Influence of extracellular osmolarity and mechanical stimulation on gene expression of intervertebral disc cells

Wuertz, Karin; Urban, Jill; Klasen, Juergen; Ignatius, Anita; Wilke, Hans‐Joachim; Claes, Lutz; Neidlinger‐Wilke, Cornelia

doi:10.1002/jor.20436

Cited by 138 publications

(159 citation statements)

References 30 publications

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“…Cell volume changes could affect various membrane ion transporters and alter cell metabolism, resulting in a different biosynthetic activity of the cell [35,116]. Furthermore, studies have shown that osmolality and pH directly affect IVD cell metabolism [12,18,27,37,115,129].…”

Section: Indirect Stimulusmentioning

confidence: 99%

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The effects of dynamic loading on the intervertebral disc

2011

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Loading is important to maintain the balance of matrix turnover in the intervertebral disc (IVD). Daily cyclic diurnal assists in the transport of large soluble factors across the IVD and its surrounding circulation and applies direct and indirect stimulus to disc cells. Acute mechanical injury and accumulated overloading, however, could induce disc degeneration. Recently, there is more information available on how cyclic loading, especially axial compression and hydrostatic pressure, affects IVD cell biology. This review summarises recent studies on the response of the IVD and stem cells to applied cyclic compression and hydrostatic pressure. These studies investigate the possible role of loading in the initiation and progression of disc degeneration as well as quantifying a physiological loading condition for the study of disc degeneration biological therapy. Subsequently, a possible physiological/beneficial loading range is proposed. This physiological/beneficial loading could provide insight into how to design loading regimes in specific system for the testing of various biological therapies such as cell therapy, chemical therapy or tissue engineering constructs to achieve a better final outcome. In addition, the parameter space of 'physiological' loading may also be an important factor for the differentiation of stem cells towards most ideally 'discogenic' cells for tissue engineering purpose.

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Section: Indirect Stimulusmentioning

confidence: 99%

“…When NP cells were cultured in various osmotic conditions and exposed to the same IHP, hypo-and hyper-osmotic condition resulted in an anabolic and catabolic response, respectively [129]. This may imply that the initial volume of the cells affects their response to mechanical stimulus.…”

Section: Other Factorsmentioning

confidence: 99%

The effects of dynamic loading on the intervertebral disc

2011

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“…300 mOsm/kg H 2 O are hypo-osmotic for nucleus pulposus cells in vivo and characterize degenerated discs. 17 Extracellular osmolality of 400 mOsm/kg H 2 O, although high for cells deriving from the majority of the tissues, is considered as normal for disc cells, which are surrounded by a cation-attracting extracellular matrix. 6 500 mOsm/kg H 2 O represent hyper-osmotic conditions for disc cells, being the outcome of fluid loss due to daily activities.…”

Section: Exposure Of Cells To Different Osmotic Conditionsmentioning

confidence: 99%

Effect of varying osmotic conditions on the response of bovine nucleus pulposus cells to growth factors and the activation of the ERK and Akt pathways

Mavrogonatou

Kletsas

2010

Journal Orthopaedic Research

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Intervertebral disc and especially nucleus pulposus is characterized by low cellularity. Additionally, extreme variations in osmolality are observed in this tissue, as a result of its specific physicochemical environment, daily activities, or degeneration. In this study, we investigated the role of osmotic fluctuations in the proliferative response of nucleus pulposus cells to exogenous growth factors. In particular, we examined the effect of platelet-derived growth factor (PDGF) and insulin-like growth factor-I (IGF-I) on the proliferation of bovine nucleus pulposus cells and on the activation of the MEK/ERK and PI-3-K/Akt pathways under varying osmotic conditions, in an effort to understand the mechanisms regulating cell proliferation in the intact and the degenerated intervertebral disc. Exposure of cells to high osmolality restrained novel DNA synthesis induced by PDGF or IGF-I in a dose-dependent manner and reduced ERK and Akt activation stimulated by serum or isolated growth factors. Our findings indicate that hyperosmolality imposes a strict control in intervertebral disc cells' proliferation, while hypo-osmotic conditions prevailing in degenerated discs may offer a more permissive environment for cellular proliferation. Keywords: intervertebral disc; growth factor; osmolality; ERK; Akt Back pain represents a major health problem and, although its exact etiology is not yet fully elucidated, it is associated with intervertebral disc degeneration.

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“…These include the presence of growth factors, changes in local biomechanical stresses and in the osmotic environment of the disc cell [44,47,72,98,143,144,157]. Stimulation of endogenous disc cell populations by administered growth factors and other biomimetics in slow delivery carriers within bioscaffolds aim to address some of these questions [53,85].…”

Section: Cell-based Therapies For the Biologic Treatment Of Disc Degementioning

confidence: 99%

Recent advances in annular pathobiology provide insights into rim-lesion mediated intervertebral disc degeneration and potential new approaches to annular repair strategies

et al. 2008

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The objective of this study was to assess the impact of a landmark annular lesion model on our understanding of the etiopathogenesis of IVD degeneration and to appraise current IVD repairative strategies. A number of studies have utilised the Osti sheep model since its development in 1990. The experimental questions posed at that time are covered in this review, as are significant recent advances in annular repair strategies. The ovine model has provided important spatial and temporal insights into the longitudinal development of annular lesions and how they impact on other discal and paradiscal components such as the NP, cartilaginous end plates, zygapophyseal joints and vertebral bone and blood vessels. Important recent advances have been made in biomatrix design for IVD repair and in the oriented and dynamic culture of annular fibrochondrocytes into planar, spatially relevant, annular type structures.

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Influence of extracellular osmolarity and mechanical stimulation on gene expression of intervertebral disc cells

Cited by 138 publications

References 30 publications

The effects of dynamic loading on the intervertebral disc

The effects of dynamic loading on the intervertebral disc

Effect of varying osmotic conditions on the response of bovine nucleus pulposus cells to growth factors and the activation of the ERK and Akt pathways

Recent advances in annular pathobiology provide insights into rim-lesion mediated intervertebral disc degeneration and potential new approaches to annular repair strategies

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