require for differentiation a microenvironment provided by bone marrow cells. The data also suggest that the expression of the Fc gamma 2b receptor and of suppressor activity by CP-induced splenic M phi are related phenomena.     

A novel alloantigen on rat macrophages and granulocytes

Previous studies have shown that immunization of MAXX rats with spleen and lymph node cells from the MHC-identical BN strain results in the formation of antibodies that react with the renal endothelial alloantigen Eag-1. In the present study, the reactivity of MAXX anti-BN sera was further characterized. No reactivity of the antisera was detected with unseparated spleen, lymph node, thymus and bone marrow cell suspensions, peripheral blood, or cells obtained from lung lavages. The antisera did, however, react with splenic macrophages, as well as with peritoneal granulocytes and macrophages from BN, BMA, BN.1L, and PVG rats. Genetic studies revealed that the antigen, provisionally designated Pag-1, segregates independently of Eag-1, the RT1 complex, sex, and the hooded and albino traits. Pag-1 appears to be absent in the kidney, since absorption of MAXX anti-BN sera with BN kidney homogenates did not remove the reactivity against Pag-1, and antisera raised against BN peritoneal cells did not bind with the renal endothelium. Pag-1 is expressed on bone marrow-derived cells, since peritoneal cells from lethally irradiated MAXX rats that were reconstituted with bone marrow cells from BN donors reacted with MAXX anti-BN sera, whereas peritoneal cells from BN rats reconstituted with MAXX bone marrow did not.Abbreviations used in this paper BSA bovine serum albumin - CDC complement-dependent microcytotoxicity - MHC major histocompatibility complex - PBS phosphate-buffered saline     

Purification and properties of sialoadhesin, a sialic acid-binding receptor of murine tissue macrophages.

Macrophage subpopulations in the mouse express a lectin-like receptor, sialoadhesin (originally named sheep erythrocyte receptor, SER), which selectively recognizes sialoglycoconjugates and is likely to be involved in cellular interactions of stromal macrophages in haematopoietic and lymphoid tissues. In this report we describe the purification and ligand specificity of sialoadhesin isolated from mouse spleen. Purified sialoadhesin, a glycoprotein of 185 kd apparent Mr, agglutinated sheep or human erythrocytes at nanomolar concentrations in a sialic acid-dependent manner. Low angle shadowing and electron microscopy showed that sialoadhesin consisted of a globular head region of approximately 9 nm and an extended tail of approximately 35 nm. To investigate the specificity for sialic acid, we studied the interaction of sialoadhesin with derivatized human erythrocytes, glycoproteins, and glycolipids. In conclusion, sialoadhesin specifically recognizes the oligosaccharide sequence Neu5Ac alpha 2----3Gal beta 1----3GalNAc in either sialoglycoproteins or gangliosides. These findings imply that specific sialoglycoconjugates carrying this structure may be involved in cellular interactions between stromal macrophages and subpopulations of haematopoietic cells and lymphocytes.     

In situ immunophenotyping of lymphocytes/macrophages: Grading of lymphadenopathy,staging and pathophysiology of HIV infection

Histological changes in lymph nodes in HIV1-related lymphadenopathy were analysed in 106 lymph node biopsies and in lymph nodes of 140 autopsy cases. A classification system of five stages was established on the basis of histological and immunohistochemical studies. The analysis confirmed a close correlation between the progression of HIV1-related disease and our staging system. Although the classification is chiefly based on histological and immunohistochemical changes of the follicles, other frequently seen findings are included. Alterations in the interfollicular tissue, e.g. vascular proliferation and lymphocyte depletion, correspond to an increasing concentration of macrophages within this tissue. In HIV1 infection, the macrophages appear to produce high concentrations of angiogenic factors responsible for the frequent and sometimes extreme lymph node vascularization. Since the vascular proliferation can be subject to regression and sclerosis as seen in autopsy cases, the macrophages may lose the ability to produce large amounts of angiogenic factors in the final stage of the disease.     

Sialoadhesin, a macrophage sialic acid binding receptor for haemopoietic cells with 17 immunoglobulin-like domains.

