RNA-Sequencing And Mass-Spectrometry Proteomic Time-Series Analysis of T-Cell Differentiation Identified Multiple Splice Variants Models That Predicted Validated Protein Biomarkers In Inflammatory Diseases

Abstract Background Profiling of mRNA expression is an important method to identify biomarkers but complicated by limited correlations between mRNA expression and protein abundance. We hypothesized that these correlations could be improved by mathematical models based on measuring splice variants and time delay in protein translation. Methods We characterized time-series of primary human naïve CD4+ T cells during early T-helper type 1 differentiation with RNA-sequencing and mass-spectrometry proteomics. We then performed computational time-series analysis in this system and in two other key human and murine immune cell types. Linear mathematical mixed time-delayed splice variant models were used to predict protein abundances, and the models were validated using out-of-sample predictions. Lastly, we re-analysed RNA-Seq datasets to evaluate biomarker discovery in five T-cell associated diseases, further validating the findings for multiple sclerosis (MS) and asthma.Results The new models significantly out-performing models not including the usage of multiple splice variants and time-delays, as shown in cross-validation tests. Our mathematical models provided more differentially expressed proteins between patients and controls in all five diseases. Moreover, analysis of these proteins in asthma and MS supported their relevance. One marker, sCD27, was clinically validated in MS using two independent cohorts, for treatment response and prognosis.Conclusion Our splice variant and time-delay models substantially improved the prediction of protein abundance from mRNA data in three immune cell-types. The models provided valuable biomarker candidates, which were validated in clinical studies of MS and asthma. We propose that our strategy is generally applicable for biomarker discovery..

Medienart:	Preprint

Erscheinungsjahr:	2022
Erschienen:	2022

Enthalten in:	ResearchSquare.com - (2022) vom: 31. Jan. Zur Gesamtaufnahme - year:2022

Sprache:	Englisch

Beteiligte Personen:

Magnusson, Rasmus [VerfasserIn] Rundquist, Olof [VerfasserIn] Kim, Min Jung [VerfasserIn] Hellberg, Sandra [VerfasserIn] Na, Chan Hyun [VerfasserIn] Benson, Mikael [VerfasserIn] Gomez-Cabrero, David [VerfasserIn] Kockum, Ingrid [VerfasserIn] Tegnér, Jesper [VerfasserIn] Piehl, Fredrik [VerfasserIn] Jagodic, Maja [VerfasserIn] Mellergård, Johan [VerfasserIn] Altafini, Claudio [VerfasserIn] Ernerudh, Jan [VerfasserIn] Jenmalm, Maria C. [VerfasserIn] Nestor, Colm E. [VerfasserIn] Kim, Min-Sik [VerfasserIn] Gustafsson, Mika [VerfasserIn]

Links:	Volltext [kostenfrei]

doi:	10.21203/rs.3.rs-880591/v1

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PPN (Katalog-ID):	XRA034824456