In vivo effects of nonsteroidal antiinflammatory drugs on rat skin and synovial mast cell-induced vasopermeability

Differential effects of two analgesic drugs, morphine chlorhydrate and acetylsalicylic acid, on thalamic mast cell numbers in rat

Thalamic mast cells (TMCs), the only immunocytes known to infiltrate the brain in physiological conditions, respond to pharmacological agents including sumatriptan - a serotonergic anti-migraine agent - that increases their number. We analysed the effects of two other main analgesics: morphine chlorhydrate, a micro opioid agonist, and acetylsalicylic acid (ASA), a non-steroidal anti-inflammatory drug. All three drugs have specific modes of action, and morphine and ASA, unlike sumatriptan, are also known to interact with peripheral mast cells. Only ASA was effective in promoting TMC number decrease. TMCs, unlike other mast cells, do not express cyclooxygenase (COX) - the key enzyme in the production of prostanoids and the main site of action of ASA - thus dismissing a direct local cellular COX-mediated action. Direct TMC COX-independent mechanisms or effects mediated via distant populations of COX-positive cells such as platelets, leptomeningeal, endothelial and peripheral mast cells are thus probable. ASA, morphine and sumatriptan have distinct TMC effects, suggesting that the TMC number variations they induce are more likely to derive from systemic vasoactive actions than from pharmacological mechanisms devoted to pain relief.

The influence of rheumatoid chemotherapy, age, and presence of rheumatoid nodules on postoperative complications in rheumatoid foot and ankle surgery: analysis of 725 procedures in 104 patients [corrected]

The records of 104 patients who underwent reconstructive foot and ankle surgery for deformities secondary to rheumatoid arthritis were reviewed. The use of rheumatoid chemotherapeutic agents, age, sex, rheumatoid nodule status, and the number of concurrent surgical procedures performed was analyzed to determine any association with the postoperative outcome for wound healing and infectious complications. The 104 patients, ranging in age from 23 to 83 years, underwent 725 operative procedures. An overall 32% complication rate was recorded. Analysis of five specific rheumatoid chemotherapeutic agents (NSAIDs, steroids, methotrexate, hydroxychloroquine, gold), age, sex, number of operative procedures performed, and presence of rheumatoid nodules, either alone or in combination, failed to prove a statistical association with either a healing or infectious postoperative complication.

Down-regulation of natural killer cells and of gamma/delta T cells in systemic lupus erythematosus. Does it correlate to autoimmunity and to laboratory indices of disease activity?

A depletion of natural killer (NK) cells seems to play a role in the course of systemic lupus erythematosus (SLE) whereas the possible involvement in this disease of T cell receptor (TCR) gamma/delta positive T cells is still debated. The aim of this study was to evaluate the peripheral blood mononuclear cells (PBMCs) that express NK surface markers CD16 and CD56 or gamma/delta TCR antigen in 58 SLE patients, investigating the possible role of these cell subsets involved in non-MHC-restricted cytotoxicity and their relationship with the main clinical and laboratory parameters. SLE patients had, with respect to controls, considerably decreased values of NK cells (P<0.0004 in percentage and P<0.00004 as absolute number), of non-MHC-restricted T cytotoxic lymphocytes (P<0.007 and P<0.0015, respectively) and of T cells expressing gamma/delta TCR (P<0.02 and P<0.004, respectively). The absolute numbers of these cell subsets positively correlated to each other (P<0.009). gamma/delta T cells inversely correlated with higher ESR values, both percentually (P<0. 006; r=-0.367) and in absolute number (P<0.009; r=-0.350). Moreover, the percentage values of this cell subset inversely correlated with higher levels of CRP (P<0.05; r=-0.256) while SLE patients with anti-SSB/La antibodies had lower values of T lymphocytes bearing gamma/delta TCR, both as percentage (P<0.008) and as absolute number (P<0.02). Our study indicates that non-MHC-restricted cytotoxicity, shared by NK, NK-like and gamma/delta T cells, may be down-regulated in SLE patients, owing to a significant reduction of these PBMC subsets. These specific cell subset impairments seem to affect only some aspects of the disease, suggesting a weakening of the regulatory properties of these cells in the control of different immunological and inflammatory features of SLE, that could be of importance in its clinical expression.

