Zhihui Fang scite author profile

Huntington disease (HD) is characterized by the preferential loss of striatal medium-sized spiny neurons (MSNs) in the brain. Because MSNs receive abundant glutamatergic input, their vulnerability to excitotoxicity may be largely influenced by the capacity of glial cells to remove extracellular glutamate. However, little is known about the role of glia in HD neuropathology. Here, we report that mutant huntingtin accumulates in glial nuclei in HD brains and decreases the expression of glutamate transporters. As a result, mutant huntingtin (htt) reduces glutamate uptake in cultured astrocytes and HD mouse brains. In a neuron–glia coculture system, wild-type glial cells protected neurons against mutant htt-mediated neurotoxicity, whereas glial cells expressing mutant htt increased neuronal vulnerability. Mutant htt in cultured astrocytes decreased their protection of neurons against glutamate excitotoxicity. These findings suggest that decreased glutamate uptake caused by glial mutant htt may critically contribute to neuronal excitotoxicity in HD.

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The Language Demands of Science Reading in Middle School

Fang

2006

International Journal of Science Education

321

204

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Scientific literacy: A systemic functional linguistics perspective

2005

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Scientific writing contains unique linguistic features that construe special realms of scientific knowledge, values, and beliefs. An understanding of the functionality of these features is critical to the development of literacy in science. This article describes some of the key linguistic features of scientific writing, discusses the challenges these features present to comprehension and composition of science texts in school, and argues for greater attention to the specialized language of science in teaching and learning. © 2004 Wiley Periodicals, Inc. Sci Ed, 89:335–347, 2005

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Polyglutamine domain modulates the TBP-TFIIB interaction: implications for its normal function and neurodegeneration

et al. 2007

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Expansion of the polyglutamine (polyQ) tract in human TATA-box binding protein (TBP) causes the neurodegenerative disease spinocerebellar ataxia 17 (SCA17). It remains unclear how the polyQ tract regulates normal protein function and induces selective neuropathology in SCA17. We generated transgenic mice expressing polyQ-expanded TBP. These mice showed weight loss, progressive neurological symptoms and neurodegeneration before early death. Expanded polyQ tracts reduced TBP dimerization but enhanced the interaction of TBP with the general transcription factor IIB (TFIIB). In SCA17 transgenic mice, the small heat shock protein HSPB1, a potent neuroprotective factor, was downregulated, and TFIIB occupancy of the Hspb1 promoter was decreased. Overexpression of HSPB1 or TFIIB alleviated mutant TBP-induced neuritic defects. These findings implicate the polyQ domain of TBP in transcriptional regulation and provide insight into the molecular pathogenesis of SCA17.

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Zhihui Fang

A review of research on teacher beliefs and practices

Expression of mutant huntingtin in glial cells contributes to neuronal excitotoxicity

The Language Demands of Science Reading in Middle School

Scientific literacy: A systemic functional linguistics perspective

Polyglutamine domain modulates the TBP-TFIIB interaction: implications for its normal function and neurodegeneration

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