Wun-Chey Sin scite author profile

We report an electroporation technique for targeting gene transfer to individual cells in intact tissue. Electrical stimulation through a micropipette filled with DNA or other macromolecules electroporates a single cell at the tip of the micropipette. Electroporation of a plasmid encoding enhanced green fluorescent protein (GFP) into the brain of intact Xenopus tadpoles or rat hippocampal slices resulted in GFP expression in single neurons and glia. In vivo imaging showed morphologies, dendritic arbor dynamics, and growth rates characteristic of healthy cells. Coelectroporation of two plasmids resulted in expression of both proteins, while electroporation of fluorescent dextrans allowed direct visualization of transfer of molecules into cells. This technique will allow unprecedented spatial and temporal control over gene delivery and protein expression.

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Connexin43 enhances glioma invasion by a mechanism involving the carboxy terminus

Bates

Sin

Aftab

et al. 2007

Glia

112

122

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Gliomas are particularly difficult to cure owing largely to their invasive nature. The neoplastic changes of astrocytes which give rise to these tumors frequently include a reduction of connexin43 (Cx43), the most abundant connexin isoform expressed in astrocytes. Cx43 is a subunit of gap junctions (GJ), intercellular channels which directly link the cytosol of adjacent cells and allow the regulated passage of ions and small molecules. To examine the role of Cx43 in glioma motility, we identified two variant C6 cell lines which endogenously express high (C6-H) or low (C6-L) levels of Cx43. In wound healing and transwell assays, C6-H cells were more motile than C6-L cells. To deduce whether Cx43 mediated these differences, assays were conducted on C6-H cells retrovirally transduced with Cx43 shRNA. Coincident with the stable knockdown of endogenous Cx43, a decrease in motility and invasion was observed. Gap junctional intercellular communication was also decreased, however motility assays conducted in the presence of GJ inhibitors did not reveal significant differences in cell motility. C6 cells transfected with full length or C-terminal truncated Cx43 (Cx43DeltaCT) were subjected to the aforementioned motility assays to expose alternate mechanisms of Cx43-mediated motility. Cells expressing full length Cx43 exhibited increased motility while cells expressing Cx43DeltaCT did not. This report, the first in which RNAi has been employed to reduce Cx43 expression in gliomas, indicates that the downregulation of Cx43 decreases motility of C6 cells. Furthermore, it is the first report to suggest that the Cx43 CT plays an important role in glioma motility.

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RhoA-Binding Kinase α Translocation Is Facilitated by the Collapse of the Vimentin Intermediate Filament Network

Sin

Chen

Leung

et al. 1998

Molecular and Cellular Biology

139

101

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Opposing roles of connexin43 in glioma progression

Sin¹,

Crespin²,

Mesnil³

2012

Biochimica et Biophysica Acta (BBA) - Biomembranes

103

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Despite the tremendous amount of data over the last 40years, lack of gap junctional intercellular communication (GJIC) or altered expression of gap junction proteins is still a lesser known 'hallmark' of cancer. Expression of astrocytic gap junction protein, connexin43 (Cx43), is often reduced in astrocytomas, the most common neoplasia of the central nervous system (CNS) in adults. Supported by a number of evidences, the global decrease of Cx43 expression appears to be advantageous for the growth of glioma cells. Although the mechanisms by which Cx43 regulates the expression levels of proteins involved in cell growth is unclear, there are evidences to suggest that it might be independent of their channel forming properties. In this regard, the carboxyl tail of Cx43 may have the ability to control the translocation of transcription factor regulators into the nucleus. However, this putative tumor suppressor effect of Cx43 is counterbalanced by its capacity to enhance the migration of glioma cells out of the tumor core through mechanisms that seems to implicate its carboxyl tail, possibly by interacting with the actin cytoskeleton. This ambivalence between the tumor suppressor effect and promotion of cell migration may partly be explained by the heterogeneous expression of Cx43 in the glioma core especially at the malignant glioblastoma stage; some tumor cells would be expected to migrate (Cx43 expressing cells) and others to proliferate (non-expressing Cx43 cells). Moreover, the involvement of Cx43 in glioma progression seems to be more complex since, in addition, GJIC may increase their resistance to apoptosis and Cx43 may also affect cell homeostasis in a paracrine fashion via hemichannel action. In conclusion, Cx43 appears to be involved at different levels of the glioma progression by acting on cell growth regulation, promotion of cell migration and resistance to apoptosis. This article is part of a Special Issue entitled: The Communicating junctions, composition, structure and characteristics.

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Pannexin 2 protein expression is not restricted to the CNS

Vasseur

Lelowski

Bechberger

et al. 2014

Front. Cell. Neurosci.

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Pannexins (Panx) are proteins homologous to the invertebrate gap junction proteins called innexins (Inx) and are traditionally described as transmembrane channels connecting the intracellular and extracellular compartments. Three distinct Panx paralogs (Panx1, Panx2 and Panx3) have been identified in vertebrates but previous reports on Panx expression and functionality focused primarily on Panx1 and Panx3 proteins. Several gene expression studies reported that Panx2 transcript is largely restricted to the central nervous system (CNS) hence suggesting that Panx2 might serve an important role in the CNS. However, the lack of suitable antibodies prevented the creation of a comprehensive map of Panx2 protein expression and Panx2 protein localization profile is currently mostly inferred from the distribution of its transcript. In this study, we characterized novel commercial monoclonal antibodies and surveyed Panx2 expression and distribution at the mRNA and protein level by real-time qPCR, Western blotting and immunofluorescence. Panx2 protein levels were readily detected in every tissue examined, even when transcriptional analysis predicted very low Panx2 protein expression. Furthermore, our results indicate that Panx2 transcriptional activity is a poor predictor of Panx2 protein abundance and does not correlate with Panx2 protein levels. Despite showing disproportionately high transcript levels, the CNS expressed less Panx2 protein than any other tissues analyzed. Additionally, we showed that Panx2 protein does not localize at the plasma membrane like other gap junction proteins but remains confined within cytoplasmic compartments. Overall, our results demonstrate that the endogenous expression of Panx2 protein is not restricted to the CNS and is more ubiquitous than initially predicted.

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Wun-Chey Sin

Single-Cell Electroporationfor Gene Transfer In Vivo

Connexin43 enhances glioma invasion by a mechanism involving the carboxy terminus

RhoA-Binding Kinase α Translocation Is Facilitated by the Collapse of the Vimentin Intermediate Filament Network

Opposing roles of connexin43 in glioma progression

Pannexin 2 protein expression is not restricted to the CNS

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