Hongwen Ma scite author profile

The coupling mechanism between endoplasmic reticulum (ER) calcium ion (Ca2+) stores and plasma membrane (PM) store-operated channels (SOCs) is crucial to Ca2+ signaling but has eluded detection. SOCs may be functionally related to the TRP family of receptor-operated channels. Direct comparison of endogenous SOCs with stably expressed TRP3 channels in human embryonic kidney (HEK293) cells revealed that TRP3 channels differ in being store independent. However, condensed cortical F-actin prevented activation of both SOC and TRP3 channels, which suggests that ER-PM interactions underlie coupling of both channels. A cell-permeant inhibitor of inositol trisphosphate receptor (InsP3R) function, 2-aminoethoxydiphenyl borate, prevented both receptor-induced TRP3 activation and store-induced SOC activation. It is concluded that InsP3Rs mediate both SOC and TRP channel opening and that the InsP3R is essential for maintaining coupling between store emptying and physiological activation of SOCs.

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A bacterial group II intron encoding reverse transcriptase, maturase, and DNA endonuclease activities: biochemical demonstration of maturase activity and insertion of new genetic information within the intron

Matsuura¹,

Saldanha²,

Ma³

et al. 1997

Genes Dev.

209

243

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The Lactococcus lactis group II intron Ll.ltrB is similar to mobile yeast mtDNA group II introns, which encode reverse transcriptase, RNA maturase, and DNA endonuclease activities for site-specific DNA insertion. Here, we show that the Lactococcal intron can be expressed and spliced efficiently in Escherichia coli. The intron-encoded protein LtrA has reverse transcriptase and RNA maturase activities, with the latter activity shown both in vivo and in vitro, a first for any group II intron-encoded protein. As for the yeast mtDNA introns, the DNA endonuclease activity of the Lactococcal intron is associated with RNP particles containing both the intron-encoded protein and the excised intron RNA. Also, the intron RNA cleaves the sense-strand of the recipient DNA by a reverse splicing reaction, whereas the intron-encoded protein cleaves the antisense strand. The Lactococcal intron endonuclease can be obtained in large quantities by coexpression of the LtrA protein with the intron RNA in E. coli or reconstituted in vitro by incubating the expressed LtrA protein with in vitro-synthesized intron RNA. Furthermore, the specificity of the endonuclease and reverse splicing reactions can be changed predictably by modifying the RNA component. Expression in E. coli facilitates the use of group II introns for the targeting of specific foreign sequences to a desired site in DNA.

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Hepatitis B virus X protein upregulates survivin expression in hepatoma tissues

Zhang

Dong

Liang

et al. 2005

Journal of Medical Virology

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The hepatitis B virus X protein (HBx) plays an important role in the development of hepatocellular carcinoma (HCC). The relationship was examined between HBV antigens and IAP (inhibitor of apoptosis) family in development of HCC. The expression levels of HBV antigens (HBsAg, HBcAg, and HBxAg) and members of the IAP family (survivin, XIAP, cIAP-1, and cIAP-2) were detected immunohistochemically in tissues from 34 cases of HCC and 30 cases of liver cirrhosis. The positive rate of survivin was higher than these three molecules in all three tissue types (P < 0.05). The positive rates of HBxAg and survivin were high in HCC (76.5% and 88.2%), paratumor (85.3% and 91.2%), and liver cirrhosis (100% and 93.3%) tissues, with no significant differences between the survivin- and HBxAg-positive rates (each P > 0.05). To examine the effect of HBx on survivin expression, plasmid pCMV-X (encoding the HBx gene) was transfected transiently with or without plasmid pcDNA3-sur (encoding the survivin gene) into H7402 hepatoma cells and L-O2 human normal liver cells. Cells over-expressing HBx alone showed increased apoptosis along with a dose-dependent increase in survivin levels. However, co-expression of survivin inhibited the HBx-induced apoptosis. To examine the effect of HBx on survivin in hepatoma cells without apoptosis, plasmid pCMV-X was transfected stably into human hepatoma H7402 cells and L-O2 cells. These H7402-X and L-O2-X cells showed high-level expression of both HBx and survivin, but did not show apoptosis. The addition of pSilencer 3.0-X, an RNAi vector targeting the HBx gene, reduced the expression levels of survivin protein in H7402-X cells. Collectively, these data demonstrate that HBx upregulates survivin expression in hepatoma tissues, suggesting that HBx and survivin may both be involved in carcinogenesis of HCC.

