Squillaro Tiziana, Hayek Giuseppe, Farina Ernesto, Cipollaro Marilena, Renieri Alessandra, Galderisi Umberto
Medical Genetics, University of Siena, Siena, Italy.
J Cell Biochem. 2008 Apr 15;103(6):1877-85. doi: 10.1002/jcb.21582.
Rett syndrome (RTT) is one of the most common genetic diseases responsible for a progressive disabling neurodevelopmental disorder. Mutations in the MeCP2 gene were identified in the great majority of RTT patients. MeCP2 protein binds to methylated DNA and produces changes in chromatin structure. This is a key event in regulation of gene expression. It has been suggested that MeCP2 might be important for neuronal development. Moreover, the frequent occurrence of osteoporosis and scoliosis in RTT patients suggests impaired bone formation and/or remodeling. Mesenchymal stem cells (MSCs) can differentiate as mesodermal cells such as bone, cartilage cells, and adipocytes. MSCs have been shown to possess great somatic plasticity; in fact, they can differentiate as neurons and astrocytes. We studied RTT patients' MSCs because they are progenitors of osteocytes, and it has been suggested that RTT patients' osteogenesis could be impaired. Moreover, MSCs might represent a useful model for the study of neurogenesis. MSCs from RTT patient showed precocious signs of senescence in a comparison with the MSCs of healthy-patient control groups. This was in agreement with the reduced gene-expression in the control of stem cell self-renewal and upregulation of lineage specific genes, such as those involved in osteogenesis and neural development. Control groups enabled us to observe a lower degree of apoptosis in RTT patient cells. This means that aberrant stem/progenitor cells, instead of being eliminated, can survive and become senescent. Our research provides a new insight into RTT syndrome. Senescence phenomena could be involved in triggering RTT syndrome-associated diseases.
雷特综合征(RTT)是导致进行性致残性神经发育障碍的最常见遗传疾病之一。绝大多数RTT患者中都发现了MeCP2基因突变。MeCP2蛋白与甲基化DNA结合并引起染色质结构变化。这是基因表达调控中的关键事件。有人提出MeCP2可能对神经元发育很重要。此外,RTT患者中骨质疏松症和脊柱侧弯的频繁发生表明骨形成和/或重塑受损。间充质干细胞(MSC)可以分化为中胚层细胞,如骨细胞、软骨细胞和脂肪细胞。已证明MSC具有很大的体细胞可塑性;事实上,它们可以分化为神经元和星形胶质细胞。我们研究了RTT患者的MSC,因为它们是骨细胞的祖细胞,并且有人提出RTT患者的骨生成可能受损。此外,MSC可能是神经发生研究的有用模型。与健康患者对照组的MSC相比,RTT患者的MSC显示出早衰迹象。这与干细胞自我更新控制中基因表达的降低以及谱系特异性基因(如参与骨生成和神经发育的基因)的上调一致。对照组使我们能够观察到RTT患者细胞中较低程度的凋亡。这意味着异常的干/祖细胞不会被消除,而是可以存活并衰老。我们的研究为RTT综合征提供了新的见解。衰老现象可能参与引发与RTT综合征相关的疾病。
