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Combination of Clopidogrel and Montelukast may be Beneficial in the Management of Asthma

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dc.contributor.advisor박, 해심-
dc.contributor.authorTRINH, HOANG KIM TU-
dc.date.accessioned2018-11-30T06:07:45Z-
dc.date.available2018-11-30T06:07:45Z-
dc.date.issued2018-
dc.identifier.urihttp://repository.ajou.ac.kr/handle/201003/16534-
dc.description.abstractBackground: Cysteinyl leukotrienes (LT), C4, D4, and E4 which are lipid mediators released from the immune cells, regulate the airway inflammation, hyperreactivity and permeability in allergic inflammation by interacting with LT-related receptors, including CysLTR1, CysLTR2 and purinergic receptor P2Y12 (P2Y12R). The latter, P2Y12R expressed on surface of platelets and eosinophils, is involved in cell activation. Platelets can modulate asthma pathogenesis by releasing intracellular granules, priming leukocytes for activation and facilitating eosinophil migration by forming the platelet-eosinophil aggregation (PEA) via surface ligands. The adherent platelets in PEA are the plentiful source for LT overproduction, thereby possibly enhancing the inflammatory response. To date the antiplatelet drugs, such as prasugrel, and clopidogrel, were found to inhibit the bronchial-hyperreactivity, platelet activation and eosinophil degranulation in animal studies and clinical trials. Therefore, we hypothesized that the combination of the antagonists to CysLTR1 (montelukast, [Mon]) and to P2Y12R on platelets (clopidogrel, [Clo]) could elicit the synergistic effect on suppressing the airway inflammation.
Objective: Firstly, we investigated the distribution ratio and characteristics of the CysLT-related receptors in our asthma mouse model. Secondly, we evaluated the synergistic effects of the combination therapy (Clo/Mon) in a mouse model of asthma and elucidated the mechanism by which the combination therapy exerts the effects. Lastly, we attempted to find the clinical effectiveness of Clo on asthma patients who used clopidogrel.
Materials & Methods: To investigate the localization and interactions of CysLTRs, BALB/c mice were subjected to ovalbumin (OVA) to induce allergic asthma. Some mice were administered the antagonists of CysLTR1, CysLTR2, and P2Y12R, which is montelukast sodium hydrate, HAMI 3379 and clopidorgrel hydrogen sulfate, respectively. The expression levels of CysLTR1, CysLTR2, and P2Y12R on lung tissues and inflammatory cells were evaluated by Western blot, flow cytometry, and double fluorescence staining. To assess the therapeutic effect of Clo/Mon, a mouse model of eosinophilic asthma was established. In addition to two times of sensitization on days 0, 14, BALB/c mice were challenged with OVA 0.2% on days 28-30 and with OVA 1% on days 42-44. Mice were either administered Clo (10mg/kg), Mon (10mg/kg), both drugs or dexamethasone (1 mg/kg) (Dex) for 30 minutes before OVA (1%) challenges on days 42-44. Mice were assayed for airway hyperresponsiveness (AHR) to methacholine (MCh) by FlexiVent® and sampling. The levels of interleukin (IL)-4, IL-5, IL-13, platelet factor 4 (PF4) and eosinophil peroxidase (EPX) in bronchoalveolar lavage (BAL) fluid were measured by ELISA kits. Histological characteristics were analyzed in mouse lung tissues. As in in vitro assay, platelets and eosinophils were isolated separately and co-cultured, in addition to adenosine diphosphate (ADP) 10µM, LTC4 (200 nM), LTE4 (200 nM), Mon (1 µM), Clo (1 µM), Clo/Mon (1 µM), anti-CD40L antibody (100 ng/mL), tirofiban hydrogen sulfate (1 µM). The percentages of PEA and P-selectin expression in whole blood, BAL fluid and in in vitro assay were assessed by flow cytometry and immunohistochemistry. To assess the effects of Clo in patients with asthma, we conducted a retrospective, cross-sectional study on the basis of electronic medical records from 1998 to 2015 in Ajou Medical Center, Suwon, South Korea. The inclusion criteria were patients who had been diagnosed as having asthma and/or allergic rhinitis (AR) and had been administered Clo more than 7 days after the asthma diagnosis. Patients without the complete blood count (CBC) during the exposure period to Clo were excluded from the study. A total of 596 subjects were recruited and changes of the eosinophil count, including the percentage (%) and absolute counts (x104 cells) were analyzed.
