Ligand-specific selection of MHC class II-restricted thymocytes in fetal thymic organ culture

Positive and negative selection of thymocytes is determined by the specificity of the TCR and signaling through its associated molecules. We have studied selection of thymocytes bearing a MHC class II-restricted TCR using fetal thymic organ culture. This system allows the addition of peptides to the already diverse panoply of endogenous peptide ligands and is useful for analyzing ligand-specific negative selection of CD4 single positive (CD4SP) thymocytes. The data reveal that the ability of a given ligand to mediate negative selection is related to its dissociation rate from the TCR. We find that negative selection is very sensitive, and only the weakest ligand that we can identify fails to induce negative selection. None of the numerous peptides tested were able to induce an increase in CD4SP thymocytes. In addition, the ligands that induce negative selection of CD4SP thymocytes also cause an increase in numbers of CD8SP thymocytes bearing high levels of the class II-restricted TCR. Although these cells have a cell surface phenotype consistent with positive selection, they most likely represent cells in the process of negative selection. Further analysis reveals that these cells are not induced by these ligands in intact adult animals and that their induction is probably only revealed in the organ culture system.     

Thymocytes stimulate metabolism of arachidonic acid in rat thymic epithelial cells

Arachidonic acid metabolites play an important role in the development of T cells in the thymus. In the normal animal, prostaglandin levels in the thymus are significantly higher than in plasma. Herein, we have studied the regulation of arachidonic acid metabolism using the thymic endocrine epithelial cell line, TEA3A1, and thymocytes. We have found that TEA3A1 cells, but not thymocytes, produced prostaglandins and thromboxanes. We have also found that thymocytes could stimulate the production of arachidonic acid metabolites in TEA3A1 cells when both cells were cocultured. The strongest stimulation was observed when TEA3A1 cells were cocultured with thymocyte subpopulations either negative for OX8 or W3/25 functional surface markers (either double-negative or single-positive thymocytes). Furthermore, cell-cell contact seems to be absolutely required for the activation of arachidonic acid metabolism in TEA3A1 cells. The study presented here describes the existence of a novel regulatory mechanism of arachidonic acid metabolism which may play an important role in the development of T cells in the thymus.     

Further differentiation of murine double-positive thymocytes is inhibited in adenosine deaminase-deficient murine fetal thymic organ culture

Murine fetal thymic organ culture (FTOC) was used to investigate the mechanism by which a lack of adenosine deaminase (ADA) leads to a failure of T cell production in the thymus. We previously showed that T cell development was inhibited beginning at the CD4(-)CD8(-)CD25(+)CD44(low) stage in ADA-deficient FTOC initiated at day 15 of gestation when essentially all thymocytes are CD4(-)CD8(-). In the present study, we asked whether thymocytes at later stages of differentiation would also be sensitive to ADA inhibition by initiating FTOC when substantial numbers of CD4(+)CD8(+) thymocytes were already present. dATP was highly elevated in ADA-deficient cultures, and the recovery of alphabeta TCR(+) thymocytes was inhibited by 94%, indicating that the later stages of thymocyte differentiation are also dependent upon ADA. ADA-deficient cultures were partially rescued by the pan-caspase inhibitor carbobenzoxy-Val-Ala-Asp-fluoromethyl ketone or by the use of apoptotic protease-activating factor-1-deficient mice. Rescue was even more dramatic, with 60- to >200-fold increases in the numbers of CD4(+)CD8(+) cells, when FTOC were performed with an inhibitor of adenosine kinase, the major thymic deoxyadenosine phosphorylating enzyme, or with bcl-2 transgenic mice. dATP levels were normalized by treatment with either carbobenzoxy-Val-Ala-Asp-fluoromethyl ketone or an adenosine kinase inhibitor, but not in cultures with fetal thymuses from bcl-2 transgenic mice. These data suggest that ADA deficiency leads to the induction of mitochondria-dependent apoptosis as a consequence of the accumulation of dATP derived from thymocytes failing the positive/negative selection checkpoint.     

