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Background: Human dental pulp stem cells (hDPSCs) exhibit excellent differentiation potential and are capable of differentiating into several different cellular phenotypes, including neurons. Platelet-rich plasma (PRP) contains numerous growth factors that can stimulate stem cell differentiation. In this study, we investigated the potential stimulatory effects of PRP on neurogenic differentiation and anti-apoptosis of hDPSCs in injured spinal cords. Methods: The unipotential differentiation capacity of hDPSCs was analyzed by cell surface antigen identification and cell cycle analysis. A spinal cord injury rat model composed of 40 Sprague-Dawley (SD) rats was used to facilitate an in vivo study. Rats were divided into four groups: a double-treatment group (receiving both neurogenic-induced hDPSCs and PRP), two single-treatment groups (receiving neurogenic-induced hDPSCs or PRP) and a sham group (receiving normal saline). The Basso, Beattie, Bresnahan Locomotor Rating Scale was subsequently used to evaluate the motor function of the spinal cord. Cell viability and differentiation of hDPSCs in the damaged spinal cords were analyzed and apoptosis of neural cells was evaluated using the terminal uridine nucleotide end labeling (TUNEL) assay. Results: Growth pattern, cell surface marker and cell cycle analyses revealed that hDPSCs have a high degree of multi-directional differentiation potential and can be induced into neurons in vitro. In the rat spinal cord injury model, double-treatment with hDPSC/PRP or single treatment with hDPSCs or PRP significantly improved motor function compared with the sham group (P<0.05). Apoptosis of neural cells was observed to be significantly higher in the sham group compared to any of the treatment groups. Double-treatment with hDPSCs and PRP resulted in the lowest apoptotic rate among the groups analyzed. Conclusions: hDPSCs exhibit differentiation potential and are capable of transforming into neural cells both in vitro and in vivo. Significantly increased inhibition of neuronal apoptosis and improved motor function recovery of the spinal cord were observed following double-treatment with hDPSCs and PRP compared with the single-treatment groups.
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BACKGROUND: Osteosarcoma (OS) is one of the most common bone tumors in adolescents and young adults. Emerging evidence suggested ncRNA (lncRNA and miRNA) are closely associated with cell progression, apoptosis and autophagy. However, the role of regulatory network between ncRNA and mRNA in OS has not been fully verified. METHODS: lncRNA XIST, miRNA expression were detected by qRT-PCR. The protein expression of LC3, p62, AKT, p-AKT, mTOR and p-mTOR was measured by western blot. MTT assay and flow cytometry were applied to measure cell proliferation and apoptosis. Luciferase assay was used to ensure the relationship between lncRNA, miRNA and mRNA. GFP-LC3 cells were observed using fluorescence microscope. RESULTS: XIST expression was up-regulated but miR-375-3p was down-regulated in OS tissues and cells. Luciferase assay results demonstrated that miR-375-3p was a target of XIST and mTOR was a target mRNA of miR-375-3p. In addition, knockdown of XIST and mTOR inhibited OS cell proliferation and autophagy, but induced apoptosis. Knockdown of XIST could reverse the effect of miR-375-3p inhibitor on OS cells. The effects of si-mTOR of OS cells could be reversed by silencing miR-375-3p. Moreover, knockdown of XIST inhibited AKT/mTOR signaling pathway via sponging miR-375-3p. CONCLUSION: Knockdown of XIST inhibited cell growth and autophagy but induced cell apoptosis by suppressing the AKT/mTOR signaling pathway by sponging miR-375-3p.
RESUMO
Changes in bone mineral density and bone metabolic indexes in a model of ankylosing spondylitis (AS) mice complicated with osteoporosis (OP) were investigated. BLAB/c mice were used as the subjects. AS was induced using proteoglycan, and OP was induced using tail suspension method. The mice were randomly divided into four groups: AS group, OP group, AS + OP group and negative control group. Changes in bone mineral density, bone strength, serum calcium (Ca), phosphorus, alkaline phosphatase (ALP) and tartrate-resistant acid phosphatase (TRACP), in mice of each group were detected and compared. There were statistically significant differences in bone mineral density and bone strength among groups. Compared with the negative control group, bone mineral density and bone strength in the AS, the OP and the AS + OP groups were significantly decreased, and the lowest bone mineral density and bone strength were found in the AS + OP group (P<0.05). There were no significant differences in bone mineral density and bone strength between the AS group and the OP group. Significant differences in serum Ca, ALP and TRACP but not in serum phosphorus were found among groups. Compared with the control group, serum levels of Ca and TRACP in the AS, the OP and the AS + OP groups were significantly increased, while levels of ALP were obviously decreased (P<0.05). Bone destruction in AS mice complicated with osteoarthritis was more serious than that in mice with simple AS.