Wei-Guang Liang scite author profile

Wei-Guang Liang

3Publications

45Citation Statements Received

100Citation Statements Given

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138

Affiliations

Chung Shan Medical University, National Tsing Hua University, National Health Research Institutes

Publications

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Identification of trypsin‐inhibitory site and structure determination of human SPINK2 serine proteinase inhibitor

et al. 2009

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Human serine proteinase inhibitor Kazal-type 2 (SPINK2) functions as a trypsin/acrosin inhibitor and is synthesized mainly in the testis and seminal vesicle where its activity is engaged in fertility. The SPINK2 protein contains a typical Kazal domain composed by six cysteine residues forming three disulfide bridges. The expression of SPINK2 is closely related to cancer such as lymphomas, in that a high transcript level of SPINK2 in patients with primary cutaneous follicle center cell lymphomas have better prognosis with lower mortality. To clarify the role of SPINK2 in cancer, we performed quantitative real-time PCR and showed that the expression level of SPINK2 is significantly elevated in most leukemia cell lines except B-lymphoblast TK-6 cells. The molecular function and structural features of SPINK2 were also investigated by employing the recombinant active and mutant inactive SPINK2 proteins to determine its key P2-P2' (Pro(23)-Arg(24)-His(25)-Phe(26)) active site. The inhibition assay results demonstrated that Arg(24) at the P1 site is crucial for the specificity of SPINK2 on target enzyme. Although His(25) at the P1' and Phe(26) at the P2' residues are also involved in trypsin-SPINK2 interaction, Pro(23) at the P2 site may not be directly participated in interacting with trypsin. In addition, we determined the 3D solution structure of SPINK2 and used this structure to predict the SPINK2-proteinase complex structure and binding properties. These studies not only provide critical information about the structural properties and biophysical features of the SPINK2 proteinase inhibitor, but also suggest its important role in tumor progression and response to treatment.

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Mechanism of Two Novel Human GJC3 Missense Mutations in Causing Non-Syndromic Hearing Loss

Yen

et al. 2012

Cell Biochem Biophys

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Connexins (CXs), as a component of gap junction channel, are homologous four transmembrane-domain proteins, with numerous studies confirming their auditory functions. Among a cohort of patients having incurred non-syndromic hearing loss, we identified two novel missense mutations, p.R15G and p.L23H, in the GJC3 gene encoding CX30.2/CX31.3, as causally related to hearing loss in previous study. However, the functional alteration of CX30.2/CX31.3 caused by the mutant GJC3 gene remains unknown. In this study, we compared the intracellular distribution of mutant CX30.2/CX31.3 (p.R15G and p.L23H) with the wild-type (WT) protein in HeLa cells and the effect of the mutant protein had on those cells. Analytical results indicated that p.R15G and p.L23H mutant exhibited continuous staining along apposed cell membranes in the fluorescent localization assay, which is the same with the WT. Moreover, ATP release (hemichannel function) is less in HeLa cells carrying mutant GJC3 genes than those of WT expressing cells. We believe that although p.R15G and p.L23H mutants do not decrease the trafficking of CX proteins, mutations in GJC3 genes result in a loss of hemichannel function of CX30.2/CX31.3 protein, possibly causing hearing loss. Results of this study provide a novel molecular explanation for the role of GJC3 in hearing loss.

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Human Connexin30.2/31.3 (GJC3) does not Form Functional Gap Junction Channels but Causes Enhanced ATP Release in HeLa Cells

Liang

Su²,

Nian

et al. 2011

Cell Biochem Biophys

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Gap junctional intercellular communication has numerous functions, each of which meets the particular needs of organs, tissues, or groups of cells. Connexins (CXs) are homologous four-transmembrane-domain proteins that are the major components of gap junctions. CX30.2/CX31.3 (GJC3) is a relatively new member of the CX protein family. Until now, however, the functional characteristics of CX30.2/CX31.3 have been unclear. To elucidate the properties of CX30.2/CX31.3 channels, their subcellular localization in HeLa cells, their effectiveness in dye transfer, and function on channels were investigated. In the immunofluorescent assay, cells that express CX30.2/CX31.3-GFP exhibited continuous fluorescence along the apposed cell membranes, rather than punctated fluorescence in contacting membranes between two cells. Surprisingly, dyes that can be capable of being permeated by CX26 GJ, according to a scrape loading dye transfer assay in previous studies, are impermeated by CX30.2/CX31.3 GJ, suggesting a difference between the characteristics of CX30.2/CX31.3 GJ and CX26 GJ. Furthermore, a significant amount of ATP was released from the HeLa cells that stably expressed CX30.2/CX31.3, in a medium with low calcium ion concentration, suggesting a hemichannel-based function for CX30.2/CX31.3. Based on these findings, we suggest that CX30.2/CX31.3 shares functional properties with pannexin (hemi) channels rather than gap junction channels of other CXs.

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Wei-Guang Liang

Identification of trypsin‐inhibitory site and structure determination of human SPINK2 serine proteinase inhibitor

Mechanism of Two Novel Human GJC3 Missense Mutations in Causing Non-Syndromic Hearing Loss

Human Connexin30.2/31.3 (GJC3) does not Form Functional Gap Junction Channels but Causes Enhanced ATP Release in HeLa Cells

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