Effect of interleukin 2 on fetal thymocytes in organ cultures: generation of lymphokine-activated killer cells

Cells with cytolytic activity can be detected in mouse fetal thymic lobes cultured in the presence of interleukin 2 for 6 days. The lymphokine-activated killer cells from 14-day fetal thymic lobes are relatively resistant to treatment with anti-Ly-2 antibody and complement (CD8-) but sensitive to anti-Thy-1 and complement treatment (Thy-1+). They display major histocompatibility complex-unrestricted killing, lysing both syngeneic and allogeneic tumor cells, but will not lyse human xenogenic target cells. Low levels of cytotoxic activity can be detected in thymic lobes from Day 12-13 embryos and this activity increases with embryonic age. While the events which lead to the inhibition of normal maturation of fetal thymocytes by inclusion of IL-2 in fetal thymus organ cultures are unknown, the appearance of cytotoxic cells raises the question of whether they are involved in the normal intrathymic cell death process.     

Maternal aspirin administration inhibits pulmonary arachidonic acid metabolism in fetal rabbits

Pregnant rabbits were treated with aspirin (100 mg/kg/day) for ten consecutive days during the last third of the pregnancy. The ability of isolated perfused fetal rabbit lungs to metabolize arachidonic acid (AA) was studied on the 31^st day of the pregnancy. After the infusion of ¹⁴C-AA (100 nmol) into the pulmonary circulation about 10 % of the radioactivity was found in the nonrecirculating perfusion effluent and about 80 % was incorporated into the lung lipids. Aspirin pretreatment of the rabbits inhibited the formation of AA metabolites in the lungs of their fetuses. The inhibition was clear when the metabolites of AA were extracted from the perfusion effluent at pH 7.4 (mainly lipoxygenase products) but a slight inhibition was also seen in the amounts of some metabolites extracted at pH 4.5 (cyclo-oxygenase products). When aspirin (1 mM) was infused simultaneously with AA into the pulmonary circulation the inhibition of AA metabolism was nearly complete. Aspirin pretreatment of the pregnant rabbits caused a slight increase in the amount of¹⁴C-AA incorporated into some of the phospholipid and neutral lipid fractions of the perfused fetal lungs. Aspirin pretreatment clearly inhibited the TXB₂ formation during clotting in the blood of maternal rabbits but not significantly in the blood of their fetuses.     

The metabolism of arachidonic acid in isolated perfused fetal and neonatal rabbit lungs

The developmental pattern of fetal and neonatal rabbit lungs to metabolize arachidonic acid (AA) to different cyclo-oxygenase products was studied in isolated rabbit lungs, which were perfused with Krebs bicarbonate buffer. 14C-AA (66 nmol) was injected into the pulmonary circulation and the nonrecirculating perfusion effluent was collected for four minutes. About ten per cent of the injected radioactivity was found in the 0-4 min perfusion effluent. The metabolites of AA in the effluent were analyzed by thin layer chromatography. The major metabolites of AA were PGE2 and its 15-keto-derivates, but also PGF2 alpha and its 15-keto-derivates, TXB2 and 6-keto-PGF1 alpha were found in the effluent. The most drastic developmental change was the increase in the amount of 15-keto-metabolites of PGE2 from late fetal period to the lungs of one day old rabbits (1.8 fold increase between birth and first postnatal day). Smaller changes were detected in the amounts of other cyclo-oxygenase products.     

The metabolism of arachidonic acid in isolated perfused fetal and neonatal rabbit lungs

The developmental pattern of fetal and neonatal rabbit lungs to metabolize arachidonic acid (AA) to different cyclo-oxygenase products was studied in isolated rabbit lungs, which were perfused with Krebs bicarbonate buffer. ¹⁴C-AA (66 nmol) was injected into the pulmonary circulation and the nonrecirculating perfusion effluent was collected for four minutes. About ten per cent of the injected radioactivity was found in the 0–4 min perfusion effluent. The metabolites of AA in the effluent were analyzed by thin layer chromatography. The major metabolites of AA were PGE₂ and its 15-keto-derivates, but also PGF_2α and its 15-keto-derivates, TXB₂ and 6-keto-PGF_1α were found in the effluent. The most drastic developmental change was the increase in the amount of 15-keto-metabolites of PGE₂ from late fetal period to the lungs of one day old rabbits (1.8 fold increase between birth and first postnatal day). Smaller changes were detected in the amounts of other cyclo-oxygenase products.     

