TPX2 enhances the transcription factor activation of PXR and enhances the resistance of hepatocellular carcinoma cells to antitumor drugs

The pregnane X receptor (PXR) is an important regulator of hepatocellular carcinoma cellular resistance to antitumor drugs. Activation of PXR was modulated by the co-regulators. The target protein for the Xenopus plus end-directed kinesin-like protein (Xklp2) known as TPX2 that was previously considered as a tubulin regulator, also functions as the regulator of some transcription factors and pro-oncogenes in human malignances. However, the actions of TPX2 on PXR and HCC cells are still unclear. In the present study, our results demonstrate that the high expression of endogenous mRNA level of TPX2 not only correlated with the poor prognosis of advanced HCC patients who received sorafenib treatment but also with expression of PXR's downstream genes, cyp3a4 and/or mdr-1. Results from luciferase and real-time polymerase chain reaction (qPCR) showed that TPX2 leads to enhancement of the transcription factor activation of PXR. Protein-protein interactions between PXR and TPX2 were identified using co-immunoprecipitation. Mechanically, overexpression of TPX2 led to enhancement of PXR recruitment to its downstream gene cyp3a4's promoter region (the PXRE region) or enhancer region (the XREM region). Treatment of HCC cells with paclitaxel, a microtubule promoter, led to enhancement of the effects of TPX2, whereas vincristine, a microtubule depolymerizing agent caused a decrease in TPX2-associated effects. TPX2 was found to cause acceleration of the metabolism or clearance of sorafenib, a typical tyrosine kinase inhibitor (TKI) in HCC cells and in turn led to the resistance to sorafenib by HCC cells. By establishing novel actions of TXP2 on PXR in HCC cells, the results indicate that TPX2 could be considered a promising therapeutic target to enhance HCC cells sensitivity to antitumor drugs.

Two new dinor-eudesmane sesquiterpenoids from the roots of Chloranthus multistachys

Two new dinor-eudesmane sesquiterpenoids, named multistalin A (1), and multistalin B (2), together with three sesquiterpene glycosides (3-5), and a norlabdane-type diterpene (6) were isolated from the root extract of Chloranthus multistachys Pei. Their structures were elucidated on the basis of spectroscopic analysis including 1D, 2D NMR techniques and HR-ESI-MS. In addition, the cytotoxicity activities of the isolated compounds against selected cancer cells (Hela and A-549) were evaluated by MTT assay.

A structural signature of the breakdown of the Stokes–Einstein relation in metallic liquids

The study provides a possible structural origin for the breakdown of the Stokes–Einstein relation in metallic liquids.

C-reactive protein as a prognostic factor for human osteosarcoma: a meta-analysis and literature review

Background

Osteosarcoma is the most common primary bone cancer in growing adolescents and young adults. The prognostic role of C-reactive protein (CRP) in patients with osteosarcoma is not fully investigated. The purpose of this study is to perform a meta-analysis and literature review on the role of CRP in osteosarcoma and to assess the potential role of serum CRP as a prognostic factor for patients with osteosarcoma.

Methods

A detailed literature search was made in Medline for related research publications written in English. Methodological quality of the studies was also evaluated. The data were extracted and assessed by two reviewers independently. Analysis of pooled data were performed, risk ratio (RR) and corresponding confidence intervals (CIs) were calculated and summarized respectively.

Results

Final analysis of 397 patients from 2 eligible studies was performed. Combined RR of CRP expression suggested that the raised serum CRP level had an adverse prognostic effect on overall survival of patients with osteosarcoma (n = 397 in 2 studies; RR = 0.35; 95% CI: 0.18–0.68; p = 0.002). In the uni- and multivariate survival analysis, response rate and CRP levels were the only independent prognostic variables.

Conclusions

The results of this meta-analysis suggest that CRP expression confers a worse prognosis in patients with osteosarcoma. Large prospective studies are necessary to provide solid data to confirm the prognostic significance of CRP.

