ATP acts as an agonist to promote stimulus-induced secretion of IL-1 beta and IL-18 in human blood.

Cultured monocytes and macrophages stimulated with LPS produce large quantities of proIL-1beta, but release little mature cytokine to the medium. The efficiency at which the procytokine is converted to its active 17-kDa species and released extracellularly is enhanced by treating cytokine-producing cells with a secretion stimulus such as ATP or nigericin. To determine whether this need for a secretion stimulus extends to blood, individual donors were bled twice daily for 4 consecutive days, and the collected blood samples were subjected to a two-step IL-1 production assay. LPS-activated blood samples generated cell-free IL-1beta, but levels of the extracellular cytokine were greatly increased by subsequent treatment with ATP or nigericin. Specificity and concentration requirements of the nucleotide triphosphate effect suggests a P2X(7) receptor involvement. Quantities of IL-1beta generated by an individual donor's blood in response to the LPS-only and LPS/ATP stimuli were relatively consistent over the 4-day period. Between donors, consistent differences in cytokine production capacity were observed. Blood samples treated with ATP also demonstrated enhanced IL-18 production, but TNF-alpha levels decreased. Among leukocytes, monocytes appeared to be the most affected cellular targets of the ATP stimulus. These studies indicate that an exogenous stimulus is required by blood for the efficient production of IL-1beta and IL-18, and suggest that circulating blood monocytes constitutively express a P2X(7)-like receptor.

The preclinical pharmacological profile of the potent and selective leukotriene B4 antagonist CP-195543.

CP-195543 [(+)-2-(3-benzyl-4-hydroxy-chroman-7-yl)-4-trifluoromethyl-benzoic acid] is a structurally novel, selective and potent leukotriene B4 (LTB4) receptor antagonist. In vitro CP-195543 inhibited [3H]LTB4 binding to high-affinity LTB4 receptors on human neutrophils (HN) and murine spleen membranes with IC50 values of 6.8 nM (Ki = 4.9 nM) and 37.0 nM (Ki = 26.9 nM), respectively. CP-195543 inhibited human and mouse neutrophil chemotaxis mediated by LTB4 with IC50 values of 2.4 nM and 7.5 nM, respectively. Evidence of noncompetitive antagonist effects on the HN high-affinity LTB4 receptor was obtained by Scatchard analysis of [3H]LTB4 binding to and chemotaxis of HN to LTB4. Scatchard analyses of [3H]LTB4 binding to low-affinity receptors on HN indicated that CP-195543 acted as a competitive antagonist at this receptor, and inhibition of LTB4-mediated CD11b up-regulation on HN was inhibited competitively by CP-195543 (pA2 = 7.66). In whole blood, CP-195543 also blocked CD11b up-regulation on HN (pA2 = 7.12) and murine neutrophils (pA2 = 7.06) with a similar potency. LTB4-mediated CD11b up-regulation on human monocytes and eosinophils in whole blood were inhibited by CP-195543 with IC50 values of 270 nM and 420 nM, respectively. CP-195543 at 10 microM failed to inhibit HN chemotaxis and CD11b up-regulation mediated through alternative (i.e., complement fragment 5a, interleukin-8, platelet-activating factor) G-protein-coupled chemotactic factor receptors. In vivo, after oral administration, CP-195543 blocked LTB4-mediated neutrophil infiltration in guinea pig and murine skin with ED50 values of 0.1 mg/kg and 2.8 mg/kg p.o., respectively. When administered in osmotic pumps, CP-195543 reduced the clinical symptoms and attendant weight loss in an IL-1-exacerbated murine model of collagen-induced arthritis with half-maximal effects associated with plasma drug levels of 0.4 to 0.5 microg/ml. Collectively these data provide evidence of the in vitro potency and in vivo efficacy of a novel LTB4 antagonist and support its clinical evaluation in a variety of inflammatory diseases in man.

Pharmacokinetics and pharmacodynamics of the leukotriene B4 receptor antagonist CP-105,696 in man following single oral administration.

