Mesenchymal stem cell‐secreted superoxide dismutase promotes cerebellar neuronal survival

Kemp, Kevin C; Hares, Kelly M; Mallam, Elizabeth; Heesom, Kate J; Scolding, Neil; Wilkins, Alastair

doi:10.1111/j.1471-4159.2009.06553.x

Cited by 112 publications

(108 citation statements)

References 59 publications

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“…Importantly, MSCs express CD59, a complement regulatory protein, and also release complement factor H that protects them from complement lysis (Tu et al 2010;Moll et al 2011). In addition, stimulation through C3aR and C5aR protect MSCs from oxidative damage (Schraufstatter et al 2009) and MSCs produce a number of antioxidants including hemeoxygenase-1 and superoxide dismutase (Kemp et al 2010;Mougiakakos et al 2011), and have been shown to suppress oxidative stress and inflammation in ischemia reperfusion injury models in vivo (Chen et al 2011Sun et al 2011;Du et al 2012). The exact mechanisms of action are unclear; however, MSC protection in these models was associated with increased expression of IL-10, heme oxygenase-1 (HO-1), and hepatocyte growth factor, decreased expression of the proinflammatory cytokines IL-1b, TNF-a, and interferon g (IFN-g), reduced reactive oxygen species, reduced apoptosis and decreased numbers of activated T cells, and infiltrating immune cells (Hara et al 2011;Sun et al 2011;Chen et al 2012;Du et al 2012).…”

Section: Effect Of Mesenchymal Stromal Cells On Ischemia Reperfusion mentioning

confidence: 99%

Mesenchymal Stromal Cells in Transplantation Rejection and Tolerance

English

Wood

2013

Cold Spring Harbor Perspectives in Medicine

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Mesenchymal stromal cells (MSCs) have recently emerged as promising candidates for cellbased immunotherapy in solid organ transplantation (SOT). In addition to immune modulation, MSCs possess proreparative properties and preclinical studies indicate that MSCs have the capacity to prolong graft survival and in some cases induce tolerance. Currently, the application of MSCs in SOT is being evaluated in phase I/II clinical trials. Whereas the mechanisms of action used by MSC immunomodulation have been somewhat elucidated in vitro, the data from preclinical transplant models have been unclear. Furthermore, the optimal timing, dose, and route of administration remain to be elucidated. Importantly, MSCs have the ability to sense their environment, which may influence their function. In this article, we discuss the impact of the local microenvironment on MSCs and the mechanisms of MSC immunomodulation in the setting of SOT.

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Section: Effect Of Mesenchymal Stromal Cells On Ischemia Reperfusion mentioning

confidence: 99%

Mesenchymal Stromal Cells in Transplantation Rejection and Tolerance

English

Wood

2013

Cold Spring Harbor Perspectives in Medicine

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“…[73,74] Catalase in the medium can protect against H 2 O 2 generated both intracellularly and extracellularly, since H 2 O 2 readily crosses the cell membranes and so external catalase can "drain" H 2 O 2 out of the cell. [24] Sometimes compounds oxidize in cell culture media but do not generate H 2 O 2 .…”

Section: 24]mentioning

confidence: 99%

Cell culture, oxidative stress, and antioxidants: Avoiding pitfalls

2014

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Cell culture is widely used by biochemists and cell/molecular biologists, but the fluctuating (and often elevated) levels of O 2 to which cells in culture are exposed can affect many of their properties. So can the low level of antioxidants found in some cell culture media. Reagents, especially "antioxidants," added to cell culture media can react with the constituents of the media to produce H 2 O 2 and degradation products that can influence cell behavior. Several published papers describing the cellular effects of ascorbate, polyphenols, and carotenoids have, in fact, reported artifacts due to the actions of the degradation products of these "antioxidants." A greater awareness of the potential artifacts in cell culture studies is needed among the free radical/antioxidant community. (Biomed J 2014;37:99-105)

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“…Another beneficial factor of mesenchymal stem cells is an anti-inflammatory effect. The upregulation of transforming growth factor beta 1, an antiinflammatory factor that controls cell proliferation and apoptosis, has been observed and significantly reduced oxidative stress (Chen et al, 2011;Hawryluk et al, 2012;Kemp et al, 2010;Whone et al, 2012). Unlike others, there are almost no allergic reaction in mesenchymal stem cells.…”

Section: Cell-based Interventionsmentioning

confidence: 93%

Current Therapeutic Approaches in Spinal Cord Injury: Pharmacological, Rehabilitation, Cell-based, and Psychological Intervention

Lim

Choi

2017

Korean J Str Res

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The purpose of this review is to discuss current therapeutic interventions and their limitations for the optimal treatment outcomes of individuals with spinal cord injury (SCI). SCI leads to neurologic deficits and subsequent severe muscle atrophy. In clinics, despite the controversy, pharmacological therapy using methylprednisolone has widely been accepted to reduce additional neurologic deficits caused by a secondary injury such as oxidative stress and lipid peroxidation. Moreover, it facilitates the recovery process. Since the loss of locomotor function may reduce the quality of life for individuals with SCI, many pre-clinical and clinical studies have focused on the recovery of locomotor function. Various forms of locomotor training such as treadmill training, cycle training, and robotic-assisted training are currently available for individuals with SCI. Additionally the cell-based interventions have been receiving much attention as one of potential therapeutic interventions which required further clarifications due to the issues of safety. The physical impairment associated with spinal cord injury may cause an adverse effect on mental health. It is now recommended that combined physical and psychological interventions should be considered to maximize the efficacy of therapeutic interventions.

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Mesenchymal stem cell‐secreted superoxide dismutase promotes cerebellar neuronal survival

Cited by 112 publications

References 59 publications

Mesenchymal Stromal Cells in Transplantation Rejection and Tolerance

Mesenchymal Stromal Cells in Transplantation Rejection and Tolerance

Cell culture, oxidative stress, and antioxidants: Avoiding pitfalls

Current Therapeutic Approaches in Spinal Cord Injury: Pharmacological, Rehabilitation, Cell-based, and Psychological Intervention

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