Pentadecapeptide BPC 157 positively affects both non-steroidal anti-inflammatory agent-induced gastrointestinal lesions and adjuvant arthritis in rats

Besides a superior protection of the pentadecapeptide BPC 157 (an essential fragment of an organoprotective gastric juice peptide BPC) against different gastrointestinal and liver lesions, an acute anti-inflammatory and analgetic activity was also noted. Consequently, its effect on chronic inflammation lesions, such as adjuvant arthritis, and non-steroidal anti-inflammatory agents (NSAIAs)-induced gastrointestinal lesions was simultaneously studied in rats. In gastrointestinal lesions (indomethacin (30 mg/kg s.c.), aspirin (400 mg/kg i.g.) and diclofenac (125 mg/kg i.p.) studies, BPC 157 (10 micrograms or 10 ng/kg i.p.) was regularly given simultaneously and/or 1 h prior to drug application (indomethacin). In the adjuvant arthritis (tail-application of 0.2 mL of Freund's adjuvant) studies (14 days, 30 days, 1 year) BPC 157 (10 micrograms or 10 ng/kg i.p.), it was given as a single application (at 1 h either before or following the application of Freund's adjuvant) or in a once daily regimen (0-14th day, 14-30th day, 14th day-1 year). Given with the investigated NSAIAs, BPC 157 consistently reduced the otherwise prominent lesions in the stomach of the control rats, as well as the lesions in the small intestine in the indomethacin groups. In the adjuvant arthritis studies, the lesion's development seems to be considerably reduced after single pentadecapeptide medication, and even more attenuated in rats daily treated with BPC 157. As a therapy of already established adjuvant arthritis, its salutary effect consistently appeared already after 2 weeks of medication and it could be clearly seen also after 1 year of application. Taking together all these results, the data likely point to a special anti-inflammatory and mucosal integrity protective effect.

Human synovial mast cells. II. Heterogeneity of the pharmacologic effects of antiinflammatory and immunosuppressive drugs

OBJECTIVE

To evaluate the in vitro effects of 4 antiinflammatory and 5 immunosuppressive agents on the release of preformed and de novo-synthesized mediators from human synovial mast cells (HSyMC) activated by immunologic and nonimmunologic stimuli.

METHODS

The effects of antiinflammatory and immunosuppressive agents were evaluated on the in vitro release of histamine and tryptase and the de novo synthesis of prostaglandin D2 (PGD2) and leukotriene C4 (LTC4) by HSyMC challenged with anti-IgE and substance P.

RESULTS

Nimesulide, a sulfonanilide nonsteroidal antiinflammatory drug (NSAID) chemically unrelated to other acidic NSAIDs (such as acetylsalicylic acid [ASA], diclofenac, and piroxicam) inhibited in a concentration-dependent manner the release of preformed (histamine and tryptase) mediators from HSyMC challenged with anti-IgE. In contrast, diclofenac and piroxicam had little or no effect on HSyMC activated by anti-IgE. ASA, diclofenac, piroxicam, and nimesulide caused a concentration-dependent inhibition of IgE-mediated PGD2 release from HSyMC. Nimesulide, but not diclofenac or piroxicam, also inhibited the de novo synthesis of LTC4 by HSyMC challenged with anti-IgE. Nimesulide, diclofenac, and piroxicam had no effect on HSyMC activated by substance P. Cyclosporin A (CSA) inhibited histamine release from HSyMC challenged with anti-IgE, whereas cyclosporin H (CSH) had no effect. FK-506 also inhibited histamine release from HSyMC activated by anti-IgE, whereas rapamycin had no effect. Neither CSA, CSH, FK-506, nor rapamycin inhibited the release of histamine from HSyMC induced by substance P. Methotrexate had no effect on the release of mediators from these cells, whereas adenosine (R-phenylisopropyl adenosine and 5'-N-ethylcarboxamide adenosine) enhanced histamine release from immunologically activated HSyMC in a concentration-dependent manner.

CONCLUSION

Mast cells isolated from human synovia display 4 levels of pharmacologic heterogeneity with regard to 1) the inhibitory effects of 4 antiinflammatory drugs; 2) the capacity of different immunosuppressive drugs to exert antiinflammatory activity; 3) the inhibition of the release of different mediators; and 4) the capacity of antiinflammatory and immunosuppressive drugs to modulate HSyMC activated by different stimuli. This complexity of pharmacologic modulation of HSyMC in vitro might help explain the different activity of the compounds used to treat various pathophysiologic aspects of the inflammatory arthritides.

