The Species-specific Regenerative Effects of Notochordal Cell-conditioned Medium on Chondrocyte-like Cells Derived from Degenerated Human Intervertebral Discs

Overview

Journal Eur Cell Mater

Date 2015 Sep 22

PMID 26388616

Citations 31

Authors

F C Bach

S A H de Vries

A Krouwels

L B Creemers

K Ito

B P Meij

M A Tryfonidou

Affiliations

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Abstract

During intervertebral disc (IVD) maturation, the main cell type shifts from notochordal cells (NCs) to chondrocyte-like cells (CLCs). NCs secrete factors with regenerative potential, making them an interesting focus for regenerative treatments. During initial development, these strategies preferably employ non-human donors due to easy availability of their NC-rich nucleus pulposus (NP) tissue. To increase the success of translating these strategies for clinical application, this study aimed to delineate whether NC-secreted factors of different species have a regenerative effect on human CLCs. Human, canine and porcine NC-rich NP tissue and NC-conditioned medium (NCCM) were analysed biochemically and histologically. Human CLC micro-aggregates from degenerated IVDs were cultured in human, canine or porcine NCCM. Collagen, glycosaminoglycan (GAG) and DNA content was determined and histology was performed. Canine and porcine NPs were richer in NCs than human NPs. Human NPs contained the highest collagen content, whereas the DNA and GAG content of canine NPs was significantly higher than that of human or porcine NPs. NCCM from all species significantly increased the DNA and GAG content of the human CLC micro-aggregates. Porcine and canine NCCM were significantly more potent than human NCCM in inducing GAG deposition, whereas only human NCCM induced collagen type II production. Secreted factors from human, canine and porcine NC-rich NPs exerted regenerative effects on human CLCs, indicating a cross-species effect. Bioactive compound(s) are present in NCCM of different species that may reverse human IVD degeneration, supporting further research into strategies based on NC-technology employing canine or porcine models for their translation into humans.

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Alginate vs. Hyaluronic Acid as Carriers for Nucleus Pulposus Cells: A Study on Regenerative Outcomes in Disc Degeneration.

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Getting to the Core: Exploring the Embryonic Development from Notochord to Nucleus Pulposus.

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Recommendations for intervertebral disc notochordal cell investigation: From isolation to characterization.

Williams R, Laagland L, Bach F, Ward L, Chan W, Tam V JOR Spine. 2023; 6(3):e1272.

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