Dysbiosis Impact on Lung Disease in HIV

Despite the high burden of respiratory symptoms in the HIV+ population, causes of chronic obstructive pulmonary disease (COPD) in individuals with HIV are poorly understood. Microbial communities present in the lungs or gut could play an important role in COPD via their ability to stimulate inflammation and oxidative stress and by the interactions of microbial and host gene transcription. By exploring the impact of the structure and function of microbial communities on the host in HIV-associated COPD, this project could lead to discovery of novel therapeutics to treat and prevent COPD. Subjects will be 20 HIV+ individuals with COPD (FEV1/FVC \<0.70 and FEV1 and DLco\<80% predicted) and 20 HIV+ individuals with normal lung function (controls) and 10 HIV negative individuals recruited from our ongoing cohorts. Controls will be matched to the individuals with COPD based on age, gender, pack-years of smoking, ART use, HIV viral suppression, and history of illicit drug use. Bronchoscopy will be performed on all subjects. The investigator will uncover mechanisms that contribute to COPD in HIV+ individuals, which will lead to interventional therapies. For example, the investigators evaluate the impact of bacteria on lung epithelial cell gene expression and inflammation and test ability of anti-inflammatories to alter responses. Identification of other key pathways or microbes could also lead to testing of pro-biotics, post-biotics (bacterial metabolites), or therapy with bacteria genetically modified for desired function or metabolites.