Mast cell activation in human synovium explants by calcium ionophore A23187, compound 48/80, and rabbit IgG anti-human IgE, but not morphine sulfate

To investigate human synovial mast cell physiology, we developed a model in which mast cells in human synovial explant cultures were activated by immunologic or non-immunologic mechanisms. Small (3 mm) cubes of synovial membrane were incubated with or without secretagogue for 30, 45 or 60 min, and supernatant histamine concentrations were quantified. We measured significant histamine release with compound 48/80 at concentrations > or = 1 mg/ml, and with calcium ionophore A23187 at > or = 5 micrograms/ml. Rabbit IgG anti-human IgE induced significant histamine release at all concentrations tested, maximum at 78 micrograms/ml. Morphine sulfate produced no histamine release from synovial explants, in contrast to its significant stimulation of histamine release from neonatal foreskin explants in our explant system. We confirmed synovial mast cell degranulation by electron microscopy, and showed that it corresponded with measurable histamine release. Furthermore, histamine release was not due to secretagogue-induced cytotoxicity, as assessed by supernatant lactate dehydrogenase levels and by ultrastructural analysis. Since morphine sulfate induces mast cell degranulation and histamine release in adult and neonatal human skin, our data show that although synovial and dermal mast cells have a similar granule enzyme profile and electron microscopic morphology, they differ in functional responses. These observations support recent data that among similar human mast cell subtypes there are physiologic differences. Finally, our explant model will be useful in studies of mast cell involvement in arthritis.

Distribution, activation and tryptase/chymase phenotype of mast cells in the rheumatoid lesion

OBJECTIVE

To determine the distribution, activation, and tryptase/chymase phenotype of mast cells (MCs) in the rheumatoid lesion.

METHODS

MC tryptase and chymase were studied by immunohistochemistry using monoclonal antibodies and examination by brightfield, interference, and fluorescent microscopy. Thirty four specimens of cartilage-pannus junction and 26 specimens of rheumatoid synovium, all derived from knee surgery, were examined.

RESULTS

MCs were identified in all specimens examined, but their distribution and local concentrations varied, both within and between specimens. As a proportion of total synovial cells, there were more MCs in fibrous synovial tissues than in those with active inflammatory cell infiltrations; MCs usually showed a peripheral distribution around lymphocytic/mononuclear cell infiltrations. Most cartilage-pannus specimens demonstrated local concentrations of MCs at, or close to, sites of cartilage erosion, a significant proportion of which showed extracellular tryptase indicative of MC degranulation. MC degranulation was often associated with localised oedema and disruption of the stromal matrix. Two MC phenotypes were identified: one population contained tryptase alone (MCT) whilst another contained both tryptase and chymase (MCTC). The ratio MCT:MCTC approximated 8:1.

CONCLUSIONS

This histological study demonstrated that local concentrations of MCs and their activation/degranulation are commonly observed in the rheumatoid lesion, and especially at sites of cartilage erosion. Such observations add weight to the concept that MCs contribute to the processes of inflammation, matrix degradation and tissue remodelling.

Human synovial mast cell involvement in rheumatoid arthritis and osteoarthritis. Relationship to disease type, clinical activity, and antirheumatic therapy

Mast cells were isolated by enzymatic digestion of synovium obtained from 48 patients with rheumatoid arthritis (RA) and 42 patients with osteoarthritis (OA). A significantly lower percentage of stainable synovial mast cells was obtained by tissue digestion from patients with clinically active RA compared with those with less active disease. The 54 patients treated with nonsteroidal antiinflammatory drugs had a significantly lower percentage of stainable synovial mast cells in cell suspension than did the other 36 patients. When anti-IgE antibody was used as a secretagogue in vitro, significantly greater histamine release was observed from synovial mast cells of RA patients compared with OA patients. Greater histamine release in response to anti-IgE was observed in the RA patients with more clinically active disease and those who were treated with prednisone, compared with RA patients without these features. Synovial mast cells of RA patients treated with a disease-modifying antirheumatic drug had a significantly lower mean histamine content than did cells from patients not receiving such treatment. Our data suggest that there are differences between synovial mast cells from tissues of patients with RA and OA and suggest that synovial mast cells may be activated in clinically active RA. In addition, the data indicate an effect of systemic antirheumatic therapy on mast cells isolated from synovium of patients with arthritis.