Multiplex protein profiling of bronchial aspirates reveals disease-, mortality- and respiratory sequelae-associated signatures in critically ill patients with ARDS secondary to SARS-CoV-2 infection

Molinero, Marta; Gómez Falguera, Silvia; Benítez, Iván; Vengoechea Aragoncillo, José Javier; González, Jessica; Polanco, Dinora; Gort Paniello, Clara; Moncusí Moix, Anna; García Hidalgo, María Coronada; Perez-Pons, Manel; Belmonte, Thalía; Torres, Gerard; Caballero, Jesús; Barberà, Carme; Ayestarán Rota, Jose Ignacio; Socias, Lorenzo; Ceccato, Adrián; Fernández Barat, Laia; Ferrer, Ricard; Garcia-Gasulla, Dario; Lorente, José Ángel; Menéndez, Rosario; Motos, Anna; Peñuelas, Oscar; Riera, Jordi; Torres, Antoni; Barbé Illa, Ferran; de Gonzalo Calvo, David

doi:https://doi.org/10.3389/fimmu.2022.942443

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2022

Author

Molinero, Marta

Gómez Falguera, Silvia

Benítez, Iván

Vengoechea Aragoncillo, José Javier

González, Jessica

Polanco, Dinora

Gort Paniello, Clara

Moncusí Moix, Anna

García Hidalgo, María Coronada

Perez-Pons, Manel

Belmonte, Thalía

Torres, Gerard

Caballero, Jesús

Barberà, Carme

Ayestarán Rota, Jose Ignacio

Socias, Lorenzo

Ceccato, Adrián

Fernández Barat, Laia

Ferrer, Ricard

Garcia-Gasulla, Dario

Lorente, José Ángel

Menéndez, Rosario

Motos, Anna

Peñuelas, Oscar

Riera, Jordi

Torres, Antoni

Barbé Illa, Ferran

de Gonzalo Calvo, David

Suggested citation

Molinero, Marta; Gómez Falguera, Silvia; Benítez, Iván; Vengoechea Aragoncillo, José Javier; González, Jessica; Polanco, Dinora; ... de Gonzalo Calvo, David. (2022) . Multiplex protein profiling of bronchial aspirates reveals disease-, mortality- and respiratory sequelae-associated signatures in critically ill patients with ARDS secondary to SARS-CoV-2 infection. Frontiers in Immunology, 2022, vol. 13, 942443. https://doi.org/10.3389/fimmu.2022.942443.

Abstract

Introduction: Bronchial aspirates (BAS) obtained during invasive mechanical ventilation (IMV) constitutes a useful tool for molecular phenotyping and decision making. Aim: To identify the proteomic determinants associated with disease pathogenesis, all-cause mortality and respiratory sequelae in BAS samples from critically ill patients with SARS-CoV-2-induced ARDS. Methods: Multicenter study including 74 critically ill patients with COVID-19 and non-COVID-19 ARDS. BAS were obtained by bronchoaspiration after IMV initiation. Three hundred sixty-four proteins were quantified using proximity extension assay (PEA) technology. Random forest models were used to assess predictor importance. Results: After adjusting for confounding factors, CST5, NADK, SRPK2 and TGFa were differentially detected in COVID-19 and non-COVID-19 patients. In random forest models for COVID-19, CST5, DPP7, NADK, KYAT1 and TYMP showed the highest variable importance. In COVID-19 patients, reduced levels of ENTPD2 and PTN were observed in nonsurvivors of ICU stay, even after adjustment. AGR2, NQO2, IL-1a, OSM and TRAIL showed the strongest associations with in-ICU mortality and were used to construct a proteinbased prediction model. Kaplan-Meier curves revealed a clear separation in mortality risk between subgroups of PTN, ENTPD2 and the prediction model. Cox regression models supported these findings. In survivors, the levels of FCRL1, NTF4 and THOP1 in BAS samples obtained during the ICU stay correlated with lung function (i.e., DLCO levels) 3 months after hospital discharge. Similarly, Flt3L and THOP1 levels were correlated with radiological features (i.e., TSS). These proteins are expressed in immune and nonimmune lung cells. Poor host response to viral infectivity and an inappropriate reparative mechanism seem to be linked with the pathogenesis of the disease and fatal outcomes, respectively. Conclusion: BAS proteomics identified novel factors associated with the pathology of SARS-CoV-2-induced ARDS and its adverse outcomes. BASbased protein testing emerges as a novel tool for risk assessment in the ICU.