AIMS: CP-105,696, (+)-1-(3S,4R)-[3-(4-phenylbenzyl)-4-hydroxy-chroman-7-yl] cyclopropane carboxylic acid is a potent, novel LTB4 receptor antagonist advanced to clinical trials to determine its efficacy in inflammatory diseases. The pharmacokinetics and pharmacodynamics of CP-105,696 were investigated in healthy male volunteers following oral administration of single doses of 5 to 640 mg. METHODS: Forty-eight subjects participated in a randomized, double-blind, parallel group study. Plasma and urine concentrations of CP-105,696 were determined at intervals after drug administration. As an indication of LTB4 receptor antagonism following oral administration of CP-105,696, the inhibiton of LTB4-induced upregulation of the neutrophil cell surface complement receptor (CR3), CD11b/CD18, was monitored at 4 h following drug administration using an ex vivo whole blood flow cytometry assay. RESULTS: Cmax and AUC(0, infinity) increased in a dose-related manner. Respective mean Cmax values were 0.54 to 30.41 microg ml(-1) following doses of 5 to 640 mg. Respective mean AUC(0, infinity) values were 1337 to 16819 microg ml(-1) h for the 40 to 640 mg dose groups. Plasma concentrations declined in a monoexponential manner, with terminal elimination half-lives ranging from 289 to 495 h. Group mean terminal elimination half-lives were dose-independent. Urinary excretion of unchanged drug accounted for < 1% of the administered dose. A linear relationship was observed between CP-105,696 plasma concentrations and inhibition of LTB4-mediated CD11b upregulation on human neutrophils in whole blood. CP-105,696 plasma concentrations of 5-6 microg ml(-1) were necessary to elicit a two-fold shift to the right of the LTB4 concentration response curve for CD11b upregulation. CONCLUSIONS: These studies demonstrate pharmacologically significant LTB4-receptor antagonism following a single dose of CP-105,696 and pharmacokinetics consistent with once-daily dosing.

trans-3-Benzyl-4-hydroxy-7-chromanylbenzoic acid derivatives as antagonists of the leukotriene B4 (LTB4) receptor.

The SAR of a series of 2-(7-chromanyl)benzoic acids has been investigated with the aim of identifying potent and selective LTB4 receptor antagonists that maintain potency in complex biological fluids. We found optimal activity in derivatives with electron-withdrawing groups in the benzoic acid ring and with an unsubstituted C-3 benzyl group on the chromanol nucleus. While compounds containing a 3-(4-phenyl)benzyl chromanol substituent were potent LTB4 receptor antagonists, the increased lipophilicity imparted by the additional phenyl substituent led to decreased potency in the presence of plasma proteins. From among the potent compounds identified, CP-195543, the 5'-trifluoromethyl 3-benzyl chromanol, was selected for development.

Biological activity C-X-C and C-C chemokines on leukocyte subpopulations in human whole blood.

We have described an assay that monitors the activating effects of a variety of chemokines on leukocyte subsets in human whole blood. This procedure has the following advantages: (1) minimal manipulation of the cells, (2) maintenance of more physiological conditions, and (3) simultaneous monitoring of the responses of monocytes, neutrophils, and eosinophils.

Chemokine-dependent upregulation of CD11b on specific leukocyte subpopulations in human whole blood: effect of anticoagulant on rantes and MIP-1 beta stimulation.

The effect of anticoagulant (heparin vs EDTA) on chemokine induced CD11b upregulation on neutrophils, eosinophils, and monocytes in human whole blood was determined. For most of the chemokines (IL-8, GRO-alpha, MCP-1, MIP-1 alpha) the difference in the response of leukocytes in EDTA anticoagulated blood vs those in heparinized blood was the degree of their maximal response, with a slightly higher maximal increase in CD11b expression usually seen in cells from EDTA anticoagulated blood. Two chemokines were exceptions to this: RANTES and MIP-1 beta. RANTES is considered to be a stimulator of monocytes and eosinophils and not of neutrophils. As expected, neutrophils in heparinized whole blood did not respond to RANTES; however, neutrophils in EDTA anticoagulated blood had a significant increase in CD11b when exposed to high concentrations (1 microM) of RANTES. RANTES-induced CD11b expression on monocytes and eosinophils in these samples were the same in either heparin or EDTA. In EDTA anticoagulated blood, MIP-1 beta did not elicit a response in either monocytes, eosinophils or neutrophils; however, in heparinized blood, all three cell types increased CD11b expression upon exposure to 1 microM MIP-1 beta.

Production and characterization of guinea pig IL-5 in baculovirus-infected insect cells.

