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帕金森病(Parkinson disease,PD)是一种复杂的中枢神经系统退行性疾病,主要病理特征为黑质致密部多巴胺神经元的进行性丧失.目前PD主要治疗手段包括药物和手术.但药物存在神经保护活性不足、缺乏对因治疗、晚期无药可用等问题,手术治疗风险较大.近年来,细胞重编程技术取得突破性进展,由重编程产生的诱导多能干细胞(induced pluripotent stem cells,iPSCs)、诱导多巴胺神经元(induced dopamine neurons,iDNs)和诱导神经干细胞(induced neural stem cells,i NSCs)可用于治疗PD.移植iPSCs分化而来的多巴胺能神经元、iDNs和iNSCs至相应脑区,可起到神经替代与修复作用,有效治疗PD.本文重点介绍细胞重编程的机制,总结iPSCs、iDNs和iNSCs治疗PD的优缺点,并阐述尚存在的挑战,探讨可能的解决方案. 相似文献
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M. C. Gómez-Puerto L. P. Verhagen A. K. Braat E. W.-F. Lam P. J. Coffer 《Autophagy》2016,12(10):1804-1816
Bone remodeling is a continuous physiological process that requires constant generation of new osteoblasts from mesenchymal stem cells (MSCs). Differentiation of MSCs to osteoblast requires a metabolic switch from glycolysis to increased mitochondrial respiration to ensure the sufficient energy supply to complete this process. As a consequence of this increased mitochondrial metabolism, the levels of endogenous reactive oxygen species (ROS) rise. In the current study we analyzed the role of forkhead box O3 (FOXO3) in the control of ROS levels in human MSCs (hMSCs) during osteogenic differentiation. Treatment of hMSCs with H2O2 induced FOXO3 phosphorylation at Ser294 and nuclear translocation. This ROS-mediated activation of FOXO3 was dependent on mitogen-activated protein kinase 8 (MAPK8/JNK) activity. Upon FOXO3 downregulation, osteoblastic differentiation was impaired and hMSCs lost their ability to control elevated ROS levels. Our results also demonstrate that in response to elevated ROS levels, FOXO3 induces autophagy in hMSCs. In line with this, impairment of autophagy by autophagy-related 7 (ATG7) knockdown resulted in a reduced capacity of hMSCs to regulate elevated ROS levels, together with a reduced osteoblast differentiation. Taken together our findings are consistent with a model where in hMSCs, FOXO3 is required to induce autophagy and thereby reduce elevated ROS levels resulting from the increased mitochondrial respiration during osteoblast differentiation. These new molecular insights provide an important contribution to our better understanding of bone physiology. 相似文献
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Photons are widely used in radiotherapy and while they are low LET radiation, can still pose a risk in developing second malignant neoplasms (SMN). Due to the physics of photons that allow distribution of energy outside the target volume, out-of-field irradiation is an important component of SMN risk assessment. The epidemiological evidence supporting this risk should be augmented with radiobiological justifications for a better understanding of the underlying processes.There are several factors that impact second cancer risk which can be analysed from a radiobiological perspective: age at irradiation, type of irradiated tissue, irradiated volume, treatment technique, previous irradiation/radiological investigations. Age-dependence has a radiobiological foundation given by the higher radiosensitivity of children as compared to adult patients. However, in its 2013 report, UNSCEAR advises against generalisation of the effects of childhood radiation exposure, given the fact that these effects are strongly organ dependent. Furthermore, the age-dependent radiation sensitivity has a bimodal distribution, since aging cells present an increase in the oxidative stress, which can promote premalignant cells.Non-targeted effects such as radiation-induced genomic instability, bystander or abscopal effects could also impact on the risk of SMN. Recent studies show that beside the known cellular changes, bystander effects can be manifested through increased cell proliferation, which could be a culprit for SMN development. Furthermore, new evidence on the existence of tumour-specific cancer stem cells that are long-lived and more quiescent and radioresistant than non-stem cancer cells can raise questions about their association with SMN risk. 相似文献
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《Developmental cell》2021,56(24):3309-3320.e5
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