mBio (Apr 2023)
Adaptation of Nontypeable Haemophilus influenzae in Human Airways in COPD: Genome Rearrangements and Modulation of Expression of HMW1 and HMW2
Abstract
ABSTRACT Chronic obstructive pulmonary disease (COPD) is a common debilitating disorder that is the third most common cause of death globally. Chronic lower airway infection by nontypeable Haemophilus influenzae (NTHi) in adults with COPD increases airway inflammation, causes increased symptoms, and accelerates progressive loss of lung function. Little is known about the mechanisms by which NTHi survives in COPD airways. To explore this question, the present study analyzes, in detail, 14 prospectively collected, serial isolates of a strain that persisted for 543 days in a patient with COPD, including analysis of four gap-free complete genomes. The NTHi genome underwent inversion of a ~400-kb segment three times during persistence. This inversion event resulted in switching of expression of the HMW1A and HMW2A adhesins as the inversion sites are in the promoter regions of HMW1 and HMW2. Regulation of the level of expression of HMW 1 and HMW2 in the human airways was controlled by the ~400-kb inversion and by 7-bp repeats in the HMW promoters. Analysis of knockout mutants of the persistent strain demonstrated that HMW1 and HMW2 proteins both function in the adherence of NTHi to human respiratory epithelial cells during persistence and that HMW1 also facilitates invasion of epithelial cells. An inverse relationship between biofilm formation and HMW1 expression was observed during persistence. This work advances understanding of the mechanisms of persistence of NTHi in COPD airways, which can inform the development of novel interventions to treat and prevent chronic NTHi infection in COPD. IMPORTANCE Nontypeable Haemophilus influenzae (NTHi) persists in the lower airways of adults with chronic obstructive pulmonary disease (COPD) for months to years, increasing airway inflammation that accelerates the progressive loss of lung function. Understanding the mechanisms of persistence in human airways by NTHi is critical in developing novel interventions. Here, in detail, we studied longitudinally collected sequential isolates of a strain of NTHi that persisted in an adult with COPD, including analysis of four gap-free genomes and knockout mutants to elucidate how the genome adapts in human airways. The NTHi genome underwent a genome rearrangement during persistence and this inversion impacted regulation of expression of key virulence phenotypes, including adherence to respiratory epithelial cells, invasion of epithelial cells and biofilm formation. These novel observations advance our understanding of the mechanisms of persistence of NTHi in the airways of adults with COPD.
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