Retinyl esters are hydrolyzed in early endosomes of J774 macrophages

The aim of the current study was to identify the subcellular compartment(s) responsible for the hydrolysis of chylomicron remnant-retinyl esters, in J774.1 cells. The cells were incubated with medium containing chylomicron remnant [(3)H]retinyl ester. Subcellular fractionation was used to separate early endosomes from late endosomes and lysosomes. About 26% and 80% of the total [(3)H]retinyl esters taken up by the J774 cells were hydrolyzed after 10 min and 60 min of chase, respectively. In the early endosomes, there was a 4-fold increase of radioactivity (nearly all radioactivity associated with retinyl esters) during the first 10 min of chase. The radioactivity in early endosomes was reduced by 43% from 10 min to 60 min and remained stable from 60 to 180 min of chase. From 10 to 60 min the amount of retinol in early endosomes increased from 44% to 82%, indicating an efficient hydrolysis of retinyl esters. Less than 10% and 5% of the total cell-associated radioactivity was found in the late endosomes and lysosomes during the entire chase period. In the chase medium, 84% of the total amount of retinoid released during 180 min was present already after 10 min. The percentage of retinol in the medium increased from 25% to 82% during incubation from 10 to 180 min. These data suggest that retinyl esters are endocytosed together with the chylomicron remnant particle and hydrolyzed in the early endosomes in this cell model.-Hagen, E., A. M. Myhre, T. E. Tjelle, T. Berg, and K. R. Norum. Retinyl esters are hydrolyzed in early endosomes of J774 macrophages.     

LPS from Actinobacillus actinomycetemcomitans and production of nitric oxide in murine macrophages J774

Nitric oxide (NO) plays a complex role in the modulation of the inflammatory response, having either a pro-inflammatory or a protective role. Actinobacillus actinomycetemcomitans is considered an important etiological agent in localized juvenile periodontitis. We have studied the effect of lipopolysaccharide (LPS) extracted from this periodontopathogenic bacterium on NO synthesis in an in vitro murine macrophage system. LPS from A. actinomycetemcomitans induced a significant production of NO even at concentrations as low as 1 ng/ml, whereas LPS from E. coli had to be added in concentrations of 100 ng/ml to obtain similar effects. Production of NO was blocked by NG-nitro-L-arginine methylester, and pre-treatment of LPS from A. actinomycetemcomitans with polymyxin B abolished the production of NO, while prostaglandin E2 enhanced the synthesis of NO.     

In vitro fusion of phagosomes with different endocytic organelles from J774 macrophages

We describe novel biochemical and electron microscopy assays to investigate in vitro fusion of latex bead phagosomes with three different endocytic organelle fractions from J774 macrophages. After formation, early phagosomes fuse avidly with early and late endosomes and for a longer period of time with lysosomes, but they subsequently become fusion-incompetent. The fusion of early, but not late, phagosomes with all three endocytic fractions could be significantly stimulated by Rab5. In contrast to other cell types investigated, this Rab is uniquely enriched on both early and late endosomes in J774 macrophages. Moreover, exogenous Rab5 stimulates homotypic fusion between both sets of organelles. This was shown by a quantitative electron microscopy fusion assay that can directly assay fusion between any combination of morphologically defined organelles. By the same approach, we discovered an unexpected Rab5-stimulatable fusion between early and late endosomes in J774, but not in BHK cells. Thus, in J774 cells both Rab5 and the endocytic pathway seem to have evolved additional functions not yet seen in nonphagocytic cells.     

Pyrimidinoceptor-mediated potentiation of inducible nitric-oxide synthase induction in J774 macrophages. Role of intracellular calcium

