A truncated naturally occurring variant of the human purinergic receptor P2X7 (P2X7-R) was found in human cancer cervical cells. The novel protein consists of 258 amino acids, and compared to the wild-type P2X7-R it lacks the entire intracellular carboxy terminus, the second transmembrane domain, and the distal third of the extracellular loop. The truncated P2X7-R failed to form pores and mediate apoptosis, and it interacted with the wild-type P2X7-R in a manner suggesting auto-hetero-oligomerization. In contrast to cancer cells the novel truncated P2X7-R was expressed relatively little in normal cervical cells. These data raise the possibility that coexpression of the truncated form could block P2X7 mediated apoptosis and promote uncontrolled growth of cells.
The objective of this study was to understand the mechanisms involved in P2X 7 receptor activation. Treatments with ATP or with the P2X 7 receptor-specific ligand 2′,3′- O-(4-benzoylbenzoyl)adenosine 5′-triphosphate (BzATP) induced pore formation, but the effect was slower in CaSki cells expressing endogenous P2X 7 receptor than in human embryonic kidney (HEK)-293 cells expressing exogenous P2X 7 receptor (HEK-293-hP2X 7 -R). In both types of cells Western blots revealed expression of three forms of the receptor: the functional 85-kDa form present mainly in the membrane and 65- and 18-kDa forms expressed in both the plasma membrane and the cytosol. Treatments with ATP transiently decreased the 85-kDa form and increased the 18-kDa form in the membrane, suggesting internalization, degradation, and recycling of the receptor. In CaSki cells ATP stimulated phosphorylation of the 85-kDa form on tyrosine and serine residues. Phosphorylation on threonine residues increased with added ATP, and it increased ATP requirements for phosphorylation on tyrosine and serine residues, suggesting a dominant-negative effect. In both CaSki and in HEK-293-hP2X 7 -R cells ATP also increased binding of the 85-kDa form to G protein-coupled receptor kinase (GRK)-3, β-arrestin-2, and dynamin, and it stimulated β-arrestin-2 redistribution into submembranous regions of the cell. These results suggest a novel mechanism for P2X 7 receptor action, whereby activation involves a GRK-3-, β-arrestin-2-, and dynamin-dependent internalization of the receptor into clathrin domains, followed in part by receptor degradation as well as receptor recycling into the plasma membrane.
The negotiation process of international treaties is heavily influenced by socioeconomic factors. In this paper, we aim to answer the question of how to quantify the influential factors among countries. We do so by categorizing them into different interest groups based on their attitudes towards the treaty as well as their socioeconomic statuses and modeling the movement of countries between these interest groups. This model is based on an epidemiological approach to quantifying influence. Through our research, we discovered two equilibrium points, which reveal the conditions under which all countries would either support or oppose a treaty. We also ran simulations under several hypothetical scenarios under which equilibria would occur, demonstrating the practical applications of our model. We further analyze the model's real life application and the influence of certain parameters through two case studies: the first is on the Basel Convention's negotiation process and the second is on the spread of carbon pricing.
The present study explored the effects of estrogen on transcervical tight-junctional resistance (RTJ) and the mechanisms involved. Treatment of cultured human cervical epithelial cells with 17β-estradiol decreased in a time- and dose-related manner the RTJ. Estrogen had no significant effect on the expression of E-Cadherin, zonula-occluden-1, or Claudin-4. In contrast, 17β-estradiol modulated expression of the transmembrane tight-junctional protein occludin: at low concentrations (1 and 10 nm) estradiol increased the density of occludin 65-kDa form but at the higher concentration of 100 nm estradiol induced only a mild 2-fold increase in the density of this form. Estradiol also increased the expression of occludin 50-kDa form in a dose-related manner. The RTJ and occludin effects of estradiol were reversible and could be blocked by tamoxifen but not progesterone. The present results rule out estrogen modulation of occludin transcription. In contrast, the results suggest that the occludin effects of estrogen involve posttranslational up-regulation of occludin turnover, including synthesis and degradation. The effects of estrogen on occludin expression were compared with those of proteinase-K, plasmin, and matrix-metaloproteinase-2 (all added extracellularly). The three proteinases abrogated irreversibly the RTJ and induced expression de novo of occludin low-molecular-weight forms. The latter, however, differed from the effect of estrogen, which generated only a single 50-kDa form. Collectively, the present data suggest that the occludin 50-kDa form is an estrogen-specific-induced occludin isoform and that the mechanism of estrogen-abrogation of transcervical RTJ involves occludin modulation.
The most striking feature of a G protein-coupled receptor (GPCR) is its highly exclusive agonist specificity. This feature guarantees that a GPCR recognizes only its specific native agonist(s). In this study, we showed that two point mutations of N295S and L305Q enabled the AT1 receptors to recognize multiple Ang II fragments. Similar to the well established constitutively active AT1 mutant receptor N111G, the mutations of N295S and L305Q induced an increased production of basal inositol 1,4,5-phosphates in the absence of exogenous Ang II when expressed in HEK293 cells. Distinct from the N111G, however, is the fact that the increased basal activity disappeared in COS-7 cells because of the lack of endogenous Ang II fragments produced by the cells—a pseudo-constitutive activity. It is surprising that the Ang II analog [Sar1,Ile4,Ile8]Ang II and the native angiotensin II fragments Ang 1-7, Ang IV, and Ang 5-8, which are inactive in activating the wild-type receptor, activated N295S and L305Q. Results generated by lowering the Na+ concentration suggest that the mutant N295S and L305Q may be trapped in neutral conformational states (RN). These data allow us to identify for the first time a novel pattern of GPCR mutations with a broad spectrum of agonist specificity, suggesting possible existence of functional GPCRs in nature that are activated through conformational “selection” rather than “induction” mechanisms.