To study the role interleukin (IL)-5 may play in altering airway function in asthma, we have produced recombinant protein for exogenous administration to guinea pigs. The guinea pig IL-5 (gpIL-5) cDNA was cloned by polymerase chain reaction (PCR) amplification of guinea pig spleen RNA and expressed as a secretion product from recombinant baculovirus-infected Sf9 insect cell cultures. The protein was purified to homogeneity by a four-step procedure that included immunoaffinity chromatography using polyclonal antipeptide antibodies against a region of the mature secreted cytokine. The cytokine was properly processed after the signal sequence by the Sf9 cells, was glycosylated with terminal mannose-containing oligosaccharide, and had proper disulfide-linked dimer structure as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The purified preparation was active in vitro and in vivo as determined by its ability to prime human basophils to release leukotriene C4 in the presence of C5a and to induce airway eosinophilia in naive guinea pigs.

Characterization of the pharmacological profile of the potent LTB4 antagonist CP-105,696 on murine LTB4 receptors in vitro.

1. Binding of [3H]-leukotriene B4 ([3H]-LTB4) to murine spleen membranes (MSM) was determined. 2. Scatchard analyses of [3H]-LTB4 binding indicated the presence of high (KD1 = 1.7 nM) and low (KD2 = 7.5 nM) affinity receptors on MSM with Bmax values of 151 fmol mg-1 protein (Bmax1) and 354 fmol mg-1 protein (Bmax2), respectively. 3. CP-105,696, a potent LTB4 antagonist, inhibited [3H]-LTB4 (0.67 nM) binding to the high affinity receptor on MSM, IC50 = 30.2 nM, Ki = 17.7 nM with a Hill coefficient of 0.93. 4. Scatchard analyses of [3H]-LTB4 binding to MSM in the presence of CP-105,696 indicated that the high-affinity receptor was inhibited in a non-competitive manner and the low-affinity receptor in a competitive manner. 5. Isolated peripheral blood murine neutrophils (MN) responded chemotactically to LTB4, EC50 = 2.5 nM. CP-105,696 blocked this response, IC50 = 2.3 nM. When examined over a full concentration-response range of LTB4, CP-105,696 inhibited chemotaxis in a non-competitive manner. 6. Murine neutrophils in anticoagulated whole blood upregulated the integrin, complement receptor type 3 (CD11b/CD18, Mac-1) in response to LTB4, EC50 = 20 nM and this was inhibited by CP-105,696 in a competitive manner. 7. These results provide evidence that MSM have specific binding sites for LTB4, and as exemplified by CP-105,696, that these receptors may be useful for determining the potency and nature of antagonism of novel LTB4 receptor antagonists.

In vitro and in vivo effects of leukotriene B4 antagonism in a primate model of asthma.

To test the hypothesis that leukotriene (LT) B4 antagonists may be clinically useful in the treatment of asthma, CP-105,696 was evaluated in vitro, using chemotaxis and flow cytometry assays, and in vivo, using a primate asthma model. CP-105,696 inhibited LTB4-mediated monkey neutrophil chemotaxis (isolated cells, LTB4 = 5 nM) and CD11b upregulation (whole blood, LTB4 = 100 nM) with IC50 values of 20 nM and 16.5 microM, respectively. Using a modification of a previously described in vivo protocol (Turner et al. Am. J. Respir. Crit. Care Med. 1994. 149: 1153-1159), we observed that treatment with CP-105,696 inhibited the acute increase in bronchoalveolar lavage (BAL) levels of IL-6 and IL-8 by 56.9 +/- 13.2% and 46.9 +/- 14.5%, respectively, 4 h after challenge with Ascaris suum antigen (Ag). CP-105,696 tended to reduce the increase in BAL protein levels 0.5 h after Ag challenge by 47.5 +/- 18.3%, but this was not statistically significant. In addition, CP-105,696 prevented the significant 11-fold increase in airway responsiveness to methacholine after multiple Ag challenge. These results suggest that LTB4 partially mediates acute and chronic responses to antigen in an experimental primate asthma model and support the clinical evaluation of LTB4 antagonists in human asthma.

Expression and biologic characterization of the murine chemokine KC.

KC, the product of an immediate early gene induced in mouse fibroblasts by platelet-derived growth factor, was expressed in Escherichia coli by using a maltose binding protein vector and biochemically characterized as a ligand for both murine and human polymorphonuclear neutrophils (PMN). On murine PMN, KC is both a potent chemoattractant and up-regulator of Mac-1 cell surface expression. On human PMN, in contrast, KC exhibits dissociation of its chemoattractant and Mac-1 up-regulatory activities. Although KC strongly increases Mac-1 expression on human PMN, it does not induce chemotaxis in vitro. 125I-KC-Tyr binds to both mouse and human PMN with two classes of binding sites, including high affinity sites of 0.8 and 2 nM, with approximately 9,000 and 10,000 sites per cell, respectively. On mouse PMN, human macrophage inflammatory protein (MIP)-2 alpha and MIP-2 beta compete for 125I-KC-Tyr binding with high affinity, whereas the murine beta-chemokine TCA-3 does not compete. KC binds to human PMN by the IL-8 type B receptor and to murine PMN by a murine IL-8 type B receptor homologue. 125I-KC-Tyr also binds to human RBC with a single class of high affinity sites. KC mRNA is constitutively expressed in multiple murine tissues. With human IL-8 and KC cDNA as probes, a mouse neutrophil exudate library was screened: KC and MIP-2 were the dominant chemokine species found. Thus, KC appears to be intimately involved in murine inflammation and its constitutive expression may have a role in the basal trafficking of neutrophils.