We have shown that, in murine J774 macrophages, binding of UTP to pyrimidinoceptors stimulates phosphoinositide (PI) breakdown and an increase in [Ca2+]i. In this study, UTP modulation of the expression of inducible nitric-oxide synthase (iNOS) was investigated. Although UTP alone had no effect, stimulation of J774 cells with a combination of UTP (10-300 microM) and LPS (0.1-3 microgram/ml) resulted in a potentiated increase in nitrite levels. In parallel, the amount of iNOS protein induced by LPS was also potentiated by UTP treatment. The UTP potentiating effect was attenuated by U73122, suggesting involvement of the downstream signaling pathways of phosphatidylinositide turnover. The tyrosine kinase inhibitor genistein inhibited both the LPS-induced nitrite response and the UTP potentiation. Conversely, two protein kinase C inhibitors, Ro 31-8220 and Go 6976, and a phosphatidylcholine-specific phospholipase C inhibitor, D609, inhibited LPS-stimulated nitrite induction, but did not affect the potentiating effect of UTP, which was also unaffected by pretreatment with phorbol 12-myristate 13-acetate for 8 h. Furthermore, the UTP-induced potentiation was abolished by BAPTA/AM or KN-93 (a selective inhibitor of Ca2+/calmodulin-dependent protein kinase (CaMK)). Nitrite potentiation and iNOS induction were prominent when UTP was added simultaneously with LPS, with the potentiating effect being lost when UTP was added 3 h after treatment with LPS. Pyrrolidinedithiocarbamate (3-30 microM), an inhibitor of NF-kappaB, caused a concentration-dependent reduction in the nitrite response to LPS and UTP. In electrophoretic mobility shift assays, LPS produced marked activation of NF-kappaB and AP-1, which was potentiated by UTP. LPS-induced degradation of IkappaB-alpha as well as the phosphorylation of IkappaB-alpha were also increased by UTP. Moreover, the UTP-potentiated activation of NF-kappaB and AP-1 and the degradation and phosphorylation of IkappaB-alpha were inhibited by KN-93. Taken together, these data demonstrate that nucleotides, especially UTP, can potentiate the LPS-induced activation of NF-kappaB and AP-1 and of iNOS induction via a CaMK -dependent pathway and suggest that the UTP-dependent up-regulation of iNOS may constitute a novel element in the inflammatory process.     

The role of prostaglandin E2 and nitric oxide in cell death in J774 murine macrophages

We investigated the role of prostaglandin E2 (PGE2) and its interactions with nitric oxide (NO) on cell death and NO-mediated cytotoxicity in the murine macrophage cell line J774. Stimulation of the J774 cells with lipopolysaccharide together with interferon-gamma resulted in a dose-dependent cytotoxicity and production of PGE2 and NO, measured as nitrite. Our results showed a linear correlation between PGE2 release and cytotoxicity. The cyclooxygenase (COX) inhibitor indomethacin completely inhibited PGE2 biosynthesis, without affecting NO production or cell death. This supports previous reports suggesting that overproduction of endogenous PGE2 is mainly the consequence of cell death and does not cause it. In contrast, the NO synthase inhibitor N(omega)-monomethyl-L-arginine (L-NMMA) gave a significant, though incomplete suppression of NO release and cell death. This points to the presence of other cytotoxic factors besides NO. To evaluate the toxic effect solely due to NO, macrophages were exposed to the NO donor S-nitroso-N-acetyl-D,L-penicillamine (SNAP). Incubation with SNAP also resulted in a concentration-dependent cell injury and PGE2 production. When exogenously added, PGE2 protected against SNAP-mediated cytotoxicity and simultaneously increased PGE2 release into the medium, without inducing COX-2. The cytoprotection and the stimulation of PGE2 release were both reversed by indomethacin. In conclusion, PGE2 biosynthesis may represent a mechanism by which inflammatory macrophages protect themselves against the cytotoxic effects of NO.     

Prostaglandins prevent inducible nitric oxide synthase protein expression by inhibiting nuclear factor-kappaB activation in J774 macrophages

We report on the establishment of a transgenic mouse line expressing Cre recombinase under control of the c-kit promoter. Expression of Cre recombinase was only observed in late spermatogenesis and oogenesis, however, Cre-mediated deletion of floxed gene segments occurred at this stage as well as in early embryogenesis. As a consequence of this, a chimeric distribution of loxed alleles was found in a large fraction of these mice. The chimerism was very homogeneous in different organs and tissues of the same individual but varied between different individual offspring. The potential uses for this mouse line are discussed.     