Abstract The present study investigated the antiapoptotic effects of estrogen in normal and cancer human cervical cells and the mechanisms involved. Baseline apoptosis in human cervical epithelial cells is mediated predominantly by P2X7-receptor-induced, Ca2+-dependent activation of the mitochondrial (caspase-9) pathway. Treatment with 10 nm 17β-estradiol blocked apoptosis induced by the P2X7-receptor ligands ATP and 2′,3′-0-(4-benzoylbenzoyl)-ATP in normal human cervical epithelial cells (hECEs) and attenuated the effect in hECEs immortalized with human papillomavirus-16 (ECE16–1) and the cancer cervical cells HT3 and CaSki. Diethylstilbestrol and to a lesser degree estrone could mimic the effects of 17β-estradiol, whereas actinomycin-D and cycloheximide attenuated the response. The antiapoptotic effect of estrogen did not depend on cell cycle phase, and in both normal and cancer cervical cells, it involved attenuation of activation of caspase-9 and the terminal caspase-3. However, involvement of cascades upstream to the caspase-9 differed in normal vs. cancer cervical cells. In the normal hECEs estrogen blocked P2X7-receptor-induced calcium influx. In contrast, in the cancer CaSki cells, estrogen up-regulated expression of Bcl-2 and attenuated Ca2+-induced mitochondrial swelling (i.e. formation of mitochondrial permeability transition pores). Estrogen had no effect on P2X7-receptor-induced apoptosis in the anaplastic SiHa and Hela cells. These results point to a novel antiapoptotic effect of estrogen in the cervix that is independent of its mitogenic function. The results also suggest that cancer cervical cells evolved antiapoptotic mechanisms that enable the cells to evade apoptosis and could therefore promote tumor progression.
Treatment of human cervical epithelial CaSki cells with ATP or with the diacylglyceride sn-1,2-dioctanoyl diglyceride (diC8) induced a staurosporine-sensitive transient increase, followed by a late decrease, in tight-junctional resistance (R(TJ)). CaSki cells express two immunoreactive forms of occludin, 65 and 50 kDa. Treatments with ATP and diC8 decreased the density of the 65-kDa form and increased the density of the 50-kDa form. ATP also decreased threonine phosphorylation of the 65-kDa form and increased threonine phosphorylation of the 50-kDa form and tyrosine phosphorylation of the 65- and 50-kDa forms. Staurosporine decreased acutely threonine and tyrosine phosphorylation of the two isoforms and in cells pretreated with staurosporine ATP increased acutely the density of the 65-kDa form and threonine phosphorylation of the 65-kDa form. Treatment with N-acetyl-leucinyl-leucinyl-norleucinal increased the densities of the 65- and 50-kDa forms. Pretreatment with N-acetyl-leucinyl-leucinyl-norleucinal attenuated the late decreases in R(TJ) induced by ATP and diC8 and the decrease in the 65-kDa and increase in the 50-kDa forms induced by ATP. Correlation analyses showed that high levels of R(TJ) correlated with the 65-kDa form, whereas low levels of R(TJ) correlated negatively with the 65-kDa form and positively with the 50-kDa form. The results suggest that in CaSki cells 1) occludin determines gating of the tight junctions, 2) changes in occludin phosphorylation status and composition regulate the R(TJ), 3) protein kinase-C-mediated, threonine dephosphorylation of the 65-kDa occludin form increases the resistance of assembled tight junctions, 4) the early stage of tight junction disassembly involves calpain-mediated breakdown of occludin 65-kDa form to the 50-kDa form, and 5) increased levels of the 50-kDa form interfere with occludin gating of the tight junctions.
Normal human ectocervical epithelial (hECE) cells undergo apoptosis in culture. Baseline apoptosis could be increased by shifting cells to serum-free medium and blocked by lowering extracellular calcium. Treatment with the ATPase apyrase attenuated baseline apoptosis, suggesting that extracellular ATP and purinergic mechanisms control the apoptosis. Treatment with ATP and the P2X7 receptor analog 2'-3'-O-(4-benzoylbenzoyl)adenosine 5'-triphosphate (BzATP) increased apoptosis significantly, in a time- and dose-related manner. The threshold of ATP effect was 0.5 microM in hECE cells and approximately 1 microM in CaSki cancer cells. The apoptotic effect of BzATP was additive in part to that of tumor necrosis factor (TNF)-alpha, and it could be attenuated by lowering extracellular calcium and by treatment with the caspase-9 inhibitor Leu-Glu-His-Asp-O-methyl-fluoromethylketone (LEHD-FMK). Treatment with BzATP activated caspase-9, and, in contrast to TNF-alpha, it had only a mild effect on caspase-8. Both BzATP and TNF-alpha activated caspase-3, suggesting that BzATP activates predominantly the mitochondrial apoptotic pathway. Both hECE and CaSki cells secrete ATP into the extracellular fluid, and mean ATP activity in conditioned medium was approximately 0.5 microM, which is in the range of values that suffice to activate the P2X7 receptor. On the basis of these findings we propose a novel autocrine-paracrine mechanism of cervical cell apoptosis that operates by P2X7 receptor control of cytosolic calcium and utilizes the mitochondrial apoptotic pathway.
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