Sialoadhesin is a macrophage-restricted adhesion molecule of 185 kDa that mediates sialic acid-dependent binding to cells. It is expressed strongly by macrophages in lymphoid and haemopoietic tissues where it is likely to mediate cell-cell interactions. Here we report the molecular cloning of murine sialoadhesin and show that it is a new member of the immunoglobulin (Ig) superfamily with 17 Ig-like domains. COS cells transfected with a cDNA encoding full-length sialoadhesin bound mouse bone marrow cells in a sialic acid-dependent manner. Alternatively spliced cDNAs, predicting soluble forms of sialoadhesin containing the first three or 16 Ig-like domains of sialoadhesin, were expressed in COS cells and the respective proteins purified. When immobilized on plastic, the 16-domain form bound cells in a sialic acid-dependent manner, suggesting that sialoadhesin can function in both secreted and membrane-bound forms. The most similar proteins in the database were CD22, myelin-associated glycoprotein, Schwann cell myelin protein and CD33. Like sialoadhesin, CD22 mediates sialic acid-dependent cell adhesion. The sequence similarity of sialoadhesin to CD22 and related members of the Ig superfamily indicates the existence of a novel family of sialic acid binding proteins involved in cell-cell interactions.     

Induction of cell-mediated immunity to chemically modified antigens in guinea pigs. II. The interaction between lipid-conjugated antigens, macrophages, and T lymphocytes.

Protein antigens covalently conjugated with lipid groups (dodecanoic acid) have previously been shown to stimulate strong delayed-type hypersensitivity (DTH) without the aid of adjuvants. The present experiments show that lipid-conjugated bovine serum albumin (L-BSA) is taken up in vitro by macrophages (Mpsi) 25- to 50-fold more than unconjugated BSA or aminidated BSA, neither of which induces DTH. Macrophages that take up 125I-labeled L-BSA in vitro stimulate DTH even more efficiently, when injected into syngeneic guinea pigs, than does soluble L-BSA. Tracer studies on the fate of radiolabeled BSA and L-BSA showed that much more L-BSA than BSA was retained by draining lymph nodes. Autoradiography demonstrated that 125I-L-BSA is rapidly taken up by Mpsi in the medullary sinuses of the lymph nodes. Some of this antigen is then transported into the paracortex, a region in which T lymphocytes predominate. The capacity of lipophilic antigens to stimulate cell-mediated immune responses may be caused by their increased uptake by Mpsi, resulting in more efficient presentation to immunocompetent T lymphocytes. The anatomical site of this Mpsi-T cell interaction may be within the sinusoids or paracortex of the draining lymph nodes.     

Obesity Impairs Lymphatic Fluid Transport and Dendritic Cell Migration to Lymph Nodes

Introduction

Obesity is a major cause of morbidity and mortality resulting in pathologic changes in virtually every organ system. Although the cardiovascular system has been a focus of intense study, the effects of obesity on the lymphatic system remain essentially unknown. The purpose of this study was to identify the pathologic consequences of diet induced obesity (DIO) on the lymphatic system.

Methods

Adult male wild-type or RAG C57B6-6J mice were fed a high fat (60%) or normal chow diet for 8–10 weeks followed by analysis of lymphatic transport capacity. In addition, we assessed migration of dendritic cells (DCs) to local lymph nodes, lymph node architecture, and lymph node cellular make up.

Results

High fat diet resulted in obesity in both wild-type and RAG mice and significantly impaired lymphatic fluid transport and lymph node uptake; interestingly, obese wild-type but not obese RAG mice had significantly impaired migration of DCs to the peripheral lymph nodes. Obesity also resulted in significant changes in the macro and microscopic anatomy of lymph nodes as reflected by a marked decrease in size of inguinal lymph nodes (3.4-fold), decreased number of lymph node lymphatics (1.6-fold), loss of follicular pattern of B cells, and dysregulation of CCL21 expression gradients. Finally, obesity resulted in a significant decrease in the number of lymph node T cells and increased number of B cells and macrophages.

Conclusions

Obesity has significant negative effects on lymphatic transport, DC cell migration, and lymph node architecture. Loss of T and B cell inflammatory reactions does not protect from impaired lymphatic fluid transport but preserves DC migration capacity. Future studies are needed to determine how the interplay between diet, obesity, and the lymphatic system modulate systemic complications of obesity.     

