Effect of TYB-2285 on Antigen-induced Airway Responses in Sheep

We studied the effect of a new antiallergic compound, TYB-2285 (3,5-bis(acetoxyacetylamino)-4-chlorobenzonitrile), on antigen-induced early and late bronchoconstriction and airway responsiveness in conscious allergic sheep. The same general protocol was used for all studies, except that the dosage a...

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Published in:Pulmonary pharmacology (Edinburgh) 1996-02, Vol.9 (1), p.49-58
Main Authors: Abraham, W.M., Ahmed, A., Cortes, A., Sielczak, M., Wantanabe, A.
Format: Article
Language:English
Subjects:
Airway hyperresponsiveness
Animal model
Animals
Asthma
Asthma - physiopathology
Bronchi - drug effects
Bronchial Hyperreactivity - drug therapy
Bronchoalveolar Lavage Fluid - cytology
Bronchoconstriction
Bronchoconstrictor Agents - pharmacology
Cross-Over Studies
Eosinophils
Histamine - pharmacology
Leukotriene D4 - pharmacology
Nitriles - therapeutic use
Sheep
Trachea - drug effects
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container_end_page 58
container_issue 1
container_start_page 49
container_title Pulmonary pharmacology (Edinburgh)
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creator Abraham, W.M.
Ahmed, A.
Cortes, A.
Sielczak, M.
Wantanabe, A.
description We studied the effect of a new antiallergic compound, TYB-2285 (3,5-bis(acetoxyacetylamino)-4-chlorobenzonitrile), on antigen-induced early and late bronchoconstriction and airway responsiveness in conscious allergic sheep. The same general protocol was used for all studies, except that the dosage and time of TYB-2285 treatment was varied. The basic protocol consisted of determining airway responsiveness to inhaled carbachol, then measuring the airway responses to Ascaris suum antigen challenge followed 1 day later by a post challenge assessment of airway responsiveness. Specific lung resistance (SR L) was used to measure the airway responses to antigen and carbachol and the concentration of carbachol that caused a 400% increase in SR L(PC 400) was used as a measure of airway responsiveness. All protocols were of crossover design, such that each sheep served as its own control and each protocol employed six to eight animals. In all instances, TYB-2285 or vehicle control (methylcellulose) was given orally. When TYB-2285 (100 mg/kg) was given at 16 and 2 h before the challenge, the early response, the late response and the post antigen-induced airway hyperresponsiveness (AHR) as indicated by a decrease in the PC 400was inhibited significantly. TYB-2285 (100 mg/kg), when given 1 h after challenge, inhibited the late response and AHR significantly. TYB-2285 (100 mg/kg), when given 8 h after the challenge, also inhibited the antigen-induced AHR. When animals were given TYB-2285 (100 mg/kg) at 32, 56 and 80 h after the challenge, the antigen-induced AHR that persisted (for 1 week) in the control trial was reversed to the normal level. TYB-2285 (30 mg/kg), when given at 1, 32, 56 and 80 h after the challenge, inhibited late response slightly and reversed the persistent AHR to the normal level. At lower doses (3 and 10 mg/kg) there was no protection of the early response, the late response or AHR. Pretreatment with TYB-2285 (100 mg/kg) also prevented the antigen-induced influx of eosinophils in bronchoalveolar lavage obtained 24 h after segmental antigen challenge. TYB-2285 did not inhibit histamine or LTD 4-induced bronchoconstriction nor did the active metabolites of TYB-2285, TC-286 and TC-326 inhibit acetylcholine-induced contraction of sheep tracheal smooth muscle. These results suggest that TYB-2285 has both antiallergic and antiinflammatory properties in the sheep model of allergic bronchoconstriction. The compound demonstrates both prophylactic and therape
doi_str_mv 10.1006/pulp.1996.0006
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The same general protocol was used for all studies, except that the dosage and time of TYB-2285 treatment was varied. The basic protocol consisted of determining airway responsiveness to inhaled carbachol, then measuring the airway responses to Ascaris suum antigen challenge followed 1 day later by a post challenge assessment of airway responsiveness. Specific lung resistance (SR L) was used to measure the airway responses to antigen and carbachol and the concentration of carbachol that caused a 400% increase in SR L(PC 400) was used as a measure of airway responsiveness. All protocols were of crossover design, such that each sheep served as its own control and each protocol employed six to eight animals. In all instances, TYB-2285 or vehicle control (methylcellulose) was given orally. When TYB-2285 (100 mg/kg) was given at 16 and 2 h before the challenge, the early response, the late response and the post antigen-induced airway hyperresponsiveness (AHR) as indicated by a decrease in the PC 400was inhibited significantly. TYB-2285 (100 mg/kg), when given 1 h after challenge, inhibited the late response and AHR significantly. TYB-2285 (100 mg/kg), when