The Duffy antigen/receptor for chemokines (DARC) is expressed in endothelial cells of Duffy negative individuals who lack the erythrocyte receptor.

The Duffy antigen/receptor for chemokines (DARC), first identified on erythrocytes, functions not only as a promiscuous chemokine receptor but also as a receptor for the malarial parasite, Plasmodium vivax. The recent finding that DARC is ubiquitously expressed by endothelial cells lining postcapillary venules provides a possible insight into the function of this receptor because this anatomic site is an active interface for leukocyte trafficking. However, the biological significance of DARC is questionable since it has not yet been determined whether individuals lacking the expression of this protein on their erythrocytes (Duffy negative individuals), who are apparently immunologically normal, express the receptor on endothelial cells. However, we report here that DARC is indeed expressed in endothelial cells lining postcapillary venules and splenic sinusoids in individuals who lack the erythrocyte receptor. These findings are based on immunohistochemical, biochemical, and molecular biological analysis of tissues from Duffy negative individuals. We also present data showing that, in contrast to erythrocyte DARC, cells transfected with DARC internalize radiolabeled ligand. We conclude that the DARC may play a critical role in mediating the effects of proinflammatory chemokines on the interactions between leukocyte and endothelial cells since the molecular pathology of the Duffy negative genotype maintains expression on the latter cell type.

The in vitro and in vivo pharmacologic activity of the potent and selective leukotriene B4 receptor antagonist CP-105696.

CP-105696, (+)-1-(3S,4R)-[3-(4-phenyl-benzyl)-4-hydroxy-chroman-7-yl] cyclopentane carboxylic acid, is a structurally novel, selective and potent leukotriene B4 (LTB4) receptor antagonist. In vitro, CP-105696 inhibited [3H]LTB4 (0.3 nM) binding to high-affinity LTB4 receptors on human neutrophils with an IC50 value of 8.42 +/- 0.26 nM. Scatchard analyses of [3H]LTB4 binding to these high-affinity receptors indicated that CP-105696 acted as a noncompetitive antagonist. CP-105696 inhibited human neutrophil chemotaxis mediated by LTB4 (5 nM) in a noncompetitive manner with an IC50 value of 5.0 +/- 2.0 nM. Scatchard analyses of [3H]LTB4 binding to low-affinity receptors on neutrophils indicated that CP-105696 acted as a competitive antagonist at this receptor, and inhibition of LTB4-mediated CD11b upregulation on human neutrophils was competitively inhibited by CP-105696 (pA2 = 8.03 +/- 0.19). CP-105696 at 10 microM did not inhibit either human neutrophil chemotaxis or CD11b upregulation mediated through alternate (i.e., C5a, IL-8, PAF) G-protein coupled chemotactic factor receptors. In isolated human monocytes, LTB4 (5 nM)-mediated Ca++ mobilization was inhibited by CP-105696 with an IC50 value of 940 +/- 70 nM. In vivo, after oral administration, CP-105696 blocked neutrophil and eosinophil infiltration in cavine dermis mediated by either LTB4 or arachidonic acid with ED50 values of 0.3 +/- 0.1 mg/kg. 12(R)-Hydroxyeicosatetraenoic acid-mediated neutrophil infiltration was blocked by 76.4 +/- 14.8% at 3 mg/kg.(ABSTRACT TRUNCATED AT 250 WORDS)

Leukotriene B4 plays a critical role in the progression of collagen-induced arthritis.