Protective effect of chelerythrine against ethanol-induced gastric ulcer in mice

The quaternary benzo[c]phenanthridine alkaloid, chelerythrine (CHE), is of great practical and research interest because of its pronounced, widespread physiological effects, primarily antimicrobial and anti-inflammatory, arising from its ability to interact with proteins and DNA. Although CHE was originally shown to possess anti-inflammatory properties, its effects on acute gastric ulcer have not been previously explored. The aim of the present study is to evaluate the protective effect of CHE on ethanol induced gastric ulcer in mice. Administration of CHE at doses of 1, 5 and 10mg/kg bodyweight prior to ethanol ingestion dose-dependently inhibited gastric ulcer. The gastric mucosal lesion was assessed by ulcer area, gastric juice acidity, myeloperoxidase (MPO) activities, macroscopic and histopathological examinations. CHE significantly reduced the gastric ulcer index, myeloperoxidase activities, macroscopic and histological score in a dose-dependent manner. In addition, CHE also significantly inhibited nitric oxide (NO) concentration, pro-inflammatory interleukin-6 (IL-6) and tumor necrosis factor-alpha (TNF-α) level in serum and gastric mucosal in the mice exposed to ethanol induced ulceration in a dose-dependent manner. In addition, immunohistochemical analysis revealed that CHE markedly attenuated the overexpression of nuclear factor-κB in gastric mucosa of mice. It was concluded that CHE represents a potential therapeutic option to reduce the risk of gastric ulceration. In addition, acute toxicity study revealed no abnormal sign to the mice treated with CHE (15mg/kg). These findings suggest that the gastroprotective activity of CHE might contribute in adjusting the inflammatory cytokine by regulating the NF-κB signalling pathway.

[Study on the chemical constituents of Chloranthus multistachys]

OBJECTIVE

To isolate and identify the chemical constituents of the root of Chloranthus multistachys Pei.

METHODS

The compounds were isolated by column chromatography, semi-preparative thin layer chromatography and related techniques, their structures were elucidated through spectroscopic analyses.

RESULTS

Nine compounds were isolated and identified as: lupeol (I), cycloeucalenol (II), isofragidin (III), daphnin (IV), umbelliferone (V), palmitic acid (VI), stigmasterol (VII), beta-sitosterol (VIII), beta-daucosterol (IX).

CONCLUSION

Except VI, all compounds are isolated from this plant for the first time.

Slit-Robo signaling induces malignant transformation through Hakai-mediated E-cadherin degradation during colorectal epithelial cell carcinogenesis

The Slit family of guidance cues binds to Roundabout (Robo) receptors and modulates cell migration. We report here that ectopic expression of Slit2 and Robo1 or recombinant Slit2 treatment of Robo1-expressing colorectal epithelial carcinoma cells recruited an ubiquitin ligase Hakai for E-cadherin (E-cad) ubiquitination and lysosomal degradation, epithelial-mesenchymal transition (EMT), and tumor growth and liver metastasis, which were rescued by knockdown of Hakai. In contrast, knockdown of endogenous Robo1 or specific blockade of Slit2 binding to Robo1 prevented E-cad degradation and reversed EMT, resulting in diminished tumor growth and liver metastasis. Ectopic expression of Robo1 also triggered a malignant transformation in Slit2-positive human embryonic kidney 293 cells. Importantly, the expression of Slit2 and Robo1 was significantly associated with an increased metastatic risk and poorer overall survival in colorectal carcinoma patients. We conclude that engagement of Robo1 by Slit2 induces malignant transformation through Hakai-mediated E-cad ubiquitination and lysosomal degradation during colorectal epithelial cell carcinogenesis.