Diacylglycerol metabolism and arachidonic acid release in human fetal membranes and decidua vera

Diacylglycerol lipase activity has been demonstrated in human fetal membranes and decidua vera tissues. The specific activity of the enzyme is highest in the microsomal fraction of decidua vera tissue. The acylester bond at the sn-1 position of 1,2-diacyl-sn-glycerol is hydrolyzed followed by release of the fatty acid at the sn-2 position. The diacylglycerol lipase activity present in the microsomal fraction of decidua vera tissue hydrolyzes preferentially a diacylglycerol containing an arachidonoyl group in the sn-2 position. Monoacylglycerol lipase activity was also demonstrated in these tissues. The specific activity of monoacylglycerol lipase was significantly greater than that of diacylglycerol lipase and catalyzed preferentially the hydrolysis of monoacylglycerols containing an arachidonyl group in the sn-2 position. Based on the subcellular distribution and the differential effects of various inhibitors, we suggest that the monoacylglycerol lipase and diacylglycerol lipase in decidua vera tissue are 2 distinct enzymes. Diacylglycerol kinase specific activity was examined also and was found to be 4-5 times greater in amnion than in either chorion laeve or decidua vera. The importance of diacylglycerol metabolism in the mechanism of arachidonic acid release and prostaglandin biosynthesis is discussed.     

Correlated metabolism of proteoglycans and hyaluronic acid in bovine cartilage organ cultures

Proteoglycans exist in cartilage as complexes in which many proteoglycan molecules are bound to a central filament of hyaluronic acid. Many studies have investigated changes taking place in proteoglycan monomer structure during cartilage catabolism usually under the assumption that hyaluronic acid is a relatively inert metabolic component of the complex. In this paper we present organ culture data supporting a new hypothesis that the catabolism of proteoglycans and hyaluronic acid are coordinately regulated by chondrocytes. The data indicates that: 1) newly synthesized hyaluronate and proteoglycan maintain a nearly constant ratio, almost identical to that existing for the total chemical amounts of these two components in cartilage tissue; 2) these two components are catabolized with virtually identical kinetics; and 3) this catabolic relationship in vitro reflects the loss of hyaluronate and proteoglycans from native, undissociated aggregates as isolated from the tissue. We conclude that hyaluronate catabolism is an integral part of the overall mechanism of proteoglycan resorption in cartilage and that further understanding of this process may be key to the elucidation of the regulatory pathways for proteoglycan resorption in health and disease.     

Stimulation of arachidonic acid metabolism in primary cultures of osteoblast-like cells by hormones and drugs

The effects of parathyroid hormone (PTH), dihydroxycholecalciferol (1,25-(OH)₂ D₃), thrombin, epidermal growth factor (EGF) and 12-o-tetradecanoylphorbol-13-acetate (PMA) on the biosynthesis and release of arachidonic acid metabolites were studied in primary cultures of osteoblast-like cells isolated from 18-day-old chick embryo calvaria. Cells were labelled with (¹⁴C)-arachidonic acid for 30 h. The radioactive eicosanoids were extracted from the cell culture media after a further 30 h stimulation period and analysed on a PRP-1 column by HPLC. The radioactive products were characterized by co-elution of (³H) standard prostanoids. Osteoblasts showed a basal release of the prostanoids 6-keto-PGF_1α, TXB₂, PGF_2α, PGE₂, PGD₂ and PGB₂, the latter being the most abundant one. Indomethacin (10⁻⁵ M) effectively inhibited the basal release, but not that of an as yet unidentified compound. The release of prostanoids was stimulated by PTH (2 U/ml), thrombin (0.4 NIH/ml), EGF (50 ng/ml) and PMA (25 ng/ml), the latter being by far the most potent one. 1,25-(OH)₂D₃ was found to slightly inhibit the prostanoid release. These results indicate: (1) primary cultures of osteoblasts synthesize several prostaglandins, thromboxane B₂ and one unidentified product. (2) the action on bone of PTH and the various drugs tested may be, at least partly, mediated by an increased prostaglandin production by osteoblasts. Clearly this does not apply to 1,25-(OH)₂D₃.     

