Microparticles for controlled growth differentiation factor 6 delivery to direct adipose stem cell‐based nucleus pulposus regeneration

Hodgkinson, Tom; Stening, Jasmine Z.; White, Lisa J.; Shakesheff, Kevin M.; Hoyland, Judith A.; Richardson, Stephen M.

doi:10.1002/term.2882

Cited by 19 publications

(14 citation statements)

References 45 publications

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“…rhGDF6 significantly increased the expression of NP-marker genes (SOX9, ACAN, COL2A1, KRT8, KRT18, KRT19, FOXF1, CA12 and T) in NP cells and sGAG production following 14 days in culture. These results are similar to those observed for rhGDF6 stimulation of human MSCs [ 16 , 37 ] and provide further evidence of an anabolic role for GDF6 in healthy IVD homeostasis. rhGDF6 stimulation had no effect on the expression of catabolic enzymes (MMPs, ADAMTSs) in comparison to unstimulated controls, although levels were not induced in the system (e.g., through stimulation with a catabolic cytokine, such as IL-1β), hence GDF6 may not be able to reduce expression below basal levels and further work is required to interrogate this aspect in more detail.…”

Section: Discussionsupporting

confidence: 88%

Regenerative Response of Degenerate Human Nucleus Pulposus Cells to GDF6 Stimulation

Hodgkinson

Gilbert

Pandya

et al. 2020

IJMS

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Growth differentiation factor (GDF) family members have been implicated in the development and maintenance of healthy nucleus pulposus (NP) tissue, making them promising therapeutic candidates for treatment of intervertebral disc (IVD) degeneration and associated back pain. GDF6 has been shown to promote discogenic differentiation of mesenchymal stem cells, but its effect on NP cells remains largely unknown. Our aim was to investigate GDF6 signalling in adult human NP cells derived from degenerate tissue and determine the signal transduction pathways critical for GDF6-mediated phenotypic changes and tissue homeostatic mechanisms. This study demonstrates maintained expression of GDF6 receptors in human NP and annulus fibrosus (AF) cells across a range of degeneration grades at gene and protein level. We observed an anabolic response in NP cells treated with recombinant GDF6 (increased expression of matrix and NP-phenotypic markers; increased glycosaminoglycan production; no change in catabolic enzyme expression), and identified the signalling pathways involved in these responses (SMAD1/5/8 and ERK1/2 phosphorylation, validated by blocking studies). These findings suggest that GDF6 promotes a healthy disc tissue phenotype in degenerate NP cells through SMAD-dependent and -independent (ERK1/2) mechanisms, which is important for development of GDF6 therapeutic strategies for treatment of degenerate discs.

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Section: Discussionsupporting

confidence: 88%

Regenerative Response of Degenerate Human Nucleus Pulposus Cells to GDF6 Stimulation

Hodgkinson

Gilbert

Pandya

et al. 2020

IJMS

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“…Firstly, they are inherently reliant upon the remaining degenerated disc cells to be healthy and sufficient in number to synthesize ECM and ultimately regenerate the disc tissue. Secondly, GF are often short-lived, limiting clinical use toward sustained regeneration [ 324 ]; hence, recent works were investigating the use of microparticles as a GF delivery vehicle [ 325 , 326 , 327 ]. Arguably, this is a likely contributing factor to the lack of efficacy from the GDF5 clinical trial.…”

Section: Ivd Regeneration Strategies: Biological Targets and Biomamentioning

confidence: 99%

“…Furthermore, controlled administration of biologicals is extremely valuable for IVD TE, where cell and/or growth factor therapeutics would rely on single surgical procedures rather than on repeated delivery. In vitro, delivery of GDF6 through MP was demonstrated to be more efficient than repeated exogenous delivery to differentiate adipose stem cells into NP cells [ 327 ], which provides a promising direction for single surgical procedure approaches. MP have also been used to release the anti-inflammatory factor cyclooxygenase-2 in a canine dog model of DD [ 438 ], leading to encouraging results of preventing disease progression and reducing the inflammatory signature prostaglandin E 2 , a crucial nociception mediator.…”

