Rho protein signaling and target discovery in vascular and pulmonary diseases
Vincent Sauzeau, Gervaise Loirand, Thibaut Quillard
Airway hyperresponsiveness (AHR) and pulmonary remodeling are hallmarks of asthma. The molecular mechanisms regulating airway smooth muscle cells (aSMC) contraction and proliferation involved in severe asthma are still largely unknown. Recently, we identified a new signaling pathway of regulation of intracellular Ca2+ by the small GTPase Rac1 that plays an essential role in aSMC bronchoconstriction (André et al. JACI 2018). In addition, we demonstrated that (i) Rac1 is activated in airways from mouse models of asthma, and (ii) the specific deletion of the Rac1 gene in smooth muscle cells prevents AHR and bronchial muscularization. Rac1 signaling thus appears as a new attractive therapeutic target in asthma. The challenge of this project is to translate our original findings and "proof-of-concept" from mice models of asthma to human disease and to evaluate the therapeutic potential of inhibiting the Rac1 signaling pathway in severe asthma patients.
Three research axes have been initiated to achieve these objectives :
- Assessment of the expression and activity of Rac1 in airway smooth muscle of asthmatic patients
- Identification of Rac1 activators in asthma
Activation of Rac1 (corresponding to the switch from a GDP-bound state to a GTP-bound state) requires a guanine nucleotide exchange factor (Rac GEF) that catalyzes GDP to GTP exchange. The Rac GEF(s) responsible for the over-activity of Rac1 in asthma thus represent potentially valuable therapeutic targets. We will set up biochemical and proteomic approaches to identify Rac1 GEF activated in aSMC during asthma in allergic asthma experimental model (house dust mite-sensitized mice) and human biopsies, and assess their role in the development of the disease.
- Discovery and development of new Rac1 inhibitors
Publications & Patents
Essential role of smooth muscle Rac1 in severe asthma-associated airway remodelling. Dilasser F, Rose L, Hassoun D, Klein M, Rousselle M, Brosseau C, Guignabert C, Taillé C, Dombret MC, Di Candia L, Heddebaut N, Bouchaud G, Pretolani M, Magnan A, Loirand G, Sauzeau V. Thorax 2021; doi:10.1136/thoraxjnl-2020-216271.
Essential role of smooth muscle Rac1 in severe asthma associated-airway remodeling. Dilasser F, Rose L, Hassoun D, Klein M, Rousselle M, Brosseau C, Guignabert C, Taille C, Dombret MC, Di-Candia L, Heddebaut N, Bouchaud G, Pretolani M, Magnan A, Loirand G, Sauzeau V. Thorax. 2021
Leukocyte RhoA exchange factor Arhgef1 mediates vascular inflammation and atherosclerosis. Carbone ML, Chadeuf G, Heurtebise-Chrétien S, Prieur X, Quillard T, Goueffic Y, Vaillant N, Rio M, Castan L, Durand M, Baron-Menguy C, Aureille J, Desfrançois J, Tesse A, Torres RM, Loirand G. J Clin Invest. 2017
Targeting of Rac1 prevents bronchoconstriction and airway hyperresponsiveness. André-Grégoire G, Dilasser F, Chesné J, Braza F, Magnan A, Loirand G, Sauzeau V. J Allergy Clin Immunol. 2017
Smooth muscle specific Rac1 deficiency induces hypertension by preventing p116RIP3-dependent RhoA inhibition. André G, Sandoval JE, Retailleau K, Loufrani L, Toumaniantz G, Offermanns S, Rolli-Derkinderen M, Loirand G and Sauzeau V. J Am Heart Assoc. 2014
Patents
- "Methods and Pharmaceutical composition for inducing bronchodilatation". V. Sauzeau et al. (PCT/EP2014/062402)
- "Inhibitors of rac1 and uses thereof for inducing bronchodilatation." V. Sauzeau et al. (EP17305662)
Funding
- Agence National pour la Recherche
- Région Pays de la Loire
- Institut de Recherche en Santé Respiratoire
- Fondation du Souffle