Stimulation of arachidonic acid metabolism in primary cultures of osteoblast-like cells by hormones and drugs

The effects of parathyroid hormone (PTH), dihydroxycholecalciferol (1,25-(OH)2 D3), thrombin, epidermal growth factor (EGF) and 12-o-tetradecanoylphorbol-13-acetate (PMA) on the biosynthesis and release of arachidonic acid metabolites were studied in primary cultures of osteoblast-like cells isolated from 18-day-old chick embryo calvaria. Cells were labelled with (14C)-arachidonic acid for 30 h. The radioactive eicosanoids were extracted from the cell culture media after a further 30 h stimulation period and analysed on a PRP-1 column by HPLC. The radioactive products were characterized by co-elution of (3H) standard prostanoids. Osteoblasts showed a basal release of the prostanoids 6-keto-PGF1 alpha, TXB2, PGF2 alpha, PGE2, PGD2 and PGB2, the latter being the most abundant one. Indomethacin (10(-5) M) effectively inhibited the basal release, but not that of an as yet unidentified compound. The release of prostanoids was stimulated by PTH (2 U/ml), thrombin (0.4 NIH/ml), EGF (50 ng/ml) and PMA (25 ng/ml), the latter being by far the most potent one. 1,25-(OH)2D3 was found to slightly inhibit the prostanoid release. These results indicate: (1) primary cultures of osteoblasts synthesize several prostaglandins, thromboxane B2 and one unidentified product. (2) the action on bone of PTH and the various drugs tested may be, at least partly, mediated by an increased prostaglandin production by osteoblasts. Clearly this does not apply to 1,25-(OH)2D3.     

Development of fetal thymocytes in organ culture: effect of corticosteroids.

Corticosteroids affect the development of fetal foregut-derived organs in which epithelial-mesenchymal interactions are associated with the developmental process. The thymus is one such organ and is profoundly sensitive to corticosteroids when mature. In this study corticosterone (CS) effects on fetal thymocyte development were investigated using a fetal thymus organ culture system which allows the growth, differentiation, and function of developing thymocytes to be monitored in vitro. CS inhibited, but did not block growth of fetal thymocytes, although the appearance of mature thymocytes was inhibited, similar to previously reported effects of interleukin 2 (IL2). CS enhanced the proportion of Mac1+, Ia+ and FcR+ cells and maintained high levels of IL2 receptor (IL2R) positive immature cells. Functional cytotoxic cells were detected in CS-treated organ cultures which expressed a Thy 1-, CD8- phenotype, atypical for thymus derived killer cells. While this cytotoxicity may be stimulated by CS, it could simply be due to a relative depletion of the main pool of thymocytes. These cytotoxic cells may have a role in directing apoptotic mechanisms occurring during thymocyte development.     

Neuro-epithelial bodies in organ cultures of fetal rabbit lungs

Lung explants from fetal rabbit at the late glandular stage of development (20 days' gestation) and near term (31 days' gestation) were maintained in organ culture for up to 22 days. They were studied by light and electron microscopy to determine whether neuro-epithelial bodies (NEB) of the lung retain structural integrity in vitro. Cultured NEB retained argyrophilia and specific amine fluorescence after formaldehyde condensation. Their ultrastructural morphology showed some differences from that of uncultured NEB: the terminal axons had degenerated and the secretory granules (dense-core vesicles, DCV) were slightly larger, more pleomorphic, more electron-dense, and redistributed throughout the cytoplasm rather than being confined chiefly to the basal regions. These changes, together with hypertrophy of Golgi zones, suggest increased synthesis and storage of secretory products in the DCV during culture. In NEB from near-term explants cultured for 7 days and incubated with reserpine, the core of DCV decreased in size and electron-density and became finely granular, a sign of amine release. Ca++ ionophore No. A-23187, also, induced changes in the ultrastructure of DCV, suggesting that the secretory process in lung neuro-endocrine cells, as in other secretory cells, is Ca++-dependent.     

The metabolism of arachidonic acid to an antiaggregatory compound in isolated lungs of fetal and neonatal rabbits

The developmental pattern of fetal and neonatal rabbit lungs to generate an antiaggregatory compound from arachidonic acid (AA) was studied in isolated rabbit lungs, which were perfused with Krebs bicarbonate buffer. The antiaggregatory effect of the nonrecirculating perfussion effluent was tested by adding a small portion of the effluent to human platelet rich plasma (PRP) in a Born-type aggregometer before the aggregation was induced by ADP. The production of an antiaggregatory compound was minimal, when exogenous AA was not infused into the pulmonary circulation. When arachidonate (40 nmol/min) was infused into the pulmonary circulation of rabbits which were 1 day or 1 week old, the perfusion effluent significantly inhibited the ADP induced aggregation of PRP. Perfused lungs from fetal rabbits (gestation age 28–31 days) formed also an antiaggregatory compound fro AA, but the antiaggregatory effect was not as great as 1 day after birth. It seems that neonatal rabbit lungs metabolize AA more to an antiaggregatory compound than late fetal lungs. The fact that the AA induced production of an antiaggregatory compound is inhibited by simultaneous infusion of indomethacin favours the hypothesis that this antiaggregatory compound could he PGI₂.     