Effects of chelerythrine, a specific inhibitor of cyclooxygenase-2, on acute inflammation in mice

Chelerythrine (CHE), a quaternary benzo[c]phenanthridine alkaloid, which is an agent in traditional Chinese medicine exhibits a wide spectrum of pharmacological effects. In this study, we examined the anti-inflammatory activities and mechanism of CHE in vivo and in vitro, respectively. Further, in the analgesic test, CHE also showed pronounced inhibition of the acetic acid-induced writhing response. These results clearly suggested that CHE is a bioactive agent which has a significant anti-inflammatory action, which may be relevant to the inhibition of the release/production of exudates and prostaglandin E(2) mediated through cyclooxygenase-2 regulation.

[Protecting effect of brevifolin and 8,9-single-epoxy brevifolin of Phyllanthus simplex on rat liver injury]

OBJECTIVE

To investigate the effect of protecting liver of brevifolin and 8,9-single-epoxy brevifolin of Phyllanthus simplex.

METHOD

Rats were administered with CCl4 (ip) or alcohol (ig) to establish acute or chronic liver injured model, respectively. ALT, AST and TBIL in serum were measured using colorimetric analysis to evaluate liver function. MDA content or SOD activity in serum and liver tissue was measured by thiobarbituric acid chromatometry and xanthine oxidase methods, respectively. The hemorheological parameters were observed.

RESULT

Brevifolin and 8,9-single-epoxy brevifolin reduced the increase of ALT induced by CCl4, but they did not influence the increase of AST. And it could inhibit the pathologic increase of serum TBIL induced by alcohol. They could ameliorate the MDA increase or SOD decrease in serum and liver tissue in rats with liver injury, and decrease abnormal changed hemorheological parameters.

CONCLUSION

Brevifolin and 8,9-single-epoxy brevifolin show protective effective against acute and chronic liver injuries, and the mechanism is relevant to antagonizing the lipid peroxidation of free radical and improving the blood circulation.

A juxtacrine mechanism for neutrophil adhesion on platelets involves platelet-activating factor and a selectin-dependent activation process

The aim of this study was to identify the molecular mechanisms involved in neutrophil adhesion to immobilized platelets with particular focus on the possible existence of a juxtacrine system for neutrophil-platelet interactions. Platelets were immobilized onto collagen (type I)-coated coverslips that were placed in a flow chamber and neutrophils were perfused across these confluent monolayers at a shear stress of 1 to 4 dynes/cm2. Neutrophils rolled, and a significant proportion (25% to 50%) adhered to platelet monolayers. P-selectin was expressed in very large quantities on the surface of platelets and mediated all of the rolling, whereas the beta2-integrin mediated firm adhesion. An activation mechanism for adhesion was necessary inasmuch as fixed neutrophils continued to roll on immobilized platelets, but did not adhere. Platelets adherent to collagen produced significant levels of platelet-activating factor (PAF). Accordingly, the firm adhesion of neutrophils to platelets was significantly inhibited by a PAF receptor antagonist (WEB 2086). Treatment of only the platelets with acetylhydrolase, which converts membrane-associated PAF to lyso-PAF, prevented 60% of the adhesion. These data suggest that PAF, on the surface of platelets, mediated a significant portion of the adhesive interaction. Addition of some selectin-binding carbohydrates (fucoidan or soluble SLEx analogs but not dextran sulfate) to the platelets caused rolling neutrophils to immediately adhere, an event that was not observed on histamine or thrombin-treated endothelium or P-selectin transfectants. These data support the view that a juxtacrine activation process exists on immobilized platelets for neutrophils. This process can be greatly enhanced on platelets and may involve a signaling mechanism through P-selectin.