Section: Ivd Regeneration Strategies: Biological Targets and Biomamentioning

confidence: 99%

Multiscale Regulation of the Intervertebral Disc: Achievements in Experimental, In Silico, and Regenerative Research

Baumgartner

Wuertz‐Kozak

Maitre

et al. 2021

IJMS

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Intervertebral disc (IVD) degeneration is a major risk factor of low back pain. It is defined by a progressive loss of the IVD structure and functionality, leading to severe impairments with restricted treatment options due to the highly demanding mechanical exposure of the IVD. Degenerative changes in the IVD usually increase with age but at an accelerated rate in some individuals. To understand the initiation and progression of this disease, it is crucial to identify key top-down and bottom-up regulations’ processes, across the cell, tissue, and organ levels, in health and disease. Owing to unremitting investigation of experimental research, the comprehension of detailed cell signaling pathways and their effect on matrix turnover significantly rose. Likewise, in silico research substantially contributed to a holistic understanding of spatiotemporal effects and complex, multifactorial interactions within the IVD. Together with important achievements in the research of biomaterials, manifold promising approaches for regenerative treatment options were presented over the last years. This review provides an integrative analysis of the current knowledge about (1) the multiscale function and regulation of the IVD in health and disease, (2) the possible regenerative strategies, and (3) the in silico models that shall eventually support the development of advanced therapies.

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“…8,9 Work from our laboratory and others has demonstrated that stimulation of MSCs and ASCs with recombinant human (rh)GDF6 promotes their differentiation to an NP-like phenotype. 10-13 Furthermore, rhGDF6 induces greater increases in NP-marker genes and proteoglycan production than other candidate growth factors, namely rhGDF5 and rhTGFβ3, particularly in ASCs. 10…”

Section: Introductionmentioning

confidence: 99%

High BMPR2 expression leads to enhanced SMAD1/5/8 signalling and GDF6 responsiveness in human adipose-derived stem cells: implications for stem cell therapies for intervertebral disc degeneration

et al. 2020

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Stem cell–based regenerative strategies are promising for intervertebral disc degeneration. Stimulation of bone-marrow- and adipose-derived multipotent stem cells with recombinant human growth differentiation factor 6 (rhGDF6) promotes anabolic nucleus pulposus like phenotypes. In comparison to mesenchymal stem cells, adipose-derived multipotent stem cells exhibit greater NP-marker gene expression and proteoglycan-rich matrix production. To understand these response differences, we investigated bone morphogenetic protein receptor profiles in donor-matched human mesenchymal stem cells and adipose-derived multipotent stem cells, determined differences in rhGDF6 signalling and their importance in NP-like differentiation between cell populations. Bone morphogenetic protein receptor expression in mesenchymal stem cells and adipose-derived multipotent stem cells revealed elevated and less variable expression of BMPR2 in adipose-derived multipotent stem cells, which corresponded with increased downstream pathway activation (SMAD1/5/8, ERK1/2). Inhibitor studies demonstrated SMAD1/5/8 signalling was required for rhGDF6-induced nucleus-pulposus-like adipose-derived multipotent stem cell differentiation, while ERK1/2 contributed significantly to critical nucleus pulposus gene expression, aggrecan and type II collagen production. These data inform cell regenerative therapeutic choices for intervertebral disc degeneration regeneration and identify further potential optimisation targets.

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Microparticles for controlled growth differentiation factor 6 delivery to direct adipose stem cell‐based nucleus pulposus regeneration

Cited by 19 publications

References 45 publications

Regenerative Response of Degenerate Human Nucleus Pulposus Cells to GDF6 Stimulation

Regenerative Response of Degenerate Human Nucleus Pulposus Cells to GDF6 Stimulation

Multiscale Regulation of the Intervertebral Disc: Achievements in Experimental, In Silico, and Regenerative Research

High BMPR2 expression leads to enhanced SMAD1/5/8 signalling and GDF6 responsiveness in human adipose-derived stem cells: implications for stem cell therapies for intervertebral disc degeneration

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