Drug Repurposing to Treat Glucocorticoid Resistance in Asthma
Corticosteroid resistance causes significant morbidity in asthma, and drug repurposing may identify timely and cost-effective adjunctive treatments for corticosteroid resistance. In 95 subjects from the Childhood Asthma Management Program (CAMP) and 19 subjects from the Severe Asthma Research Progra...
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MDPI AG
2021-03-01
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| Series: | Journal of Personalized Medicine |
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| Online Access: | https://www.mdpi.com/2075-4426/11/3/175 |
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doaj-a2675d7816e048b68fd8dd0232d49df42021-03-04T00:02:11ZengMDPI AGJournal of Personalized Medicine2075-44262021-03-011117517510.3390/jpm11030175Drug Repurposing to Treat Glucocorticoid Resistance in AsthmaAlberta L. Wang0Ronald Panganiban1Weiliang Qiu2Alvin T. Kho3Geoffrey Chupp4Deborah A. Meyers5Eugene R. Bleecker6Scott T. Weiss7Quan Lu8Kelan G. Tantisira9Channing Division of Network Medicine, Brigham and Women’s Hospital, Boston, MA 02115, USAProgram in Molecular and Integrative Physiological Sciences, Departments of Environmental Health and Molecular Metabolism, Harvard T.H. Chan School of Public Health, Boston, MA 02115, USAChanning Division of Network Medicine, Brigham and Women’s Hospital, Boston, MA 02115, USAChanning Division of Network Medicine, Brigham and Women’s Hospital, Boston, MA 02115, USADivision of Pulmonary, Critical Care, and Sleep Medicine, Yale University School of Medicine, New Haven, CT 06520, USADivision of Genetics, Genomics and Precision Medicine, Department of Medicine, University of Arizona, Tucson, AZ 85724, USADivision of Genetics, Genomics and Precision Medicine, Department of Medicine, University of Arizona, Tucson, AZ 85724, USAChanning Division of Network Medicine, Brigham and Women’s Hospital, Boston, MA 02115, USAProgram in Molecular and Integrative Physiological Sciences, Departments of Environmental Health and Molecular Metabolism, Harvard T.H. Chan School of Public Health, Boston, MA 02115, USADivision of Respiratory Medicine, Department of Pediatrics, University of California San Diego, San Diego, CA 92123, USACorticosteroid resistance causes significant morbidity in asthma, and drug repurposing may identify timely and cost-effective adjunctive treatments for corticosteroid resistance. In 95 subjects from the Childhood Asthma Management Program (CAMP) and 19 subjects from the Severe Asthma Research Program (SARP), corticosteroid response was measured by the change in percent predicted forced expiratory volume in one second (FEV<sub>1</sub>). In each cohort, differential gene expression analysis was performed comparing poor (resistant) responders, defined as those with zero to negative change in FEV<sub>1</sub>, to good responders, followed by Connectivity Map (CMap) analysis to identify inversely associated (i.e., negatively connected) drugs that reversed the gene expression profile of poor responders to resemble that of good responders. Mean connectivity scores weighted by sample size were calculated. The top five drug compound candidates underwent in vitro validation in NF-κB-based luciferase reporter A549 cells stimulated by IL-1β ± dexamethasone. In CAMP and SARP, 134 and 178 respective genes were differentially expressed in poor responders. CMap analysis identified 46 compounds in common across both cohorts with connectivity scores < −50. γ-linolenic acid, ampicillin, exemestane, brinzolamide, and INCA-6 were selected for functional validation. γ-linolenic acid, brinzolamide, and INCA-6 significantly reduced IL-1β induced luciferase activity and potentiated the anti-inflammatory effect of dexamethasone in A549/NF-κB-luc reporter cells. These results demonstrate how existing drugs, including γ-linolenic acid, brinzolamide, and INCA-6, may be repurposed to improve corticosteroid response in asthmatics.https://www.mdpi.com/2075-4426/11/3/175asthmaanti-asthmatic agentsdrug repositioningglucocorticoid effect |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Alberta L. Wang Ronald Panganiban Weiliang Qiu Alvin T. Kho Geoffrey Chupp Deborah A. Meyers Eugene R. Bleecker Scott T. Weiss Quan Lu Kelan G. Tantisira |
| spellingShingle |
Alberta L. Wang Ronald Panganiban Weiliang Qiu Alvin T. Kho Geoffrey Chupp Deborah A. Meyers Eugene R. Bleecker Scott T. Weiss Quan Lu Kelan G. Tantisira Drug Repurposing to Treat Glucocorticoid Resistance in Asthma Journal of Personalized Medicine asthma anti-asthmatic agents drug repositioning glucocorticoid effect |
| author_facet |
Alberta L. Wang Ronald Panganiban Weiliang Qiu Alvin T. Kho Geoffrey Chupp Deborah A. Meyers Eugene R. Bleecker Scott T. Weiss Quan Lu Kelan G. Tantisira |
| author_sort |
Alberta L. Wang |
| title |
Drug Repurposing to Treat Glucocorticoid Resistance in Asthma |
| title_short |
Drug Repurposing to Treat Glucocorticoid Resistance in Asthma |
| title_full |
Drug Repurposing to Treat Glucocorticoid Resistance in Asthma |
| title_fullStr |
Drug Repurposing to Treat Glucocorticoid Resistance in Asthma |
| title_full_unstemmed |
Drug Repurposing to Treat Glucocorticoid Resistance in Asthma |
| title_sort |
drug repurposing to treat glucocorticoid resistance in asthma |
| publisher |
MDPI AG |
| series |
Journal of Personalized Medicine |
| issn |
2075-4426 |
| publishDate |
2021-03-01 |
| description |
Corticosteroid resistance causes significant morbidity in asthma, and drug repurposing may identify timely and cost-effective adjunctive treatments for corticosteroid resistance. In 95 subjects from the Childhood Asthma Management Program (CAMP) and 19 subjects from the Severe Asthma Research Program (SARP), corticosteroid response was measured by the change in percent predicted forced expiratory volume in one second (FEV<sub>1</sub>). In each cohort, differential gene expression analysis was performed comparing poor (resistant) responders, defined as those with zero to negative change in FEV<sub>1</sub>, to good responders, followed by Connectivity Map (CMap) analysis to identify inversely associated (i.e., negatively connected) drugs that reversed the gene expression profile of poor responders to resemble that of good responders. Mean connectivity scores weighted by sample size were calculated. The top five drug compound candidates underwent in vitro validation in NF-κB-based luciferase reporter A549 cells stimulated by IL-1β ± dexamethasone. In CAMP and SARP, 134 and 178 respective genes were differentially expressed in poor responders. CMap analysis identified 46 compounds in common across both cohorts with connectivity scores < −50. γ-linolenic acid, ampicillin, exemestane, brinzolamide, and INCA-6 were selected for functional validation. γ-linolenic acid, brinzolamide, and INCA-6 significantly reduced IL-1β induced luciferase activity and potentiated the anti-inflammatory effect of dexamethasone in A549/NF-κB-luc reporter cells. These results demonstrate how existing drugs, including γ-linolenic acid, brinzolamide, and INCA-6, may be repurposed to improve corticosteroid response in asthmatics. |
| topic |
asthma anti-asthmatic agents drug repositioning glucocorticoid effect |
| url |
https://www.mdpi.com/2075-4426/11/3/175 |
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