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1. chinaXiv:201605.01805 [pdf]

Attention-Dependent Early Cortical Suppression Contributes to Crowding

Chen, Juan; He, Yingchen; Zhu, Ziyun; Peng, Yujia; Zhang, Xilin; Fang, Fang; Chen, Juan; He, Yingchen; Zhu, Ziyun; Peng, Yujia; Zhang, Xilin; Fang, Fang; Fang, Fang; Fang, Fang; Zhou, Tiangang
Subjects: Biology >> Biophysics >> Neurosciences

Crowding, the identification difficulty for a target in the presence of nearby flankers, is ubiquitous in spatial vision and is considered a bottleneck of object recognition and visual awareness. Despite its significance, the neural mechanisms of crowding are still unclear. Here, we performed event-related potential and fMRI experiments to measure the cortical interaction between the target and flankers in human subjects. We found that the magnitude of the crowding effect was closely associated with an early suppressive cortical interaction. The cortical suppression was reflected in the earliest event-related potential component (C1), which originated in V1, and in the BOLD signal in V1, but not other higher cortical areas. Intriguingly, spatial attention played a critical role in the manifestation of the suppression. These findings provide direct and converging evidence that attention-dependent V1 suppression contributes to crowding at a very early stage of visual processing.

submitted time 2016-05-18 Hits3454Downloads1881 Comment 0

2. chinaXiv:201605.01735 [pdf]

PTEN deficiency reprogrammes human neural stem cells towards a glioblastoma stem cell-like phenotype

Duan, Shunlei; Yuan, Guohong; Ren, Ruotong; Xu, Xiuling; Fu, Lina; Li, Ying; Yang, Jiping; Zhang, Weiqi; Liu, Guang-Hui; Liu, Xiaomeng; Li, Jingyi; Tang, Fuchou; Ren, Ruotong; Bai, Ruijun; Liu, Guang-Hui; Ren, Ruotong; Bai, Ruijun; Qu, Jing; Zhang, Weizhou; Wu, Jun
Subjects: Biology >> Biophysics

PTEN is a tumour suppressor frequently mutated in many types of cancers. Here we show that targeted disruption of PTEN leads to neoplastic transformation of human neural stem cells (NSCs), but not mesenchymal stem cells. PTEN-deficient NSCs display neoplasm-associated metabolic and gene expression profiles and generate intracranial tumours in immunodeficientmice. PTEN is localized to the nucleus in NSCs, binds to the PAX7 promoter through association with cAMP responsive element binding protein 1 (CREB)/CREB binding protein (CBP) and inhibits PAX7 transcription. PTEN deficiency leads to the upregulation of PAX7, which in turn promotes oncogenic transformation of NSCs and instates 'aggressiveness' in human glioblastoma stem cells. In a large clinical database, we find increased PAX7 levels in PTEN-deficient glioblastoma. Furthermore, we identify that mitomycin C selectively triggers apoptosis in NSCs with PTEN deficiency. Together, we uncover a potential mechanism of how PTEN safeguards NSCs, and establish a cellular platform to identify factors involved in NSC transformation, potentially permitting personalized treatment of glioblastoma.

submitted time 2016-05-15 Hits3988Downloads1785 Comment 0

3. chinaXiv:201605.01529 [pdf]

A Werner syndrome stem cell model unveils heterochromatin alterations as a driver of human aging

Zhang, Weiqi; Wang, Ping; Zhou, Junzhi; Ren, Ruotong; Xu, Xiuling; Yuan, Tingting; Yang, Jiping; Li, Ying; Guan, Dee; Pan, Huize; Duan, Shunlei; Ding, Zhichao; Chen, Chang; Yang, Fuquan; Liu, Guang-Hui; Li, Jingyi; Liu, Xiaomeng; Tang, Fuchou; Suzuki, Keiichiro; Ocampo, Alejandro
Subjects: Biology >> Biophysics

Werner syndrome (WS) is a premature aging disorder caused by WRN protein deficiency. Here, we report on the generation of a human WS model in human embryonic stem cells (ESCs). Differentiation of WRN-null ESCs to mesenchymal stem cells (MSCs) recapitulates features of premature cellular aging, a global loss of H3K9me3, and changes in heterochromatin architecture. We show that WRN associates with heterochromatin proteins SUV39H1 and HP1 alpha and nuclear lamina-heterochromatin anchoring protein LAP2 beta. Targeted knock-in of catalytically inactive SUV39H1 in wild-type MSCs recapitulates accelerated cellular senescence, resembling WRN-deficient MSCs. Moreover, decrease in WRN and heterochromatin marks are detected in MSCs from older individuals. Our observations uncover a role for WRN in maintaining heterochromatin stability and highlight heterochromatin disorganization as a potential determinant of human aging.

submitted time 2016-05-12 Hits2497Downloads1356 Comment 0

4. chinaXiv:201605.01422 [pdf]

Ezh2 is involved in radial neuronal migration through regulating Reelin expression in cerebral cortex

Zhao, Linnan; Li, Jun; Ma, Yuanlin; Gao, Kai; Zhang, Zhengrong; Lu, Tianlan; Ruan, Yanyan; Yue, Weihua; Wang, Lifang; Zhang, Dai; Zhao, Linnan; Li, Jun; Ma, Yuanlin; Gao, Kai; Zhang, Zhengrong; Lu, Tianlan; Ruan, Yanyan; Yue, Weihua; Wang, Lifang; Zhang, Dai
Subjects: Biology >> Biophysics

Radial migration of pyramidal neurons is an important event during the development of cerebral cortex. Neurons experience series of morphological and directional transitions to get to their final laminar positions. Here we report that the histone methyltransferase enhancer of zest homolog 2 (Ezh2) is involved in the regulation of cortical radial migration. We show that Ezh2 knockdown leads to disturbed neuronal orientation, which results in the impairment of radial migration. Further results reveal that this migration deficiency may be due to the derepression of Reelin transcription in the migrating neurons. Our study provides evidence that epigenetic regulation of Reelin by Ezh2 maintains appropriate Reelin expression pattern to fulfill proper orientation of migrating neurons.

submitted time 2016-05-12 Hits1253Downloads708 Comment 0

5. chinaXiv:201605.01366 [pdf]

Sharpened cortical tuning and enhanced cortico-cortical communication contribute to the long-term neural mechanisms of visual motion perceptual learning

Chen, Nihong; Li, Sheng; Fang, Fang; Chen, Nihong; Li, Sheng; Fang, Fang; Chen, Nihong; Li, Sheng; Fang, Fang; Chen, Nihong; Fang, Fang; Bi, Taiyong; Bi, Taiyong; Zhou, Tiangang; Liu, Zili
Subjects: Biology >> Biophysics >> Neurosciences

Much has been debated about whether the neural plasticity mediating perceptual learning takes place at the sensory or decision-making stage in the brain. To investigate this, we trained human subjects in a visual motion direction discrimination task. Behavioral performance and BOLD signals were measured before, immediately after, and two weeks after training. Parallel to subjects' long-lasting behavioral improvement, the neural selectivity in V3A and the effective connectivity from V3A to IPS (intraparietal sulcus, a motion decisionmaking area) exhibited a persistent increase for the trained direction. Moreover, the improvement was well explained by a linear combination of the selectivity and connectivity increases. These findings suggest that the long-term neural mechanisms of motion perceptual learning are implemented by sharpening cortical tuning to trained stimuli at the sensory processing stage, as well as by optimizing the connections between sensory and decision-making areas in the brain. (C) 2015 Elsevier Inc. All rights reserved.

submitted time 2016-05-12 Hits2907Downloads1442 Comment 0

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