Inhibitory effect of murine recombinant IL-4 on thymocyte development in fetal thymus organ cultures

The effect of rIL-4 on early T cell development in fetal thymus organ culture was studied by two-color immunofluorescence and by proliferation assays. Addition of IL-4 to an organ culture of 14-day-old fetal BALB/c thymus resulted in a decreased cell yield (less than 15% as compared to the control culture) and in a complete inhibition of CD4+CD8+ thymocytes after 12 days of culture. This IL-4 effect was time dependent as shorter times (less than 6 days) resulted in a thymic development comparable to the untreated control. When thymuses at later stages of gestation were treated with IL-4, the inhibition was less pronounced. The inhibitory activity of IL-4 was abrogated by the anti-IL-4 mAb 11B11, ruling out the possibility of a contaminant. Organ cultured 14-day-old fetal thymocytes treated with IL-4 during 12 days responded vigorously to IL-2 alone and to IL-4 + PMA + ionomycin. Taken together, these results indicate that IL-4 affects the intrathymic T cell development at an early stage.     

An imbalance of arachidonic acid metabolism in asthma

Metabolism of arachidonic acid via the cyclooxygenase and lipoxygenase pathways was studied in washed platelets from normal and asthmatic subjects. The platelets were incubated with [1-¹⁴C] arachidonic acid and the metabolites formed were separated by high pressure liquid chromatography (HPLC). The platelets from asthmatic patients had a 40% decrease in cyclooxygenase-derived metabolites and a 70% increase in lipoxygenase-derived product when compared with metabolites generated by platelets from normal subjects. The ratio of cyclooxygenase to lipoxygenase products was 3.24 ± 0.26 for platelets from normal subjects, and 1.14 ± 0.15 with platelets from the asthmatic patients. These results indicate an imbalance of arachidonic acid metabolism in platelets from asthmatic patients.     

Effect of glucocorticoids on arachidonic acid metabolism and prostaglandin secretion by cultures of newborn rat heart cells

Summary We described that oxygen deprivation induced in cultures of heart muscle cells, biochemical events similar to those described in ischemic tissue: arachidonic acid liberation, loss of membrane phospholipids and increase in neutral lipids. Since glucocorticoids have been described to inhibit phospholipase activity and to exert beneficial effects during myocardial infarction, we studied in our experimental model the action of dexamethasone on the metabolism of arachidonic acid and on the synthesis of immunoreactive prostaglandins. Our results show that heart muscle cells produce prostaglandin E₂ and 6-keto-prostaglandin-F₁. This synthesis, inhibited by dexamethasone (70% inhibition), decreased after oxygen-deprivation (–45%). The effect of oxygen deprivation and dexamethasone (–60%) are not additive. Moreover, steroid treatment failed to counteract the loss of polyunsaturated fatty acids from the phospholipids, the increase in neutral lipids and the liberation of arachidonic acid induced by oxygen deprivation in muscle cells. These results may indicate that the cardiovascular effects of glucosteroids are not the consequence of a direct effect on heart metabolism at cellular level.     

Inhibitors of arachidonic acid metabolism eliminate the increase in cytosolic free calcium induced by the mitogen concanavalin A in rat thymocytes

Using inhibitors of arachidonic acid (AA) metabolism, the possible involvement of AA products in the generation of [Ca2+]i and the pHi rise induced by the mitogen concanavalin A (Con A) in rat thymocytes has been studied. The lipoxygenase inhibitor nordihydroguaiaretic acid (NDGA, 10 microM) and the phospholipase A2 inhibitor bromophenacyl bromide (10 microM) eliminated the [Ca2+]i signal induced by Con A; the cyclooxygenase blocker indomethacin also inhibited it. However, neither NDGA nor indomethacin suppressed the pHi rise stimulated by Con A. Exogenous AA induced an increase in [Ca2+]i but not in the pHi. These results indicate that AA metabolites, probably of the lipoxygenase pathway, take part in the generation of the [Ca2+]i response to the mitogen. In contrast, they appear not to be involved in the pHi rise evoked by Con A.