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Regulation of Ca2+ Signaling with Particular Focus on Mast Cells

Beaven

2009

Crit Rev Immunol

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Calcium signals mediate diverse cellular functions in immunological cells. Early studies with mast cells, then a preeminent model for studying Ca 2+ -dependent exocytosis, revealed several basic features of calcium signaling in non-electrically excitable cells. Subsequent studies in these and other cells further defined the basic processes such as inositol 1,4,5-trisphosphate-mediated release of Ca 2+ from Ca 2+ stores in the endoplasmic reticulum (ER); coupling of ER store depletion to influx of external Ca 2+ through a calcium-release activated calcium (CRAC) channel now attributed to the interaction of the ER Ca 2+ sensor, stromal interacting molecule-1 (STIM1), with a unique Ca 2+ -channel protein, Orai1/CRACM1, and subsequent uptake of excess Ca 2+ into ER and mitochondria through ATP-dependent Ca 2+ pumps. In addition, transient receptor potential channels and ion exchangers also contribute to the generation of calcium signals that may be global or have dynamic (e.g., waves and oscillations) and spatial resolution for specific functional readouts. This review discusses past and recent developments in this field of research, the pharmacologic agents that have assisted in these endeavors, and the mast cell as an exemplar for sorting out how calcium signals may regulate multiple outputs in a single cell.

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Synergistic activation of phospholipases Cγ and Cβ: A novel mechanism for PI3K-independent enhancement of FcεRI-induced mast cell mediator release

Kuehn

Beaven

et al. 2008

Cellular Signalling

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Antigen/IgE-mediated mast cell activation via FcεRI can be markedly enhanced by the activation of other receptors expressed on mast cells and these receptors may thus contribute to the allergic response in vivo. One such receptor family is the G protein-coupled receptors (GPCRs). Although the signaling cascade linking FcεRI aggregation to mast cell activation has been extensively investigated, the mechanisms by which GPCRs amplify this response are relatively unknown. To investigate this, we utilized prostaglandin (PG)E 2 based on initial studies demonstrating its greater ability to augment antigen-mediated degranulation in mouse mast cells than other GPCR agonists examined. This enhancement, and the ability of PGE 2 to amplify antigen-induced calcium mobilization, was independent of phosphoinositide 3-kinase but was linked to a pertussis toxinsensitive synergistic translocation to the membrane of phospholipase (PL)Cγ and PLCβ and to an enhancement of PLCγ phosphorylation. This "trans-synergistic" activation of PLCβ and γ, in turn, enhanced production of inositol 1,4,5-trisphosphate, store operated calcium entry, and activation of protein kinase C (PKC) (α and β). These responses were critical for the promotion of degranulation. This is the first report of synergistic activation between PLCγ and PLCβ that permits reinforcement of signals for degranulation in mast cells.

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Hongwen Ma

Requirement of the Inositol Trisphosphate Receptor for Activation of Store-Operated Ca ²⁺ Channels

A bacterial group II intron encoding reverse transcriptase, maturase, and DNA endonuclease activities: biochemical demonstration of maturase activity and insertion of new genetic information within the intron

Hepatitis B virus X protein upregulates survivin expression in hepatoma tissues

Regulation of Ca2+ Signaling with Particular Focus on Mast Cells

Synergistic activation of phospholipases Cγ and Cβ: A novel mechanism for PI3K-independent enhancement of FcεRI-induced mast cell mediator release

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Hongwen Ma

Requirement of the Inositol Trisphosphate Receptor for Activation of Store-Operated Ca 2+ Channels

A bacterial group II intron encoding reverse transcriptase, maturase, and DNA endonuclease activities: biochemical demonstration of maturase activity and insertion of new genetic information within the intron

Hepatitis B virus X protein upregulates survivin expression in hepatoma tissues

Regulation of Ca2+ Signaling with Particular Focus on Mast Cells

Synergistic activation of phospholipases Cγ and Cβ: A novel mechanism for PI3K-independent enhancement of FcεRI-induced mast cell mediator release

Contact Info

Product

Resources

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Requirement of the Inositol Trisphosphate Receptor for Activation of Store-Operated Ca ²⁺ Channels