Leukotriene B4 (LTB4) is a product of the 5-lipoxygenase pathway of arachidonic acid metabolism. LTB4 is a potent chemotactic factor for neutrophils and has been postulated to play an important role in a variety of pathological conditions including rheumatoid arthritis (RA), psoriasis, and inflammatory bowel disease. The role of LTB4 in such diseases has not yet been defined but in this paper we provide direct evidence that LTB4 plays a critical role in a murine model of RA. CP-105,696, (+)-1-(3S,4R)-[3-(4-phenylbenzyl)- 4-hydroxychroman-7-yl]cyclopentane carboxylic acid, is an LTB4 receptor antagonist that inhibits LTB4 binding to human neutrophil membranes with an IC50 of 3.7 nM and inhibits LTB4-induced chemotaxis of these cells with an IC50 of 5.2 nM. CP-105,696 inhibits LTB4-induced neutrophil influx in mouse skin when administered orally with an ED50 of 4.2 mg/kg. CP-105,696 had a dramatic effect on both the clinical symptoms and histological changes of murine collagen-induced arthritis when administered at doses of 0.3-10 mg/kg. Inhibition was not associated with suppression of the humoral immune response to collagen and was equally effective if drug treatment was commenced just prior to the onset of arthritis or throughout the experiment. These results suggest that LTB4 receptor antagonists may be effective therapeutic agents for the treatment of RA.

The murine interleukin 8 type B receptor homologue and its ligands. Expression and biological characterization.

KC, the product of an immediate early gene induced in mouse fibroblasts by platelet-derived growth factor, was synthesized as a recombinant protein in Escherichia coli and binds with 0.8 nM affinity to mouse neutrophils. Human neutrophils also bind recombinant KC at a site competitive with human interleukin (IL8) and Gro-alpha/MGSA, consistent with binding at the IL8 type B receptor (IL8RB). The cDNA corresponding to human IL8RB hybridizes strongly with two restriction fragments in murine genomic DNA, representing candidate receptor genes for KC. Molecular cloning of both mouse genomic DNA and neutrophil exudate cell cDNA libraries yielded a receptor with approximately 68% sequence identity to both the human IL8 type A and B receptors. Transient expression of the murine receptor cDNA in COS cells conferred binding ability to KC and a related gene product, macrophage inflammatory protein-2 (MIP-2) with high affinity (approximately 5 nM). Human IL8 was a poor agonist for this expressed receptor (Kd = approximately 400 nM). The potent activity of human IL8 on mouse polymorphonuclear neutrophils is not consistent with binding on the cloned receptor and suggests that murine homologues of IL8 and an IL8 type A receptor remain to be identified. Our data indicate that KC is the murine homologue of human Gro-alpha, and the KC receptor is an IL8 type B receptor homologue capable of binding both KC and macrophage inflammatory protein-2 with high affinity.

Tyrosine phosphorylation is an early signaling event common to Fc receptor crosslinking in human neutrophils and rat basophilic leukemia cells (RBL-2H3).

Phosphotyrosine-containing proteins were detected by western blotting of whole cell lysates of purified human neutrophils or rat basophilic leukemia cells (RBL-2H3) using a polyclonal anti-phosphotyrosine antibody. When either cell type was stimulated with the appropriate Fc crosslinking agent, heat-aggregated IgG for the neutrophil or DNP-HSA for the IgE-sensitized RBL-2H3, a rapid increase in the phosphotyrosine content of several proteins was observed. The kinetics and specificity of both responses suggest that Fc receptor crosslinking activates a receptor-associated tyrosine kinase, probably a member of the src family of tyrosine protein kinases. The subsequent tyrosine phosphorylation events are likely to be important in Fc receptor-mediated stimulus-response coupling in inflammatory cells.

Evidence that peptidoleukotriene is a prerequisite for antigen-dependent thromboxane synthesis in IgG1-passively sensitized guinea pig lungs.

Lungs from guinea pigs passively sensitized with an affinity-purified IgG1 antibody produce both leukotriene (LT)D4 and thromboxane (Tx)B2 upon ex vivo antigen challenge. This study was undertaken to determine the possibility of endogenously generated peptido-LTs being a prerequisite for Tx synthesis. In immunoglobulin G1-sensitized lungs, exogenous LTD4 induced TxB2 production with a median effective dose of 4.1 nM, whereas the response to LTE4, LTB4 or platelet-activating factor was relatively weak. Although LTC4 was as potent as LTD4 in stimulating TxB2 generation, LTC4's dose-response curve was shifted significantly to the right by AT-125, an irreversible gamma-glutamyl transpeptidase inhibitor, suggesting that at least a part of LTC4 sensitized lungs with antigen (0.01-30 micrograms/ml ovalbumin) for 20 min precipitated a significant amount of LTD4 production. The levels of LTD4 range from 8 to 26 nM (without taking LTD4 recovery into consideration). This level is 2- to 7-fold greater than the median effective dose value observed with exogenous LTD4. Moreover, pretreatment of sensitized lungs with ICI-198,615 a specific LTD4 antagonist, blocked equally both antigen (IC50 = 0.01 microM)- and LTD4 (IC50 = 0.017 microM)-induced TxB2 production. When sensitized lung fragments were treated with 5 mM AT-125, ICI-198,615 was effective in preventing not only antigen-but also LTC4-dependent production of TxB2 (IC50 = 0.018 and 0.021 microM, respectively). In contrast, neither WEB-2086, a platelet-activating factor antagonist, nor pyrilamine, a histamine antagonist, inhibited antigen and LTD4 responses (IC50 greater than 30 microM). Unlike its effect on antigen response, ICI-198,615 was unable to block Ca2+ ionophore-induced TxB2 production.2