Effect of cycloheximide on the expression of LPS-inducible iNOS, IFN-beta, and IRF-1 genes in J774 macrophages

The effect of cycloheximide (CHX) on the gene expression for inducible NO synthase (iNOS), interferon (IFN)-beta, and IFN regulatory factor (IRF)-1 was examined in LPS-stimulated J774 macrophages. LPS caused increased expression of mRNAs specific for iNOS, IFN-beta, and IRF-1 with different kinetics. Addition of CHX resulted in inhibition of the LPS-induced iNOS gene expression and parallel decrease in NO production. In contrast, expression of IFN-beta and IRF-1 genes in response to LPS was potentiated in the presence of CHX. These results indicate that de novo protein synthesis is not required for IFN-beta and IRF-1 gene expression and that ongoing protein synthesis including IFN-beta and IRF-1 may be involved in the induction process of iNOS in mouse macrophages.     

Hemolysin-positive enteroaggregative and cell-detaching Escherichia coli strains cause oncosis of human monocyte-derived macrophages and apoptosis of murine J774 cells

Infection of human monocyte-derived macrophages (HMDM) and J774 cells (murine macrophage cell line) with several enteroaggregative and cytodetaching Escherichia coli (EAggEC and CDEC, respectively) strains demonstrated that some strains could induce macrophage cell death accompanied by release of lactate dehydrogenase activity and interleukin 1beta (IL-1beta) into culture supernatants. The mode of cell death differed in the two types of macrophages. Damage to macrophage plasma membrane integrity without changes in nuclear morphology resulted in cytolysis of HMDM. This mechanism of cell death has been previously described for virulent Shigella infection of HMDM and is termed oncosis. In contrast, infection of J774 cells by EAggEC and CDEC strains resulted in apoptosis. The presence of alpha-hemolysin (Hly) in EAggEC and CDEC strains appears to be critical for both oncosis in HMDM and apoptosis in J774 cells. Bacteria lacking Hly, including Hly- EAggEC strains as well as enterotoxigenic, enteropathogenic, and enterohemorrhagic E. coli strains, behaved like avirulent Shigella flexneri in that the macrophage monolayers were intact, with no release of lactate dehydrogenase activity or IL-1beta into the culture supernatants.     

Lysosomal enzyme trafficking between phagosomes, endosomes, and lysosomes in J774 macrophages. Enrichment of cathepsin H in early endosomes

In this study we take advantage of recently developed methods using J774 macrophages to prepare enriched fractions of early endosomes, late endosomes, dense lysosomes, as well as phagosomes of different ages enclosing 1-micron latex beads to investigate the steady state distribution and trafficking of lysosomal enzyme activity between these organelles. At steady state these cells appear to possess four different cellular structures, in addition to phagolysosomes, where acid hydrolases were concentrated. The first site of hydrolase concentration was the early endosomes, which contained the bulk of the cellular cathepsin H. This enzyme was acquired by phagosomes significantly faster than the other hydrolases tested. The second distinct site of lysosomal enzyme concentration was the late endosomes which contain the bulk of cathepsin S. The third and fourth large pools of hydrolases were found in two functionally distinct types of dense lysosomes, only one of which was found to be secreted in the presence of chloroquine or bafilomycin. Among this secreted pool was soluble furin, generally considered only as a membrane-bound trans-Golgi network resident protein. Thus, the organelles usually referred to as "lysosomes" in fact encompass a growing family of highly dynamic but functionally distinct endocytic organelles.     

Heterocycle-containing bisphosphonates cause apoptosis and inhibit bone resorption by preventing protein prenylation: evidence from structure-activity relationships in J774 macrophages

Recent evidence suggests that bisphosphonates (BPs) may inhibit bone resorption by mechanisms that lead to osteoclast apoptosis. We have previously shown that BPs also reduce cell viability and induce apoptosis in the macrophage-like cell line J774. To determine whether BPs inhibit osteoclast-mediated bone resorption and affect J774 macrophages by the same molecular mechanism, we examined the potency to reduce J774 cell viability of pairs of nitrogen-containing BPs that differ slightly in the structure of the heterocycle-containing side chain but that differ markedly in antiresorptive potency. In all cases, the most potent antiresorptive BP of each pair also caused the greatest loss of J774 viability, while the less potent antiresorptive BPs were also less potent at reducing J774 cell viability. Similarly, the bisphosphinate, phosphonoalkylphosphinate and monophosphonate analogs of BPs (in which one or both phosphonate groups are modified, giving rise to much less potent or inactive antiresorptive agents) were much less potent or inactive at reducing J774 cell viability. Thus, the structure-activity relationships of BPs for inhibiting bone resorption match those for causing loss of cell viability in J774 cells, indicating that BPs inhibit osteoclast-mediated bone resorption and reduce J774 macrophage viability by the same molecular mechanism. Loss of J774 cell viability after treatment with BPs was associated with a parallel increase in apoptotic cell death. We have recently proposed that nitrogen-containing BPs reduce cell viability and cause J774 apoptosis as a consequence of inhibition of enzymes of the mevalonate pathway and hence loss of prenylated proteins. In this study, the BPs that were potent inducers of J774 apoptosis and potent antiresorptive agents were also found to be effective inhibitors of protein prenylation in J774 macrophages, whereas the less potent BP analogs did not inhibit protein prenylation. This provides strong evidence that BPs with a heterocyclic, nitrogen-containing side chain, such as risedronate, inhibit osteoclast-mediated bone resorption and induce J774 apoptosis by preventing protein prenylation.     