given 8 h after the challenge, also inhibited the antigen-induced AHR. When animals were given TYB-2285 (100 mg/kg) at 32, 56 and 80 h after the challenge, the antigen-induced AHR that persisted (for 1 week) in the control trial was reversed to the normal level. TYB-2285 (30 mg/kg), when given at 1, 32, 56 and 80 h after the challenge, inhibited late response slightly and reversed the persistent AHR to the normal level. At lower doses (3 and 10 mg/kg) there was no protection of the early response, the late response or AHR. Pretreatment with TYB-2285 (100 mg/kg) also prevented the antigen-induced influx of eosinophils in bronchoalveolar lavage obtained 24 h after segmental antigen challenge. TYB-2285 did not inhibit histamine or LTD 4-induced bronchoconstriction nor did the active metabolites of TYB-2285, TC-286 and TC-326 inhibit acetylcholine-induced contraction of sheep tracheal smooth muscle. These results suggest that TYB-2285 has both antiallergic and antiinflammatory properties in the sheep model of allergic bronchoconstriction. 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Pretreatment with TYB-2285 (100 mg/kg) also prevented the antigen-induced influx of eosinophils in bronchoalveolar lavage obtained 24 h after segmental antigen challenge. TYB-2285 did not inhibit histamine or LTD 4-induced bronchoconstriction nor did the active metabolites of TYB-2285, TC-286 and TC-326 inhibit acetylcholine-induced contraction of sheep tracheal smooth muscle. These results suggest that TYB-2285 has both antiallergic and antiinflammatory properties in the sheep model of allergic bronchoconstriction. 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The same general protocol was used for all studies, except that the dosage and time of TYB-2285 treatment was varied. The basic protocol consisted of determining airway responsiveness to inhaled carbachol, then measuring the airway responses to Ascaris suum antigen challenge followed 1 day later by a post challenge assessment of airway responsiveness. Specific lung resistance (SR L) was used to measure the airway responses to antigen and carbachol and the concentration of carbachol that caused a 400% increase in SR L(PC 400) was used as a measure of airway responsiveness. All protocols were of crossover design, such that each sheep served as its own control and each protocol employed six to eight animals. In all instances, TYB-2285 or vehicle control (methylcellulose) was given orally. When TYB-2285 (100 mg/kg) was given at 16 and 2 h before the challenge, the early response, the late response and the post antigen-induced airway hyperresponsiveness (AHR) as indicated by a decrease in the PC 400was inhibited significantly. TYB-2285 (100 mg/kg), when given 1 h after challenge, inhibited the late response and AHR significantly. TYB-2285 (100 mg/kg), when given 8 h after the challenge, also inhibited the antigen-induced AHR. When animals were given TYB-2285 (100 mg/kg) at 32, 56 and 80 h after the challenge, the antigen-induced AHR that persisted (for 1 week) in the control trial was reversed to the normal level. TYB-2285 (30 mg/kg), when given at 1, 32, 56 and 80 h after the challenge, inhibited late response slightly and reversed the persistent AHR to the normal level. At lower doses (3 and 10 mg/kg) there was no protection of the early response, the late response or AHR. Pretreatment with TYB-2285 (100 mg/kg) also prevented the antigen-induced influx of eosinophils in bronchoalveolar lavage obtained 24 h after segmental antigen challenge. TYB-2285 did not inhibit histamine or LTD 4-induced bronchoconstriction nor did the active metabolites of TYB-2285, TC-286 and TC-326 inhibit acetylcholine-induced contraction of sheep tracheal smooth muscle. These results suggest that TYB-2285 has both antiallergic and antiinflammatory properties in the sheep model of allergic bronchoconstriction. The compound demonstrates both prophylactic and therapeutic activity and, therefore, may be potentially useful in the treatment of allergen-induced airway disease.</abstract><cop>England</cop><pub>Elsevier Ltd</pub><pmid>8843510</pmid><doi>10.1006/pulp.1996.0006</doi><tpages>10</tpages></addata></record>
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identifier ISSN: 0952-0600
ispartof Pulmonary pharmacology (Edinburgh), 1996-02, Vol.9 (1), p.49-58
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1522-9637
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recordid cdi_proquest_miscellaneous_78410492
source ScienceDirect Journals
subjects Airway hyperresponsiveness
Animal model
Animals
Asthma
Asthma - physiopathology
Bronchi - drug effects
Bronchial Hyperreactivity - drug therapy
Bronchoalveolar Lavage Fluid - cytology
Bronchoconstriction
Bronchoconstrictor Agents - pharmacology
Cross-Over Studies
Eosinophils
Histamine - pharmacology
Leukotriene D4 - pharmacology
Nitriles - therapeutic use
Sheep
Trachea - drug effects
title Effect of TYB-2285 on Antigen-induced Airway Responses in Sheep
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