Thea Muis scite author profile

1 Recently, we developed a murine model to investigate toluene diisocyanate (TDI)-induced occupational asthma. After skin-sensitization and intranasal challenge with TDI (1%) mice exhibited tracheal hyperreactivity 24 h after the challenge. 2 The aim of the present study was to investigate the possible role for sensory neuropeptides in the development of this tracheal hyperreactivity. 3 First, we demonstrated that direct application of TDI in vitro induced the release of tachykinins from the sensory nerves in the mouse isolated trachea. Second, capsaicin pretreatment, resulting in the depletion of sensory neuropeptides, completely abolished the TDI-induced tracheal hyperreactivity 24 h after the challenge. Third, the selective neurokinin, (NK1)-receptor antagonist RP 67580 (0.2 Mumol kg-') also inhibited tracheal hyperreactivity when it was administered before the challenge. However, administration of RP 67580 during the sensitization phase did not result in a suppression of the TDIinduced tracheal hyperreactivity 24 after the challenge. 4 When TDI-sensitized mice were topically challenged with TDI a marked ear swelling response was observed. The cutaneous response after TDI application was not affected by capsaicin pretreatment or RP 67580 administration. 5 These results clearly show that sensory neuropeptides, particularly tachykinins, are essential for the development of TDI-induced tracheal hyperreactivity during the effector phase. The differences between the airways and skin with respect to the sensory neuropeptides is intriguing and could suggest a local action for the tachykinins in the airways.

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Pharmacology and mode of action of bradykinin on mouse-isolated trachea

Heuven-Nolsen

Vlieger

Muis

et al. 1997

Naunyn-Schmiedeberg's Arch Pharmacol

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In the present study, the effect of bradykinin on basal and precontracted mouse-isolated trachea was investigated. In basal conditions mouse-isolated tracheal rings do not respond to bradykinin. However, when the tracheal rings were precontracted with carbachol (10(-7) M) a relaxation with bradykinin (3 x 10(-9)-3 x 10(-7)) was found. The maximal response amounted 69.7+/-4.1% (n=15) with a pD2 value of 7.2+/-0.21. The selective bradykinin B2 receptor antagonist HOE 140 (10(-10)-10(-8) M) antagonized the bradykinin-induced relaxation, while the bradykinin B1 receptor antagonist des-Arg9-Leu8-bradykinin (10(-6) M) had no influence. The selective bradykinin B1 receptor agonist des-Arg9-bradykinin (10(-6) M) caused a small relaxation (8.4+/-2.5%, n=6), which could be antagonized completely by the selective bradykinin B1 receptor antagonist des-Arg9-Leu8-bradykinin (10(-6) M) while addition of the selective bradykinin B2 receptor antagonist HOE 140 (10(-8) M) was without effect. In the presence of indomethacin (10(-6) M) the relaxation of bradykinin was completely abolished. Pretreatment of the tracheal rings with capsaicin, or the presence of the selective NK1 receptor antagonist RP 67851 (10(-6) M) or the presence of the nitric oxide synthase inhibitor L-NAME (3 x 10(-4) M) had no effect on the bradykinin-induced relaxation. In conclusion, these results demonstrate that the mouse-isolated tracheal is a preparation in which bradykinin exerts a relaxant response via stimulation of bradykinin B2 receptors. This response is probably mediated by prostaglandins.

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Opposite Role of Interferon-γ and Interleukin-4 on the Regulation of Blood Pressure in Mice

Heuven-Nolsen

Kimpe

Muis

et al. 1999

Biochemical and Biophysical Research Communications

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Role of mucosal mast cells in early vascular permeability changes of intestinal DTH reaction in the rat