IgG1-mediated acute pulmonary hypersensitivity response in the guinea pig. Involvement of specific lipid mediators.

We determined the pulmonary obstructive response to aerosolized antigen challenge, and its sensitivity to antagonists of specific lipid mediators, in IgG, passively sensitized (IgG1-PS) guinea pigs. Antiovalbumin (OA)-IgG1 was isolated by affinity chromatography from serum derived from actively immunized Hartley guinea pigs. Propranolol and pyrilamine pretreated, IgG1-PS guinea pigs were challenged with aerosolized antigen and pulmonary obstruction was quantified by measurements of excised lung gas volume (ELGV). ELGV increased between 150 and 1,035% in a dose-proportional fashion with increasing antigen exposure (0.001 to 0.1% nebulizer concentration). The leukotriene antagonists ICI-204,219 and SKF-104,353 exhibited dose-proportional inhibitions in antigen-induced elevations in ELGV, inhibiting up to 65 and 87% at the maximal concentrations examined. Similarly, the platelet-activating factor (PAF) antagonists WEB-2086 and L-659,989 inhibited antigen-induced elevations in ELGV, inhibiting up to 94 and 59% at the maximal concentrations examined. In contrast, the cyclooxygenase (CO) inhibitor piroxicam significantly enhanced (p less than 0.05) the OA-induced elevations in ELGV. Aerosolized PAF challenge produced dose-proportional elevations in ELGV that were significantly inhibited by the LTD, antagonist ICI-204,219 (38 and 43% inhibition) and the CO inhibitor piroxicam (62 and 48% inhibition) in sensitized and nonsensitized animals, respectively. We hypothesize that IgG1-dependent airway obstruction is mediated in part by LTD, produced in response to PAF generation.

A factor in serum lowers resistance and opens tight junctions of MDCK cells.

During an inflammatory reaction, factors in blood affect the permeability of endothelium and possibly organ epithelium. In this study we partially characterized a factor in human and canine blood that lowered the transepithelial electrical resistance (TER) of canine kidney epithelial cells (MDCK) and examined whether vascular permeability factors [complement component C3a and C5a and platelet-activating factor (PAF)] were responsible for this reaction. C3a and C5a caused a small (10-13%) dose-related decrease in the TER (alpha = 0.05), whereas PAF had no effect. In contrast, the factor found in both serum and plasma caused a large (60-83%) dose-dependent decrease (saturated at 30%) in the TER that was reversible within 60 min. The blood factor, which does not appear to be albumin, was heat stable and has an apparent molecular mass of 67 kDa. It preferentially decreased the TER of the epithelium when it came in contact with its basolateral surface and significantly lowered the resistance within 60 min by opening the zonula occludentes. These findings suggest that C3a, C5a, and a factor in blood can directly modulate the permeability of renal epithelium.

Inhibition of IgE-mediated N-acetylglucosaminidase and serotonin release from rat basophilic leukemia cells (RBL-2H3) by tenidap: a novel anti-inflammatory agent.

Tenidap [(Z)-5-chloro-2,3-dihydro-3-(hydroxy-2-thienylmethylene)-2-oxo-1H- indole-1-carboxamide] is a novel anti-inflammatory compound of the oxindole class that currently is undergoing clinical evaluation in man. Here we demonstrate that tenidap inhibits (IC50 = approximately 10 microM) IgE-mediated secretion of granule constituents from the rat mast cell tumor line RBL-2H3. The inhibitory effect is rapid in onset, readily reversible, and appears to be unique when compared to a representative selection of other acidic (carboxylic acids, pyrazoles and oxicams) nonsteroidal anti-inflammatory compounds.