本周华尔街日报

Karolynn, Hsu, Makiko, Yamada, J. P. Fawcett
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引用次数: 0

摘要

MLLT11是一种90aa蛋白,首次被发现是因为其基因在两名儿童白血病患者中易位并融合到混合谱系白血病(MLL)基因中。此后,MLLT11与其他几种癌症有关,并被证明能促进造血前体向T细胞的分化。值得注意的是,唯一表达MLLT11的其他细胞类型是PNS和CNS的神经元。MLLT11在神经元中的作用尚不清楚,但StantonTurcotte等人报道,它有助于皮层神经元的迁移和神经突的生长。MLLT11在发育中的大脑皮层中的表达随着上层锥体细胞的产生而增加,并开始通过皮层板的中间带和下层迁移。随着神经元的增加,上层的表达增加,而在出生后第21天左右开始表达下降。选择性敲除新生上层神经元中的MLLT11可导致皮层变薄,并减缓上层神经元的迁移。相反,过表达MLLT11会加速神经元向皮质板的迁移。敲除MLLT11也减少了神经突的生长:上层锥体神经元通过胼胝体向对侧半球发送投射,并且MLLT11缺陷小鼠的该结构明显小于对照组。缺乏mllt11的上层锥体神经元的树突乔木比正常的更短,分支更少。下拉实验显示MLLT11与几种微管蛋白和肌球蛋白亚型相关。此外,MLLT11在培养的神经元中与乙酰化(稳定)微管蛋白共定位。值得注意的是,神经元迁移和过程扩展都强烈依赖于微管动力学。因此,MLLT11可能通过调节微管稳定性来促进神经突的迁移和生长。刺激迁移和过程扩展也可以解释MLLT11与癌症之间的联系,因为这些过程有助于肿瘤细胞的组织侵袭和转移。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
This Week in The Journal
MLLT11 is a 90 aa protein that was first identified because its gene was translocated and fused to the mixed-lineage leukemia (MLL) gene in two children with pediatric leukemia. MLLT11 has since been linked to several other cancers and has been shown to promote differentiation of hematopoietic precursors into T cells. Remarkably, the only other cell types that express MLLT11 are neurons of the PNS and CNS. The role of MLLT11 in neurons has been unknown, but StantonTurcotte et al. report that it contributes to migration and neurite outgrowth of cortical neurons. Expression of MLLT11 in the developing cerebral cortex increased as upper-layer pyramidal cells were generated and were beginning to migrate through the intermediate zone and lower layers of the cortical plate. Expression increased in the upper layers as they became populated with neurons, and expression declined starting around postnatal day 21. Knocking out MLLT11 selectively in newborn upper-layer neurons led to cortical thinning, and it slowed migration of upper-layer neurons. In contrast, overexpressing MLLT11 accelerated neuronal migration into the cortical plate. Knocking out MLLT11 also reduced neurite growth: upper-layer pyramidal neurons send projections to the contralateral hemisphere through the corpus callosum, and this structure was significantly smaller in MLLT11-deficient mice than in controls. And the dendritic arbors of MLLT11-deficient upper-layer pyramidal neurons were shorter and had fewer branches than normal. Pull-down assays revealed that MLLT11 was associated with several tubulin and myosin isoforms. Furthermore, MLLT11 colocalized with acetylated (stabilized) tubulin in cultured neurons. Notably, both neuronal migration and process extension depend strongly on microtubule dynamics. Therefore, MLLT11 may promote migration and neurite outgrowth by regulating microtubule stability. Stimulation of migration and process extension may also explain the link between MLLT11 and cancers, as these processes contribute to tissue invasion andmetastasis of tumor cells.
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