Kraneveld

Muis

Koster

et al. 1998

American Journal of Physiology-Gastrointestinal and Liver Physi

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Kraneveld, Aletta D., Thea Muis, Andries S. Koster, and Frans P. Nijkamp. Role of mucosal mast cells in early vascular permeability changes of intestinal DTH reaction in the rat. Am. J. Physiol. 274 (Gastrointest. Liver Physiol. 37): G832-G839, 1998.-Previously, it was shown that depletion and stabilization of the mucosal mast cell around the time of challenge were very effective in reducing delayed-type hypersensitivity (DTH) reactions in the small intestine of the rat. The role of mucosal mast cells in the early component of intestinal DTH reaction was further investigated in this study. In vivo small intestinal vascular leakage and serum levels of rat mast cell protease II (RMCP II) were determined within 1 h after intragastric challenge of rats that had been sensitized with dinitrobenzene 5 days before. A separate group of rats was used to study vasopermeability in isolated vascularly perfused small intestine after in vitro challenge. To investigate the effects of mast cell stabilization on the early events of the DTH reaction, doxantrazole was used. The influence of sensory nerves was studied by means of neonatal capsaicin-induced depletion of sensory neuropeptides. Within 1 h after challenge, a significant increase in vascular permeability was found in vivo as well as in vitro. This was associated with a DTH-specific increase in RMCP II in the serum, indicating mucosal mast cell activation. In addition, doxantrazole treatment and caspaicin pretreatment resulted in a significant inhibition of the DTH-induced vascular leakage and an increase in serum RMCP II. These findings are consistent with an important role for mucosal mast cells in early vascular leakage changes of intestinal DTH reactions. In addition, sensory nervous control of mucosal mast cell activation early after challenge is demonstrated. small intestinal vascular permeability; capsaicin CONSIDERABLE EVIDENCE supports a role for mast cells in immunologic inflammatory processes (6). Also, in cellmediated delayed-type hypersensitivity (DTH) reactions a role for mast cells has been postulated (9, 25). DTH reactions in the gastrointestinal tract have been proposed to represent some of the features prevalent in inflammatory bowel diseases (IBD); ongoing responses have been associated with an increased vascular permeability and enhanced lymphocyte infiltration into the inflamed intestinal tissue (10,13,31). Most of the studies investigating the role of mast cells in DTH reactions have been done in the intestine, lung, and skin of Trichinella spiralis-infected mice and picryl chloride contact-sensitized mice (9,(25)(26)(27). It has been suggested that on contact sensitization with picryl chloride or after primary helminth infection, DTHinitiating cells in lymphoid organs are induced to release antigen-specific factors that bind systemically to mast cells (4,15,22,36). On local challenge with the antigen, the armed mast cells are activated to release serotonin. Activation of serotonin receptor on vascular endothelium induces a local increase in vascular...

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Hypotensive effect of 13‐hydroxylinoleic acid in the rat: mediation via the release of a CGRP‐like mediator from capsaicin‐sensitive nerves

Heuven-Nolsen

Muis

Engels

et al. 1995

British J Pharmacology

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1. The effect of 13-hydroxylinoleic acid (13-HODE) on changes in blood pressure in the rat was measured. 2. 13-HODE (0.1 - 100 micrograms kg-1) had no direct effect on blood pressure in the rat and had no effect on histamine (0.1 - 1000 micrograms kg-1)-induced changes in blood pressure. In contrast, it was found that 13-HODE itself induced a decrease in diastolic arterial blood pressure when it was injected intravenously after either a single dose of histamine (10, 100 or 1000 micrograms kg-1) or after a dose-response curve of histamine (0.1 - 1000 micrograms kg-1). 3. This hypotensive effect of 13-HODE was not observed after administration of the endothelium-dependent vasodilator, acetylcholine (0.1 - 10 micrograms kg-1), the endothelium-independent vasodilator, sodium nitroprusside (0.1 - 100 micrograms kg-1) or the inflammatory mediator, leukotriene B4 (0.1 - 300 micrograms kg-1). However, prior injection of bradykinin (0.1 - 100 micrograms kg-1) allowed a dose-dependent hypotensive effect of 13-HODE to be revealed. 4. The hypotensive effect of 13-HODE after histamine and bradykinin could be inhibited by neonatal capsaicin treatment of the rats (50 mg kg-1, s.c. on day 1 and 2 after birth). 5. Ruthenium red (120 micrograms kg-1 min-1), an inhibitor of excitatory effects on sensory nerves, and the CGRP antagonist, CGRP8-37 (1-3 micrograms kg-1 min-1) also inhibited the hypotensive effect of 13-HODE. 6. It is concluded that the hypotensive effect of 13-HODE in the rat after histamine and bradykinin is due to the release of a CGRP-like substance from sensory nerves. These results highlight the possibility that endogenous 13-HODE could be involved in the neurogenic regulation of blood pressure.

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Thea Muis

The involvement of sensory neuropeptides in toluene diisocyanate‐induced tracheal hyperreactivity in the mouse airways

Pharmacology and mode of action of bradykinin on mouse-isolated trachea

Opposite Role of Interferon-γ and Interleukin-4 on the Regulation of Blood Pressure in Mice

Role of mucosal mast cells in early vascular permeability changes of intestinal DTH reaction in the rat

Hypotensive effect of 13‐hydroxylinoleic acid in the rat: mediation via the release of a CGRP‐like mediator from capsaicin‐sensitive nerves

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