Whole lung proteome of an acute epithelial injury mouse model in comparison to spatially resolved proteomes

Author:

Griesser Eva1ORCID,Gesell Martin1,Veyel Daniel1,Lamla Thorsten1,Geillinger‐Kästle Kerstin2ORCID,Rist Wolfgang1ORCID

Affiliation:

1. Drug Discovery Sciences Boehringer Ingelheim Pharma GmbH & Co. KG Biberach an der Riss Germany

2. Immunology & Respiratory Diseases Research Boehringer Ingelheim Pharma GmbH & Co. KG Biberach an der Riss Germany

Abstract

AbstractEpithelial injury is one of the major drivers of acute pulmonary diseases. Recurring injury followed by aberrant repair is considered as the primary cause of chronic lung diseases, such as idiopathic pulmonary fibrosis (IPF). Preclinical in vivo models allow studying early disease‐driving mechanisms like the recently established adeno‐associated virus‐diphtheria toxin receptor (AAV‐DTR) mouse model of acute epithelial lung injury, which utilises AAV mediated expression of the human DTR. We performed quantitative proteomics of homogenised lung samples from this model and compared the results to spatially resolved proteomics data of epithelial cell regions from the same animals. In whole lung tissue proteins involved in cGAS‐STING and interferon pathways, proliferation, DNA replication and the composition of the provisional extracellular matrix were upregulated upon injury. Besides epithelial cell markers SP‐A, SP‐C and Scgb1a1, proteins involved in cilium assembly, lipid metabolism and redox pathways were among downregulated proteins.Comparison of the bulk to spatially resolved proteomics data revealed a large overlap of protein changes and striking differences. Together our study underpins the broad usability of bulk proteomics and pinpoints to the benefit of sophisticated proteomic analyses of specific tissue regions or single cell types.

Publisher

Wiley

Subject

Molecular Biology,Biochemistry

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