Differential Evolution of Achromobacter spp. Isolates in Upper and Lower Airways of People with Cystic Fibrosis

: Achromobacter spp. are opportunistic pathogens in people with cystic fibrosis (PwCF), yet the role of the upper airways in their persistence and adaptation remains poorly understood. We investigated whether the sinonasal compartment may act as reservoir and evolutionary niche for Achromobacter spp. during airway infection. Twenty-two isolates obtained from paired nasal lavage and sputum samples of seven PwCF were analysed by whole-genome sequencing. Within each PwCF, identical clone types were detected in both airway compartments, supporting bacterial exchange between upper and lower airways. Despite clonal relatedness, substantial genomic diversification was observed between paired isolates. Genomic signatures indicative of elevated mutation rates were detected in a high number of isolates (73%) and in both airway compartments, highlighting widespread genomic diversification across the respiratory tract. Mobilome analysis revealed compartment-specific variations in insertion sequences, prophages, and integrative elements, suggesting genome plasticity. Additionally, mutation in an aspartate kinase gene was consistently associated with loss of biofilm formation in vitro, highlighting a potential link between this pathway and biofilm phenotype. Overall, our findings indicate that upper and lower airways represent interconnected but partially independent ecological niches where Achromobacter populations can diverge during colonization, supporting the view that both compartments contribute to their persistence and evolution in CF airways.