Proteome alterations in human autopsy tissues in relation to time after death

Author:

Kocsmár ÉvaORCID,Schmid Marlene,Cosenza-Contreras Miguel,Kocsmár Ildikó,Föll Melanie,Krey Leah,Barta Bálint András,Rácz Gergely,Kiss András,Werner Martin,Schilling OliverORCID,Lotz GáborORCID,Bronsert Peter

Abstract

AbstractProtein expression is a primary area of interest for routine histological diagnostics and tissue-based research projects, but the limitations of its post-mortem applicability remain largely unclear. On the other hand, tissue specimens obtained during autopsies can provide unique insight into advanced disease states, especially in cancer research. Therefore, we aimed to identify the maximum post-mortem interval (PMI) which is still suitable for characterizing protein expression patterns, to explore organ-specific differences in protein degradation, and to investigate whether certain proteins follow specific degradation kinetics. Therefore, the proteome of human tissue samples obtained during routine autopsies of deceased patients with accurate PMI (6, 12, 18, 24, 48, 72, 96 h) and without specific diseases that significantly affect tissue preservation, from lungs, kidneys and livers, was analyzed by liquid chromatography–tandem mass spectrometry (LC–MS/MS). For the kidney and liver, significant protein degradation became apparent at 48 h. For the lung, the proteome composition was rather static for up to 48 h and substantial protein degradation was detected only at 72 h suggesting that degradation kinetics appear to be organ specific. More detailed analyses suggested that proteins with similar post-mortem kinetics are not primarily shared in their biological functions. The overrepresentation of protein families with analogous structural motifs in the kidney indicates that structural features may be a common factor in determining similar postmortem stability. Our study demonstrates that a longer post-mortem period may have a significant impact on proteome composition, but sampling within 24 h may be appropriate, as degradation is within acceptable limits even in organs with faster autolysis.

Funder

EU- and European Social Fund

National Research, Development and Innovation Office

Deutsche Forschungsgemeinschaft

Centers for Personalized Medicine Baden-Wuerttemberg

German Consortium for Translational Cancer Research

ERA PerMed programme

Universitätsklinikum Freiburg

Publisher

Springer Science and Business Media LLC

Subject

Cell Biology,Cellular and Molecular Neuroscience,Pharmacology,Molecular Biology,Molecular Medicine

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