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  • Functional omics analyses reveal only minor effects of microRNAs on human somatic stem cell differentiation.

Functional omics analyses reveal only minor effects of microRNAs on human somatic stem cell differentiation.

Scientific reports (2020-02-26)
Jessica Schira-Heinen, Agathe Czapla, Marion Hendricks, Andreas Kloetgen, Wasco Wruck, James Adjaye, Gesine Kögler, Hans Werner Müller, Kai Stühler, Hans-Ingo Trompeter
ABSTRACT

The contribution of microRNA-mediated posttranscriptional regulation on the final proteome in differentiating cells remains elusive. Here, we evaluated the impact of microRNAs (miRNAs) on the proteome of human umbilical cord blood-derived unrestricted somatic stem cells (USSC) during retinoic acid (RA) differentiation by a systemic approach using next generation sequencing analysing mRNA and miRNA expression and quantitative mass spectrometry-based proteome analyses. Interestingly, regulation of mRNAs and their dedicated proteins highly correlated during RA-incubation. Additionally, RA-induced USSC demonstrated a clear separation from native USSC thereby shifting from a proliferating to a metabolic phenotype. Bioinformatic integration of up- and downregulated miRNAs and proteins initially implied a strong impact of the miRNome on the XXL-USSC proteome. However, quantitative proteome analysis of the miRNA contribution on the final proteome after ectopic overexpression of downregulated miR-27a-5p and miR-221-5p or inhibition of upregulated miR-34a-5p, respectively, followed by RA-induction revealed only minor proportions of differentially abundant proteins. In addition, only small overlaps of these regulated proteins with inversely abundant proteins in non-transfected RA-treated USSC were observed. Hence, mRNA transcription rather than miRNA-mediated regulation is the driving force for protein regulation upon RA-incubation, strongly suggesting that miRNAs are fine-tuning regulators rather than active primary switches during RA-induction of USSC.

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Anti-Ki-67 Antibody, clone Ki-S5, clone Ki-S5, Chemicon®, from mouse