A balance between nitric oxide and oxidants regulates mast cell-dependent neutrophil-endothelial cell interactions

Nitric oxide (NO) synthesis inhibition causes neutrophil adhesion to endothelium via a mast cell- and oxidant-dependent mechanism. The objective of this study was to delineate the cascade of events in the mast cell- and oxidant-induced neutrophil-endothelium interactions after NO synthesis inhibition. Mast cells were isolated and purified from the rat peritoneal cavity and coadministered with neutrophils to wells of endothelium. This system was treated with an NO synthesis inhibitor (NG-nitro-L-arginine methyl ester; L-NAME) for 60 minutes. L-NAME did not induce neutrophil-endothelium interactions in the absence of mast cells, but the addition of mast cells in a ratio as low as 1:50 mast cells to neutrophils was sufficient to induce a large increase in neutrophil adhesion to endothelium within 20 to 25 minutes. L-arginine, NO donors, and 8-bromo-cGMP reversed the L-NAME effect, whereas NG-nitro-D-arginine methyl ester alone had no proadhesive effect. The adhesion was inhibited by an anti-CD18 or an anti-intracellular adhesion molecule-1 antibody and a platelet-activating factor-receptor antagonist. Inhibition of NO in isolated endothelial monolayers induced oxidant release (reduction of cytochrome C) into extracellular fluid. The endothelium-derived superoxide contributed to the mast cell-induced adhesion, inasmuch as the extracellular antioxidant superoxide dismutase reduced the neutrophil adhesion response as did disruption of endothelial function. There was some direct activation of mast cells with L-NAME (independent of endothelium) inasmuch as intracellular calcium and oxidative stress increased within mast cells after L-NAME treatment, and this translated into increased neutrophil adhesion to nonendothelial substrata. These data demonstrate that depletion of NO increases oxidative stress within mast cells and endothelium and together these events promote neutrophil adhesion within the vasculature.

Nitric oxide inhibits numerous features of mast cell-induced inflammation

BACKGROUND

We previously reported that mast cell degranulation causes histamine and P-selectin-dependent leukocyte rolling and platelet-activating factor (PAF)- and CD18-associated leukocyte adhesion, whereas others have reported serotonin-induced edema formation. The purpose of the present study was to determine whether nitric oxide (NO) could inhibit the mast cell-induced multistep recruitment of leukocytes and the associated microvascular dysfunction in single inflamed venules.

METHODS AND RESULTS

Intravital fluorescence microscopy was used to demonstrate increased leukocyte rolling and adhesion and increased albumin extravasation in single 25- to 40-microns venules that were treated with the mast cell-degranulating agent compound 48/80 (CMP 48/80). The mast cell-induced histamine-dependent rolling and PAF-dependent adhesion were completely inhibited by the addition of the NO donor spermine NO. However, spermine NO did not directly inhibit histamine-induced leukocyte rolling and only partly affected PAF-induced leukocyte adhesion. Compound 48/80-activated mast cells evoked a significant increase in PAF-dependent neutrophil adhesion in vitro. Spermine-NO prevented the mast cell-dependent neutrophil adhesion but failed to affect direct adhesion with PAF. The mast cell-induced albumin leakage was also inhibited by the NO donor.

CONCLUSIONS

Taken together, these results suggest that exogenous NO can modulate leukocyte recruitment and microvascular permeability alterations elicited by mast cell activation and raises the possibility that the use of NO donors may be a reasonable therapeutic approach to reducing mast cell-dependent inflammation.

A novel beta 1-dependent adhesion pathway on neutrophils: a mechanism invoked by dihydrocytochalasin B or endothelial transmigration

