Potential Therapeutic Features of Human Amniotic Mesenchymal Stem Cells in Multiple Sclerosis: Immunomodulation, Inflammation Suppression, Angiogenesis Promotion, Oxidative Stress Inhibition, Neurogenesis Induction, MMPs Regulation, and Remyelination Stimulation

Abbasi‐Kangevari, Mohsen; Ghamari, Seyyed‐Hadi; Safaeinejad, Fahimeh; Bahrami, Soheyl; Niknejad, Hassan

doi:10.3389/fimmu.2019.00238

Cited by 59 publications

(45 citation statements)

References 71 publications

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“…Several studies have been conducted to test this approach in animal models of primary osteoporosis, aging, glucocorticoid-induced bone fragility, and fracture healing [8,10,11]. Our data, as well as those from others, have con rmed that MSCs have paracrine effects that reduce in ammation and restore angiogenesis and osteogenesis when they are localized within the bone microenvironment [11][12][13][14][15]. The current study aimed to for the study is to address the unmet medical needs for non-surgical therapy to reverse periodontal disease (PD)-induced bone loss, and test a new anabolic compound, LLP2A-Ale, in the treatment of PD-induced bone loss in a mouse model of PD.…”

Section: Introductionsupporting

confidence: 69%

A New Anabolic compound, LLP2A-Ale, Reserves Periodontal Bone Loss in Mice Through Augmentation of Bone Formation

Yao¹,

Jiang

Liu

et al. 2020

Preprint

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Aims. Currently, there are no effective medications that reverse periodontal disease (PD)-induced bone loss. The objective of this study was to test a new anabolic compound, LLP2A-Ale, or with the combination treatment of mesenchymal stromal cell (MSC), in the treatment of bone loss secondary to PD. Martials and Methods. PD was induced in mice by placing a ligature around the second right molar. At one week after disease induction, the mice were treated with placebo, LLP2A-Ale, MSCs, or combination of LLP2A-Ale + MSCs, and euthanized at week 4. Results. We found that PD induced alveolar bone loss that was associated with reduced bone formation. LLP2A alone and in combination with MSCs sustained alveolar bone formation and reversed alveolar bone loss. Additionally, PD alone caused systemic inflammation and increased the circulating levels of G-CSF, IP-10, MIP-1a, and MIP2, which were suppressed by LLP2A-Ale +/- MSCs. LLP2A-Ale +/- MSCs increased bone formation at the peripheral skeletal site (distal femur), which was otherwise suppressed by PD. Conclusion. Our findings indicated that LLP2A-Ale treatment rescued alveolar bone loss caused by PD, primarily by increasing bone formation. LLP2A-Ale also attenuated the circulating levels of a series of inflammatory cytokines and reversed the PD-induced suppression of systemic bone formation.

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Section: Introductionsupporting

confidence: 69%

A New Anabolic compound, LLP2A-Ale, Reserves Periodontal Bone Loss in Mice Through Augmentation of Bone Formation

Yao¹,

Jiang

Liu

et al. 2020

Preprint

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“…oxidative stress inhibition (Abbasi-Kangevari et al 2019). Tsuji et al (2010) found that the hAD-MSCs xenografted to cure myocardial ischemia-reperfusion injury will differentiate into myocardial cells and restore partial myocardial function without rejection (Tsuji et al 2010).…”

Section: Discussionmentioning

confidence: 99%

TIPE2 Improves the immune tolerance of human amniotic mesenchymal stem cells

et al. 2020

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Tumor necrosis factor-α induced protein 8 like 2 (TIPE2) is one of the newly discovered negative regulators for body's immune balance. The present study aimed to investigate the effect of TIPE2 gene-modified human amniotic mesenchymal stem cells (hAD-MSCs) on immune tolerance. In this study, the TIPE2 over-expressed and the non-transfected hAD-MSCs were severally co-cultured with injured cardiomyocytes. Cell cycle and apoptosis were detected by flow cytometry. Cell viability was measured by MTT, and expressions of immune-related factors were detected by qRT-PCR and western blot. When compared with the empty vector-transfected hAD-MSCs, the TIPE2-overexpression hAD-MSCs co-cultured with injured cardiomyocytes show accelerated cell viability and declined apoptosis. After TIPE2 over-expression, the mRNA and protein levels of p38, extracellular signalregulated kinases (ERK) and interferon-γ (INF-γ) notably decreased, whereas those of transforming growth factor-β (TGF-β) and interleukin-10 (IL-10) increased in a converse trend. This study suggested that TIPE2 may enhance the cellular immune tolerance in co-culture systems of hAD-MSCs and injured cardiomyocyte, providing a theoretical basis for the allogeneic heart transplantation.

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“…Stem cells (SCs) are self-renewing and undifferentiated cells capable of differentiating into more than 200 types of cells. The potential therapeutic effect of SCs is related to their role in cell differentiation, inflammation, immunomodulation and the stimulation of endogenous repair processes, such as angiogenesis and neurogenesis [7,8,9]. SC therapy has emerged as an encouraging regenerative tool in modern medicine, with potential applications in ischemic stroke as well as in other neurodegenerative disorders [10,11].…”

Section: Regenerative Tools In Modern Neurologymentioning

confidence: 99%

Modern Concepts in Regenerative Therapy for Ischemic Stroke: From Stem Cells for Promoting Angiogenesis to 3D-Bioprinted Scaffolds Customized via Carotid Shear Stress Analysis

Benedek¹,

Cernica²,

Mester³

et al. 2019

IJMS

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Ischemic stroke is associated with a tremendous economic and societal burden, and only a few therapies are currently available for the treatment of this devastating disease. The main therapeutic approaches used nowadays for the treatment of ischemic brain injury aim to achieve reperfusion, neuroprotection and neurorecovery. Therapeutic angiogenesis also seems to represent a promising tool to improve the prognosis of cerebral ischemia. This review aims to present the modern concepts and the current status of regenerative therapy for ischemic stroke and discuss the main results of major clinical trials addressing the effectiveness of stem cell therapy for achieving neuroregeneration in ischemic stroke. At the same time, as a glimpse into the future, this article describes modern concepts for stroke prevention, such as the implantation of bioprinted scaffolds seeded with stem cells, whose 3D geometry is customized according to carotid shear stress.

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Potential Therapeutic Features of Human Amniotic Mesenchymal Stem Cells in Multiple Sclerosis: Immunomodulation, Inflammation Suppression, Angiogenesis Promotion, Oxidative Stress Inhibition, Neurogenesis Induction, MMPs Regulation, and Remyelination Stimulation

Cited by 59 publications

References 71 publications

A New Anabolic compound, LLP2A-Ale, Reserves Periodontal Bone Loss in Mice Through Augmentation of Bone Formation

A New Anabolic compound, LLP2A-Ale, Reserves Periodontal Bone Loss in Mice Through Augmentation of Bone Formation

TIPE2 Improves the immune tolerance of human amniotic mesenchymal stem cells

Modern Concepts in Regenerative Therapy for Ischemic Stroke: From Stem Cells for Promoting Angiogenesis to 3D-Bioprinted Scaffolds Customized via Carotid Shear Stress Analysis

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