PT - JOURNAL ARTICLE AU - Sarah Samorodnitsky AU - Eric F. Lock AU - Monica Kruk AU - Alison Morris AU - Janice M. Leung AU - Ken M. Kunisaki AU - Timothy J. Griffin AU - Chris H. Wendt TI - Lung proteome and metabolome endotype in HIV-associated obstructive lung disease AID - 10.1183/23120541.00332-2022 DP - 2023 Mar 01 TA - ERJ Open Research PG - 00332-2022 VI - 9 IP - 2 4099 - http://openres.ersjournals.com/content/9/2/00332-2022.short 4100 - http://openres.ersjournals.com/content/9/2/00332-2022.full SO - erjor2023 Mar 01; 9 AB - Purpose Obstructive lung disease is increasingly common among persons with HIV, both smokers and nonsmokers. We used aptamer proteomics to identify proteins and associated pathways in HIV-associated obstructive lung disease.Methods Bronchoalveolar lavage fluid (BALF) samples from 26 persons living with HIV with obstructive lung disease were matched to persons living with HIV without obstructive lung disease based on age, smoking status and antiretroviral treatment. 6414 proteins were measured using SomaScan® aptamer-based assay. We used sparse distance-weighted discrimination (sDWD) to test for a difference in protein expression and permutation tests to identify univariate associations between proteins and forced expiratory volume in 1 s % predicted (FEV1 % pred). Significant proteins were entered into a pathway over-representation analysis. We also constructed protein-driven endotypes using K-means clustering and performed over-representation analysis on the proteins that were significantly different between clusters. We compared protein-associated clusters to those obtained from BALF and plasma metabolomics data on the same patient cohort.Results After filtering, we retained 3872 proteins for further analysis. Based on sDWD, protein expression was able to separate cases and controls. We found 575 proteins that were significantly correlated with FEV1 % pred after multiple comparisons adjustment. We identified two protein-driven endotypes, one of which was associated with poor lung function, and found that insulin and apoptosis pathways were differentially represented. We found similar clusters driven by metabolomics in BALF but not plasma.Conclusion Protein expression differs in persons living with HIV with and without obstructive lung disease. We were not able to identify specific pathways differentially expressed among patients based on FEV1 % pred; however, we identified a unique protein endotype associated with insulin and apoptotic pathways.BALF protein profile distinguishes HIV-associated obstructive lung disease. A unique endotype in black men with more severe obstructive lung disease was found that associated with signal transduction pathways, cell cycle and apoptosis. https://bit.ly/3u7j3Np