It is generally accepted that the beta 2-integrin is restricted to mononuclear leukocytes. The objective of this study was to determine whether neutrophils can also express beta 1-integrin (specifically alpha 4 beta 1) and whether this can support neutrophil adhesion to endothelial cells and to extracellular matrix. We stimulated neutrophils with dihydrocytochalasin B (DHCB) and various chemotactic stimuli and observed that chemotactic stimuli induced neutrophil adhesion via beta 2-integrin (CD18), whereas DHCB and either fMLP, PAF, or IL-8 induced adhesion to endothelium or protein-coated plastic that was not inhibitable by anti-CD18 antibody. beta 2-integrin-deficient cells, which did not respond to chemotactic stimuli alone, also adhered avidly in the presence of chemotactic stimuli and DHCB. The induced neutrophil adhesion was inhibited by antibody to beta 1- or alpha 4-integrin chains, but only if an anti-beta 2-integrin antibody was also present. Flow cytometry revealed increased expression of both beta 1 and alpha 4 in the presence of fMLP plus DHCB. Transendothelial migration of neutrophils induced by chemotactic stimuli alone also increased expression of beta 1 and alpha 4. Transmigration across deendothelialized membranes induced a similar beta 1 expression on neutrophils suggesting that events other than an endothelial signal elicited beta 1-integrin expression. Transmigration-induced beta 1-dependent expression translated into only modest adhesion to protein-coated plastic. These data suggest that both a pharmacological (DHCB) and a physiological (transmigration) stimulus can invoke expression of alpha 4 and beta 1 on human neutrophils to mediate adhesion.

Mechanisms underlying acute mast cell-induced leukocyte rolling and adhesion in vivo

It has been proposed that a primary detector mechanism for tissue infection or injury may be the mast cell that releases agents that recruit leukocytes to the appropriate site at risk. The objective of this study was to evaluate the early mechanisms involved in mast cell-induced leukocyte recruitment. We used intravital microscopy to visualize leukocyte-rolling flux and adhesion in single 25 to 40 microns venules in mesenteric preparations that were treated with the mast cell-degranulating agent, compound 48/80 (CMP 48/80). Superfusion of the rat mesentery with CMP 48/80 caused a dose-dependent rise in the number of rolling and adherent cells, events significantly reduced by: 1) mast cell stabilizers, ketotifen, or cromolyn, and 2) chronic treatment with CMP 48/80 to deplete mast cell constituents. The increase in leukocyte flux associated with CMP 48/80 was blocked by diphenhydramine (H1-receptor antagonist) and an anti-P-selectin Ab (PB1.3), but not by the 5-lipoxygenase inhibitor, MK 886. The reduction in the flux of rolling leukocytes translated into fewer adherent leukocytes with diphenhydramine or PB1.3. The CMP 48/80-induced rise in leukocyte adhesion, but not leukocyte flux, was reduced by the platelet-activating factor (PAF)-receptor antagonist (WEB 2086) and an anti-CD18 Ab (CL26). MK 886 did not prevent the increased leukocyte adhesion. In vitro data revealed that mast cell-derived PAF induced essentially all of the leukocyte adhesion to endothelium or protein-coated plastic. These data suggest that mast cell degranulation induces P-selectin-dependent leukocyte rolling and CD18-dependent leukocyte adhesion via histamine and PAF, respectively.

Mechanisms underlying acute mast cell-induced leukocyte rolling and adhesion in vivo

It has been proposed that a primary detector mechanism for tissue infection or injury may be the mast cell that releases agents that recruit leukocytes to the appropriate site at risk. The objective of this study was to evaluate the early mechanisms involved in mast cell-induced leukocyte recruitment. We used intravital microscopy to visualize leukocyte-rolling flux and adhesion in single 25 to 40 microns venules in mesenteric preparations that were treated with the mast cell-degranulating agent, compound 48/80 (CMP 48/80). Superfusion of the rat mesentery with CMP 48/80 caused a dose-dependent rise in the number of rolling and adherent cells, events significantly reduced by: 1) mast cell stabilizers, ketotifen, or cromolyn, and 2) chronic treatment with CMP 48/80 to deplete mast cell constituents. The increase in leukocyte flux associated with CMP 48/80 was blocked by diphenhydramine (H1-receptor antagonist) and an anti-P-selectin Ab (PB1.3), but not by the 5-lipoxygenase inhibitor, MK 886. The reduction in the flux of rolling leukocytes translated into fewer adherent leukocytes with diphenhydramine or PB1.3. The CMP 48/80-induced rise in leukocyte adhesion, but not leukocyte flux, was reduced by the platelet-activating factor (PAF)-receptor antagonist (WEB 2086) and an anti-CD18 Ab (CL26). MK 886 did not prevent the increased leukocyte adhesion. In vitro data revealed that mast cell-derived PAF induced essentially all of the leukocyte adhesion to endothelium or protein-coated plastic. These data suggest that mast cell degranulation induces P-selectin-dependent leukocyte rolling and CD18-dependent leukocyte adhesion via histamine and PAF, respectively.

