Modeling airway persistent infection of Moraxella catarrhalis and nontypeable Haemophilus influenzae by using human in vitro models
Andrea Ariolli, Martina Canè, Martina Di Fede, Simona Tavarini, Anna Rita Taddei, Kevin Pete Buno, Isabel Delany, Silvia Rossi Paccani, Alfredo Pezzicoli

TL;DR
This study uses human airway models to better understand how two bacteria cause long-term lung infections and could help find new treatments.
Contribution
The study introduces an improved in vitro model to study persistent respiratory infections over extended periods.
Findings
The inverted ALI model enabled monitoring of bacterial infections for up to three weeks.
NTHi and Mcat formed intracellular bacterial communities and biofilm-like structures.
The model preserved tissue differentiation while mimicking natural defense mechanisms.
Abstract
Non-typeable Haemophilus influenzae (NTHi) and Moraxella catarrhalis (Mcat) are two common respiratory tract pathogens often associated with acute exacerbations in Chronic Obstructive Pulmonary Disease (COPD) as well as with otitis media (OM) in children. Although there is evidence that these pathogens can adopt persistence mechanisms such as biofilm formation, the precise means through which they contribute to disease severity and chronicity remains incompletely understood, posing challenges for their effective eradication. The identification of potential vaccine candidates frequently entails the characterization of the host-pathogen interplay in vitro even though this approach is limited by the fact that conventional models do not permit long term bacterial infections. In the present work, by using air-liquid-interface (ALI) human airway in vitro models, we aimed to recreate…
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Taxonomy
TopicsPneumonia and Respiratory Infections · Inhalation and Respiratory Drug Delivery · Tracheal and airway disorders