WGA binding to the surface of two autologous human melanoma cell lines: different expression of sialyl and N-acetylglucosaminyl residues

Two autologous human melanoma cell lines were studied to determine their capacities to bind wheat germ agglutinin (WGA). Both cell lines were derived from the same patient, the first, IGR 39, originated from the primary tumor, the second, IGR 37, was established from a metastatic lymph node. WGA binding sites on the surface of these cell lines were compared before and after sialidase and/or tunicamycin treatments. IGR 39 cells exhibited two classes of WGA binding sites with high and low affinities, whereas IGR 37 cells had only one class of high affinity binding sites. After tunicamycin treatment, the capacity of IGR 39 cells to bind WGA was markedly altered, since only one class of WGA binding sites with high affinity was observed under these conditions, whereas tunicamycin did not induce significant changes in the lectin binding of IGR 37 cells. The low affinity WGA binding sites, which were only found on IGR 39 cells, corresponded to sialyl residues present in N-linked glycoproteins. The high affinity binding sites present on both cell lines probably involved sialyl and N-acetyl-glucosaminyl residues associated with O-linked glycoproteins and/or glycolipids. No direct correlation could be drawn between the number of WGA binding sites and the overall sialic acid levels exposed to sialidase treatment. The 3-fold increase in the amount of cell surface glycopeptides obtained after pronase digestion and specifically binding to WGA-Sepharose was in good agreement with the overall higher number of WGA binding sites on IGR 39 compared to IGR 37 cells. Thus, subtle carbohydrate changes of cell surface glycoconjugates might account for the differences between the biological properties of human melanoma cell lines of low and high tumorigenicity.     

Acid-phosphatase activity of reticular cells and macrophages in the lymph node of the rat after ingestion of mast-cell granules

Acid phosphatase (ACPase) was ultracytochemically demonstrated in the lymph-node sinus reticular cells and macrophages of rats. After the uptake of horseradish peroxidase (HRP), marked ACPase activities were seen in both reticular cells and macrophages, although only sparse ACPase activity was detected in the reticular cells of the control. After the injection of HRP into the footpad, the mast cells in the regional lymph node became degranulated, and the released granules were taken up by reticular cells and macrophages. In macrophages, these taken-up mast-cell granules exhibited ACPase reaction products, whereas none of the granules taken up by reticular cells showed ACPase activity. The heparin-protamine complex was also engulfed by reticular cells and macrophages, and ACPase activity was demonstrable in the complex taken up by both types of cell. It is probable that, as is the case in macrophages, reticular cells in the lymph-node sinuses take up and digest foreign substances through the formation of phagolysosomes, but they do not digest granules originating from the mast cells in the lymph node of the same animal.     

Modification of lymphocyte migration by mannans and phosphomannans. Different carbohydrate structures control entry of lymphocytes into spleen and lymph nodes

Previous in vitro studies suggest that recognition of phosphomannosyl structures by lymphocytes plays a central role in the binding of lymphocytes to high endothelial venules. However, the physiologic relevance of phosphomannosyl recognition in in vivo lymphocyte migration has not been established. This paper describes experiments that examined this question. It was demonstrated that the phosphomannan monoester core (PPME) from Pichia holstii, a potent inhibitor of peripheral node high endothelial venule interactions in vitro, was a very effective inhibitor of in vivo lymphocyte migration, as little as 39 micrograms/mouse significantly inhibiting popliteal lymph node entry. Furthermore, PPME exhibited a similar hierarchy of inhibition in vivo as previously reported in vitro, most effectively inhibiting entry of lymphocytes into popliteal lymph node, somewhat less effectively inhibiting mesenteric lymph node entry and being a relatively poor inhibitor of Peyer's patch entry. Additionally, PPME inhibited splenic entry of lymphocytes, and inhibition of lymphoid organ entry was accompanied by a substantial leukocytosis. Two additional mannose-containing compounds were found to modify lymphocyte migration, namely a well defined mannose containing pentasaccharide (PENT) with terminal mannose-6-phosphate (M6P) and an unphosphorylated yeast mannan. Both PENT and mannan induced leukocytosis and were particularly effective at inhibiting splenic entry of lymphocytes. In fact, detailed dose-response curves indicated that mannan was a much more potent inhibitor of splenic entry than PPME or PENT, whereas in lymph nodes PPME was the most effective inhibitor. Pretreatment of lymphocytes before injection with either PPME or mannan demonstrated that PPME could act at the lymphocyte level, whereas mannan probably acted at some other site. Collectively, these data suggest that different carbohydrate structures are involved in the entry of lymphocytes into different lymphoid organs, with mannose recognition playing an important role in splenic entry and recognition of M6P-like structures controlling lymph node entry. In contrast, it was found that mannose-and M6P-containing structures, unlike sulfated polysaccharides such as fucoidan, did not affect the subsequent positioning of lymphocytes within lymphoid organs.     