Results: Expression of CysLTR1 and P2Y12R were significantly up-regulated in lung tissues (P<0.05 for each) of mice after being sensitized and challenged (OVA/OVA). The ratio of CysLTR1: CysLTR2: P2Y12R in lungs of negative control (NC) mice was shifted from 1:0.43:0.35 to 1:0.65:1.34 in OVA/OVA mice. The administration of Mon significantly diminished the up-regulation of CysLTR1, CysLTR2, and P2Y12R (P<0.05 for each), while the effects of HAMI 3379 and Clo suppressed predominantly the expression of CysLTR2 and P2Y12R, respectively. On the basis of CysLTR1: P2Y12R expression ratio (1:1.34) in the asthma mouse, we introduced Mon:Clo at the ratio 1:1. Clo/Mon attenuated the increased AHR at higher concentration of MCh; the total and eosinophil counts were more effectively diminished than single treatment (P<0.05 for each). The levels of IL-4, IL-13, PF4 and EPX were reduced in BAL fluid from the mice treated with Clo/Mon (P<0.05 for each). The inflammatory cell count, mucus containing cells in the bronchi were attenuated significantly by Clo/Mon (P<0.05 for each). Clo/Mon reduced ADP-induced PEA formation in whole blood (P<0.05) and BAL fluid. In patients with asthma and/or AR, we observed a decrease in the percentage of blood eosinophil (%) and absolute eosinophil counts (x104 cells) after using Clo for more than 60 days, however, no significant difference was observed.
Conclusions: The upregulation of CysLTR1 and P2Y12R may involve in the allergic inflammation of asthmatic airway. Combination of Mon and Clo attenuated synergistically the airway inflammation and hyperresponsiveness by inhibiting the ADP-mediated PEA formation. Further studies are required to elucidate the effectiveness of antiplatelet drugs in asthma treatment.
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dc.description.tableofcontentsCHAPTER-I 1
Characterization of Cysteinyl Leukotriene-Related Receptors and Their Interactions in a Mouse Model of Asthma 1
I. INTRODUCTION 2
II. MATERIALS AND METHODS 6
A. Species 6
B. Ethics statement 6
C. Establishment of an acute model of eosinophilic asthma 6
D. Protocols of drug administration 6
E. Platelet depletion 7
F. Airway resistance measurement 8
G. Collection of bronchoalveolar lavage (BAL) fluid and differential cell count analysis 8
H. Processing of mouse lung tissues and histological analysis 9
I. Cytokine levels in lung BAL fluid 9
J. Double immunofluorescence staining 9
K. Evaluation of CysLTR expression by Western blot and flow cytometry 10
L. Antibodies, reagents. 11
M. Statistical analysis 12
III. RESULTS 13
A. Expression of P2Y12R in lung tissues from platelet-depleted mice 13
B. Expressions of CysLTR1, CysLTR2, and P2Y12R in lung tissues and T cells 14
C. Effects of CysLTR antagonists on the expression of CysLTRs in lung tissues 15
D. Effects of CysLTR antagonists on the expression of CysLTRs in BALF cells. 16
E. Effects of Mon, HAMI 3379, and Clo on AHR 18
F. Effects of montelukast, HAMI 3379, and clopidogrel on differential cell count and T helper 2 (Th2) cytokine release 18
IV. DISCUSSION 20
CHAPTER-II 23
Additional Effects of Clopidogrel to Montelukast in Asthma Treatment 23
I- INTRODUCTION 24
II- MATERIALS & METHODS 27
A. Species, ethic statement 27
B. Experimental procedure for a secondary challenge, eosinophilic asthma mouse model of 27
C. Protocols of drug administration 27
D. Airway resistance measurement and sample collection 28
E. Measurement of cytokines level 28
F. Identification of PEA in BAL fluid and whole blood of mice 29
G. Isolation of mouse eosinophil and platelets 29
H. In vitro assay of PEA 31
I. Antibodies, reagents 32
J. Study design to validate the clinical effects of Clo in patients with asthma and/or AR 32
K. Statistical analysis 34
III- RESULTS 35
A. Effects of Clo/Mon on AHR 35
B. Effects of Clo/Mon on histological score 35
C. Additional effects of P2Y12 antagonists on cytokine levels 36
D. Clo/Mon depleted the PEA formation 37
E. Ligands of PEA 38
F. Clinical effectiveness of Clo on eosinophil count in patients with asthma 40
IV- DISCUSSION 42
V. CONCLUSION 46
REFERENCES 47
-국문요약- 54
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dc.formatapplication/pdf-
dc.language.isoen-
dc.titleCombination of Clopidogrel and Montelukast may be Beneficial in the Management of Asthma-
dc.title.alternative천식에서 몬테루카스트와 클로피 도그렐의 치료효능-
dc.typeThesis-
dc.identifier.urlhttp://dcoll.ajou.ac.kr:9080/dcollection/jsp/common/DcLoOrgPer.jsp?sItemId=000000027875-
dc.description.degreeDoctor-
dc.contributor.department대학원 의학과-
dc.contributor.affiliatedAuthorTRINH, HOANG KIM TU-
dc.date.awarded2018-
dc.type.localTheses-
dc.citation.date2018-
dc.embargo.liftdate9999-12-31-
dc.embargo.terms9999-12-31-
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