Inhibition of ornithine decarboxylase potentiates nitric oxide production in LPS-activated J774 cells

We have examined whether modulation of the polyamine biosynthetic pathway, through inhibition by alpha-difluoromethylornithine (DFMO) of the rate limiting enzyme, ornithine decarboxylase (ODC), modulates NO synthesis in J774 macrophages. DFMO potentiated LPS-stimulated nitrite production in both a concentration- and time-dependent manner, increasing nitrite levels by 48+/-5% at 10 mM. This effect was observed in cells pre-treated with DFMO for 24 h prior to stimulation with LPS. Addition of DFMO 12 h after LPS failed to potentiate LPS-induced nitrite production. Supplementation of the culture medium with horse serum (10%) in place of foetal calf serum (10%) caused no significant change in either LPS-induced nitrite production or in the ability of DFMO (10 mM) to potentiate LPS-induced NO synthesis. Metabolism of L-[3H]arginine to L-[3H]citrulline by partially purified inducible nitric oxide synthase (iNOS) was not significantly altered by either DFMO (1-10 mM) or by putrescine (0.001-1 mM), spermidine (0.001-1 mM) or spermine (0.001-1 mM). iNOS activity was also unaffected by 1 mM EGTA but was markedly attenuated (70+/-0.07%) by L-NMMA (100 microM). Pre-incubation of cells with DFMO (10 mM; 24 h) prior to activation with LPS resulted in enhanced (approximately 2 fold) iNOS protein expression. These results show that DFMO potentiates LPS-induced nitrite production in the murine macrophage cell line J774. Since the only known mechanism of action of DFMO is inhibition of ODC, and thus polyamine biosynthesis, we conclude that expression of iNOS can be critically regulated by endogenous polyamines.     

Cellular localization of rheumatoid factor idiotypes

the stimulation of lymphocytes from rheumatoid arthritis patients with pokeweed mitogen produces a large number of plasma cells that express the dominant cross-reactive idiotype previously found on monoclonal IgM anti-gamma-globulins from patients with mixed cryoglobulinemia. Similar experiments with the cells of normal individuals show a much lower percentage of these cells with a lower intensity of staining with the fluorescent reagents utilized. Efforts to demonstrate rheumatoid factor in the same cells by fluorescent staining with aggregated gammaglobulin were entirely unsuccessful. This also proved to be the case for pokeweed mitogen-stimulated cells from the mixed cryoglobulinemic patients with large amounts of rheumatoid factor in the serum, despite high percentages of cells expressing the cross-reactive idiotype and also the individual idiotype. On the other hand, native plasma cells from synovial tissue of rheumatoid arthritis patients showed some cells with both the cross-reactive idiotype and aggregate staining. The exact reason for the failure to demonstrate rheumatoid factor by aggregate staining in pokeweed mitogen-stimulated cultures remains to be determined despite considerable effort to resolve the problem. The most likely possibility is that these plasma cells are relatively immature and have not accumulated polymeric IgM in their cytoplasm to the degree seen in synovial tissue plasma cells. The monomeric forms are readily recognized by the antiidiotypic antibodies and these reagents appear to be of particular value for cellular studies of this type.     

