Antibacterial defenses and inflammation during cystic fibrosis

Head of group: Dr. Audrey Bernut

Cystic fibrosis is one of the most frequent fatal genetic diseases in the world. In patients with cystic fibrosis, mutations in the cftr gene trigger the accumulation of thick mucus in the respiratory airways. This promotes recurrent colonization by different pathogenic bacteria as well as an exaggerated immune response, which together conspire to cause fatal lung damage. In addition, mutations in cftr may impact the patients’ immune responses, making these responses more harmful to the host and less effective in fighting bacterial pathogens. However, the mechanisms by which CFTR acts on these processes are poorly understood.

In order to increase our understanding of this altered immune response in cystic fibrosis, we developed an approach based on the use of CFTR-deficient zebrafish models. Thanks to its transparency, the zebrafish larva is an unparalleled in vivo system for visualizing and studying the direct effects of a dysfunctional CFTR on cell-scale anti-infective and inflammatory responses and it allows us to look at some aspects of the lung pathology associated with the disease.

Thanks to the use of zebrafish larvae, our work aims to:
1. assess how CFTR regulates innate immune responses and how its imbalance may promote infection and inflammation in CF,
2. identify therapeutic compounds likely to restore immune balance and infection control.