Metabolism as an early predictor of DPSCs aging

Dannie Macrin,Damien Detraux,Randall T Moon,Yuliang Wang,Aaron M Robitaille,Anup Madan,Hannele Ruohola-Baker,Yan Ting Zhao,Jason W Miklas,Abdiasis M Hussein,Ammar Alghadeer,Arikketh Devi,Julie Mathieu

doi:10.1038/s41598-018-37489-4

Abstract

Tissue resident adult stem cells are known to participate in tissue regeneration and repair that follows cell turnover, or injury. It has been well established that aging impedes the regeneration capabilities at the cellular level, but it is not clear if the different onset of stem cell aging between individuals can be predicted or prevented at an earlier stage. Here we studied the dental pulp stem cells (DPSCs), a population of adult stem cells that is known to participate in the repair of an injured tooth, and its properties can be affected by aging. The dental pulp from third molars of a diverse patient group were surgically extracted, generating cells that had a high percentage of mesenchymal stem cell markers CD29, CD44, CD146 and Stro1 and had the ability to differentiate into osteo/odontogenic and adipogenic lineages. Through RNA seq and qPCR analysis we identified homeobox protein, Barx1, as a marker for DPSCs. Furthermore, using high throughput transcriptomic and proteomic analysis we identified markers for DPSC populations with accelerated replicative senescence. In particular, we show that the transforming growth factor-beta (TGF-β) pathway and the cytoskeletal proteins are upregulated in rapid aging DPSCs, indicating a loss of stem cell characteristics and spontaneous initiation of terminal differentiation. Importantly, using metabolic flux analysis, we identified a metabolic signature for the rapid aging DPSCs, prior to manifestation of senescence phenotypes. This metabolic signature therefore can be used to predict the onset of replicative senescence. Hence, the present study identifies Barx1 as a DPSCs marker and dissects the first predictive metabolic signature for DPSCs aging.

Highlights

In the adult human body, stem cells are present in most of the organs in varying proportions performing the biological function of ensuring normal regeneration needed for the maintenance of the organ[1,2,3,4,5]
A candidate set of dental pulp stem cells (DPSCs) (DPSC 29, 43, 44, 45), which showed mid-level expression of the CD29 and CD146 markers were selected for further analysis
We studied the aging of dental pulp stem cells (DPSCs), a population of adult stem cells that is known to participate in the repair of an injured tooth

Summary

Introduction

In the adult human body, stem cells are present in most of the organs in varying proportions performing the biological function of ensuring normal regeneration needed for the maintenance of the organ[1,2,3,4,5]. Proliferation and differentiation capacities of MSCs isolated from older individuals’ bone marrow[21], adipose tissue[22], or teeth[23] are significantly reduced compared to young individuals. The success rate of this treatment after 1–5 years follow-up is reported to be significantly lower in older age groups[24,25,26]. This correlates with the reduced properties of DPSCs isolated from senior individuals. It is not clear if the different onset of stem cell aging between individuals can be predicted or prevented at an earlier stage

Methods

Results

Conclusion