Background and aim: The primary transcript of fibronectin (FN) undergoes alternative splicing to generate different isoforms, including FN containing the Extra Domain A (FN_EDA+), whose expression is regulated spatially and temporarily during developmental and disease conditions including acute inflammation. The role of FN_EDA+ during sepsis, however, remains elusive. Methods: Mice constitutively express the EDA domain of fibronectin (EDA+/+); lacking the FN EDA domain (EDA-/-) or with a conditional ablation of EDA + inclusion only in liver produced FN (alb-CRE+EDA floxed mice) thus expressing normal plasma FN were used. Systemic inflammation and sepsis were induced by either LPS injection (70 mg/kg) or by cecal ligation and puncture (CLP) Neutrophils isolated from septic patients were tested for neutrophil binding ability. Results: We observed that EDA+/+ were protected toward sepsis as compared to EDA-/- mice. Also alb-CRE+EDA floxed mice presented reduced survival, thus indicating a key role for EDA in protecting toward sepsis. This phenotype was associated with improved liver and spleen inflammatory profile. Ex vivo experiments showed that neutrophils bind to a larger extent to an FN_EDA + coated surface as compared to FN, thus potentially limiting their over-reactivity. Conclusions: Our study demonstrates that the inclusion of the EDA domain in fibronectin dampens the nflammatoryi consequences of sepsis.
Fibronectin extra domain a limits liver dysfunction and protects mice during acute inflammation / V.K.P. Venu, A. Moregola, L. Da Dalt, P. Uboldi, F. Bonacina, A.F. Muro, G.D. Norata. - In: ATHEROSCLEROSIS PLUS. - ISSN 2667-0895. - 52:(2023 Jun), pp. 23-31. [10.1016/j.athplu.2023.05.002]
Fibronectin extra domain a limits liver dysfunction and protects mice during acute inflammation
A. Moregola;L. Da Dalt;P. Uboldi;F. Bonacina;G.D. Norata
Ultimo
2023
Abstract
Background and aim: The primary transcript of fibronectin (FN) undergoes alternative splicing to generate different isoforms, including FN containing the Extra Domain A (FN_EDA+), whose expression is regulated spatially and temporarily during developmental and disease conditions including acute inflammation. The role of FN_EDA+ during sepsis, however, remains elusive. Methods: Mice constitutively express the EDA domain of fibronectin (EDA+/+); lacking the FN EDA domain (EDA-/-) or with a conditional ablation of EDA + inclusion only in liver produced FN (alb-CRE+EDA floxed mice) thus expressing normal plasma FN were used. Systemic inflammation and sepsis were induced by either LPS injection (70 mg/kg) or by cecal ligation and puncture (CLP) Neutrophils isolated from septic patients were tested for neutrophil binding ability. Results: We observed that EDA+/+ were protected toward sepsis as compared to EDA-/- mice. Also alb-CRE+EDA floxed mice presented reduced survival, thus indicating a key role for EDA in protecting toward sepsis. This phenotype was associated with improved liver and spleen inflammatory profile. Ex vivo experiments showed that neutrophils bind to a larger extent to an FN_EDA + coated surface as compared to FN, thus potentially limiting their over-reactivity. Conclusions: Our study demonstrates that the inclusion of the EDA domain in fibronectin dampens the nflammatoryi consequences of sepsis.
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