Intracellular oxidative stress induced by nitric oxide synthesis inhibition increases endothelial cell adhesion to neutrophils

The objective of the present study was to determine whether prolonged inhibition of nitric oxide synthesis in endothelial cells increased the surface adhesion of these cells for neutrophils. Human umbilical vein endothelial cells (HUVECs) were grown to confluence in 48-well microtiter plates. Exposure of HUVECs to the nitric oxide synthesis inhibitor NG-nitro-L-arginine methyl ester (L-NAME) did not cause neutrophil adhesion at 1 hour but increased adhesion at 4 hours in a dose-dependent manner. The increased adhesion was prevented with L-arginine or nitric oxide donors but not an analogue of cGMP. The increased adhesion was inhibited by monoclonal antibodies directed against the beta 2-integrin CD18 and endothelial cell adhesion molecule ICAM-1. Platelet-activating factor (PAF) receptor antagonist WEB 2086 also prevented the L-NAME-induced neutrophil adhesion. Intracellular oxygen radical scavengers (dimethyl sulfoxide, butylated hydroxytoluene, and alpha, alpha'-dipyridyl), the iron chelator desferrioxamine, and the mitochondrial inhibitor azide inhibited the L-NAME-induced neutrophil adhesion, whereas extracellular oxygen radical scavengers (superoxide dismutase and catalase) had no effect. HUVECs were loaded with 2',7'-dichlorodihydrofluorescein diacetate, and oxidation to the fluorescent dichlorodihydrofluorescein (DCHF) was monitored. Fluorescence was enhanced in the L-NAME-treated HUVECs throughout the 4-hour incubation, an event inhibitable by an antioxidant and azide. The magnitude of the intracellular oxidation of DCHF was equivalent to approximately 0.8 mumol/L H2O2. These data suggest that prolonged nitric oxide synthesis inhibition in HUVECs causes an oxidant- and PAF-associated rise in adhesion on the surface of these endothelial cells for neutrophils.

Nitric oxide synthesis inhibition induces leukocyte adhesion via superoxide and mast cells

Recent work has demonstrated that inhibition of nitric oxide production with various nitric oxide synthesis inhibitors (L-NAME, L-NMMA) initiate leukocyte adhesion to postcapillary venules. The objective of this study was to elucidate the mechanism (or mechanisms) that promote the L-NAME-induced leukocyte response. Intravital microscopy was used to examine 25-40 microns venules in the rat mesentery. Nitric oxide synthesis was inhibited with L-NAME and leukocyte adhesion was observed over the first 60 min. The fourfold increase in leukocyte adhesion was independent of alterations in venular red blood cell velocity. The adhesion was superoxide-mediated inasmuch as superoxide dismutase (SOD) abolished the rise in leukocyte adhesion associated with nitric oxide synthesis inhibition. Ketotifen, a mast cell stabilizer, also abolished the rise in leukocyte adhesion induced by L-NAME. Histology revealed that mast cell degranulation occurred only in animals treated with L-NAME but not in animals pretreated with SOD or ketotifen. This observation suggests that mast cells become activated in the absence of nitric oxide production and superoxide contributes to the mast cell activation. The L-NAME-induced leukocyte adhesion could be reproduced by infusing hypoxanthine/xanthine oxidase (a superoxide generating system) or compound 48/80 (an activator of mast cells) and both responses were attenuated by ketotifen. These data suggest that inhibition of nitric oxide synthesis results in a superoxide and mast cell-dependent leukocyte adhesion.