5,6-Dihydroxyindole-2-carboxylic acid, a diffusible melanin precursor, is a potent stimulator of lipopolysaccharide-induced production of nitric oxide by J774 macrophages

Pre-incubation of J774 murine macrophages with 5,6-dihydroxyindole-2-carboxylic acid (DHICA), a diffusible intermediate in the biosynthesis of eumelanins, leads to a marked increase in the levels of nitric oxide (NO) produced by lipopolysaccharide (LPS)-induced NO-synthase (iNOS). The effect varies with DHICA concentration being maximum at a concentration of 1 x 10(-6)M, and is suppressed by the NOS inhibitor NG-monomethyl-L-arginine (L-NMMA). No stimulation is observed when macrophages are exposed to DHICA after activation with LPS, indicating that the indole does not affect the catalytic activity of iNOS. These results point to a hitherto unrecognized role of DHICA as a chemical messenger mediating interaction between active melanocytes and macrophages in epidermal inflammatory and immune responses.     

Cellular uptake and localization of liposomal-methylphosphonate oligodeoxynucleotides

Nuclease digestion and intracellular delivery are major factors limiting the potential use of oligodeoxynucleotides as antisense molecules. Structural analogues of phosphodiester oligodeoxynucleotides, such as phosphorothioates and methylphosphonates, are resistant to nuclease degradation and can still bind to their mRNA targets. However, their limited ability to escape from the endosomal/lysosomal compartments and reach the intracellular sites of action have dampened their potential clinical application. To circumvent this problem we have incorporated methylphosphonate oligodeoxynucleotides into liposomes. We found that the level of uptake of liposome-incorporated methylphosphonate oligodeoxynucleotides is time and concentration dependent. Maximal up take occurred at 8 h when 4-8 microM liposome-incorporated methylphosphonate oligodeoxynucleotides was added. Approximately 50% of liposome-incorporated methylphosphonate oligodeoxynucleotides were retained in cells after 24 h of incubation. Using fluorescent microscopy, intracellular fluorescence could be seen within 2.5 h of incubation. Diffused fluorescence was found throughout the cytoplasm, suggesting that the liposome-incorporated methylphosphonate oligodeoxynucleotides were not confined within the endosomal/lysosomal structures. We conclude that liposomes can effectively deliver methylphosphonate oligodeoxynucleotides to the cytoplasm, which is the major intracellular site of action for translational arrest.     

Role of the purinergic P2Z receptor in spontaneous cell death in J774 macrophage cultures

J774 mouse macrophages express an ionotropic receptor gated by extracellular ATP. Activation of this receptor, currently named purinergic P2Z, causes transmembrane ion fluxes, plasma membrane depolarization, cell swelling and eventual cell death. The physiological role of this receptor is as yet unknown. In the present report we show that macrophage cell clones that hypo-express the P2Z receptor showed a very low degree of spontaneous cell death in culture, while hyper-expressing clones were exceedingly susceptible to cell death. To further support a role for ATP receptors in spontaneous cell death, addition to the macrophage cell cultures of oxidized ATP, a selective inhibitor of ionotropic purinergic receptors, or the ATP-hydrolysing enzyme apyrase, also reduced spontaneous death.     

Cellular localization of uridine 5'-diphosphate-N-acetyl-D-glucosamine oxidoreductase activity in Citrobacter freundii

The uridine 5'-diphosphate-N-acetyl-d-glucosamine oxidoreductase activity of Citrobacter freundii ATCC 10053 was found to be located in the soluble cytoplasmic fraction of lysed spheroplasts.     

Cellular localization and expression of the serotonin transporter in mouse brain

The high-affinity serotonin (5-HT) transporter (5-HTT) plays an important role in the removal of extracellular serotonin, thereby modulating and terminating the action of this neurotransmitter at various pre- and post-synaptic serotonergic receptors and heteroreceptors. In order to characterize the anatomical distribution of the 5-HTT in mouse brain, in situ hybridization histochemistry using 35S-labeled riboprobes was performed. These results were compared with 5-HTT binding site distribution as evaluated by [125I]RTI-55 autoradiography. High levels of 5-HTT mRNA were detected in all brain stem raphe nuclei, with variations in labeling among the various subnuclei. Those brain areas known to possess serotonergic cell bodies stained intensely for both 5-HTT mRNA and 5-HTT binding sites. In contrast to previous findings in rat brain, the highest densities of 5-HTT sites were found in areas outside the raphe complex, particularly in the substantia nigra, globus pallidus, and superior colliculi.