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Research

PI-3K SIGNALLING IS A CONSENSUS PATHWAY IN MUSCULOSKELETAL DE- AND RE-DIFFERENTIATION

British Society for Matrix Biology (BSMB) Satellite Meeting: ‘Advances in Tendon Research: From Bench to Bedside’



Abstract

Introduction

The two-dimensional (2D) monolayer culture paradigm has limited translational potential to physiological systems; chondrocytes and tenocytes in monolayer lose expression of hallmarks of differentiated status (dedifferentiation). Qualitative assessment of three-dimensional (3D) cultures in musculoskeletal biology relative to native tissues has been limited. An understanding of prevailing gene regulatory networks is required to define whether 3D culture systems faithfully restitute the native tissue phenotype (redifferentiation). Using a systems biology approach to explore the gene networks associated with de- and re-differentiation may define targetable regulators associated with phenotypic plasticity of adult musculoskeletal cells.

Materials and Methods

Global transcriptomic and proteomic profiling of matrix-depleted chondrocytes and tenocytes from the rat was performed for each of three conditions (native tissue, monolayer at passage three, or tissue-appropriate 3D cultures). Differential analysis of mRNA and protein abundance, gene ontology annotation, pathway topology impact analysis, and derivation of common mechanistic networks was undertaken to define consensus expression profiles, signalling pathways, and upstream regulators for de- and re-differentiation in each cell type.

Results

Principal component analysis demonstrated a convergence of gene expression profiles in monolayer, including the expression of musculoskeletal progenitor markers scleraxis (Scx) and Mohawk (Mkx). Three-dimensional culture systems failed to demonstrate parity with native tissue and incited the expression of Il-6 and Ptgs2 (COX2). The CCN-family member Ctgf (CCN2), and the marker of skeletal differentiation Grem1 (gremlin 1), were consistently differentially abundant in de- and re-differentiation at both the mRNA and protein level. Pathway topology impact analysis defined PI-3K/Akt as the common signalling pathway in de- and re-differentiation.

Discussion

Historically, the terms de- and re-differentiation have been used with no mechanistic definition. Additionally, there is no standardised phenotype for 3D cultures to benchmark novel progress in bioengineering. Consensus upstream regulators yielded a unified mechanistic network for chondrocyte and tenocyte phenotypes in three conditions. The PI-3K/Akt signalling pathway has been implicated in a range of physiological activities including dedifferentiation, proliferation, matrix synthesis, and cell survival. Pathway analysis suggests that the PI-3K/Akt signalling pathway may contribute to the de- and re-differentiation phenotypes for both chondrocytes and tenocytes and represents a rational target for further network-level analysis.


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