Acid-phosphatase activity of reticular cells and macrophages in the lymph node of the rat after ingestion of mast-cell granules

Summary Acid phosphatase (ACPase) was ultracytochemically demonstrated in the lymph-node sinus reticular cells and macrophages of rats. After the uptake of horseradish peroxidase (HRP), marked ACPase activities were seen in both reticular cells and macrophages, although only sparse ACPase activity was detected in the reticular cells of the control. After the injection of HRP into the footpad, the mast cells in the regional lymph node became degranulated, and the released granules were taken up by reticular cells and macrophages. In macrophages, these taken-up mast-cell granules exhibited ACPase reaction products, whereas none of the granules taken up by reticular cells showed ACPase activity. The heparin-protamine complex was also engulfed by reticular cells and macrophages, and ACPase activity was demonstrable in the complex taken up by both types of cell. It is probable that, as is the case in macro-phages, reticular cells in the lymph-node sinuses take up and digest foreign substances through the formation of phagolysosomes, but they do not digest granules originating from the mast cells in the lymph node of the same animal.     

Peripheral tolerance induced in lymph nodes by syngeneic spleen cells inhibits generation of CTLs to hapten-altered self antigens but not to alloantigens.

The immunological tolerance that is induced in lymph nodes that have been exposed to syngeneic spleen cells has been examined. Development of cytotoxic T lymphocytes was used to assess the immunological status of the lymph node cells. The tolerance was studied from the viewpoint of its induction, its activation, and its specificity. We had already reported that injecting either T or B cells of splenic origin into a regional lymph node environment a week prior to immunization for CTL to hapten-altered self antigens prevents development of the CTL. Here, we confirm that syngeneic splenic cells but not lymph node cells will induce the suppression provided that spleen cells are not coupled with hapten. We now report that splenic cells that cannot replicate or synthesize and secrete protein are capable of inducing the suppression. The data suggest a preformed surface marker peculiar to spleen cells and perhaps on cells that traverse the thymus induces local tolerance that is mediated by suppressor cells. Triggering the induced suppressor T cells (previously identified as CD8-) was achieved by syngeneic spleen cells as well as by H-2-compatible, Mls-disparate spleen cells but not by syngeneic lymph node cells or apparently by allogeneic spleen cells. Furthermore, triggering suppression was achieved by hapten-coupled syngeneic spleen cells whereas such cells would not induce the suppression. Thus, activating the suppressor cells requires reexposure to splenic cells of the proper MHC haplotype, unaltered or coupled with either TNP or FITC. Once triggered, the suppression was manifested toward CTL generation against hapten-coupled syngeneic antigens on either spleen or lymph node cells but not against allogeneic antigens. Thus, the specificity of the tolerance was directed to altered self antigens despite its induction by unaltered spleen antigen. Furthermore, for suppression to be seen the spleen antigen was not required to be on the hapten-coupled syngeneic cells used for the CTL immunization. The relationship of the splenic cell "antigen" to hapten-altered self antigens and to other surface markers and its site of acquisition within the body and its significance for cell homing have become intriguing questions of importance. This information has been discussed from the viewpoint of its applicability to autoimmune diseases as well as to cessation of inflammatory reactions that may be mediated by lymph node cells.