Immunophenotyping and Transcriptional Profiling of in Vitro Cultured Human Adipose Tissue Derived Stem Cells

Overview

Journal Sci Rep

Specialty Science

Date 2018 Jul 29

PMID 30054533

Citations 22

Authors

Alina Mieczkowska

Adriana Schumacher

Natalia Filipowicz

Anna Wardowska

Maciej Zielinski

Piotr Madanecki

Ewa Nowicka

Paulina Langa

Milena Deptula

Jacek Zielinski

Karolina Kondej

Alicja Renkielska

Patrick G Buckley

David K Crossman

Michael R Crowley

Artur Czupryn

Piotr Mucha

Pawel Sachadyn

Lukasz Janus

Piotr Skowron

Sylwia Rodziewicz-Motowidlo

Miroslawa Cichorek

Michal Pikula

Arkadiusz Piotrowski

Affiliations

Soon will be listed here.

Abstract

Adipose-derived stem cells (ASCs) have become an important research model in regenerative medicine. However, there are controversies regarding the impact of prolonged cell culture on the ASCs phenotype and their differentiation potential. Hence, we studied 10 clinical ASCs replicates from plastic and oncological surgery patients, in six-passage FBS supplemented cultures. We quantified basic mesenchymal cell surface marker transcripts and the encoded proteins after each passage. In parallel, we investigated the differentiation potential of ASCs into chondrocytes, osteocytes and adipocytes. We further determined the effects of FBS supplementation and subsequent deprivation on the whole transcriptome by comprehensive mRNA and miRNA sequencing. Our results show that ASCs maintain differentiation potential and consistent profile of key mesenchymal markers, with apparent expression of distinct isoforms, in long-term cultures. No significant differences were observed between plastic and oncological surgery cohorts. ASCs in FBS supplemented primary cultures are almost committed to mesenchymal lineages as they express key epithelial-mesenchymal transition genes including early mesenchymal markers. Furthermore, combined mRNA/miRNA expression profiling strongly supports a modulatory role for the miR-30 family in the commitment process to mesenchymal lineages. Finally, we propose improvements to existing qPCR based assays that address alternative isoform expression of mesenchymal markers.

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