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Unexpected effects of systemic steroids on the CRSwNP proteome: is protein upregulation more important than inhibition?
Author(s) -
Workman Alan D.,
Miyake Michelle M.,
Nocera Angela L.,
Mueller Sarina K.,
Finn Kristen,
Otu Hasan H.,
Libermann Towia A.,
Bleier Benjamin S.
Publication year - 2020
Publication title -
international forum of allergy and rhinology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.503
H-Index - 46
eISSN - 2042-6984
pISSN - 2042-6976
DOI - 10.1002/alr.22497
Subject(s) - nasal polyps , medicine , downregulation and upregulation , steroid , proteome , prednisone , chronic rhinosinusitis , fold change , immunology , bioinformatics , biology , biochemistry , hormone , gene
Background Oral steroids, traditionally thought of as immunosuppressive agents that are broad in their immunomodulatory effects, are a mainstay of treatment to reduce disease burden in chronic rhinosinusitis with nasal polyps (CRSwNP). The purpose of this study was to determine how differentially expressed proteins in CRSwNP are affected by oral steroid therapy. Methods Matched exosomal proteomic arrays were quantified using aptamer‐based methods in systemic steroid‐naive CRSwNP patients before and after a standardized oral prednisone course (n = 12). Previously identified differentially expressed proteins in CRSwNP patients were compared to determine the effect of steroids on expression. Fisher's exact test and t test were applied to normalized protein expression profiles to determine significance. Results Of 18 proteins previously identified to be highly underexpressed in CRSwNP, 16 (89%) had an average increase after systemic steroid treatment ( p < 0.05). Lactoperoxidase, initially present at 9‐fold lower concentrations in CRSwNP subjects, increased by 209% after steroid treatment. A similar trend was observed with other proteins of interest, including platelet factor 4 and C‐C motif ligand 28. The converse of this steroid effect was not true; of the 53 proteins that are highly overexpressed in CRSwNP, only 22 (42%) decreased in quantity with steroid use. Conclusion Proteomic analysis of differentially expressed proteins in CRSwNP demonstrates that systemic steroids cause almost uniform upregulation of transcriptionally decreased proteins, whereas the effects of steroids on transcriptionally increased proteins are more heterogeneous. Thus, proteomic analysis may be an effective tool to understand specific therapeutic benefits of steroid use in polyp disease and to create more targeted treatments.