Impact of HepG2 Cells Glutathione Depletion on Neutral Sphingomyelinases mRNA Levels and Activity.

Liver cancer is a prevalent form of cancer worldwide. While research has shown that increasing sphingomyelin (SM) hydrolysis by activating the cell surface membrane-associated neutral sphingomyelinase 2 (nSMase2) can control cell proliferation and apoptosis, the role of total glutathione depletion in inducing tumor cell apoptosis via nSMase2 activation is still under investigation. Conversely, glutathione-mediated inhibition of reactive oxygen species (ROS) accumulation is necessary for the enzymatic activity of nSMase1 and nSMase3, increased ceramide levels, and cell apoptosis. This study evaluated the effects of depleting total glutathione in HepG2 cells using buthionine sulfoximine (BSO). The study assessed nSMases RNA levels and activities, intracellular ceramide levels, and cell proliferation using RT-qPCR, Amplex red neutral sphingomyelinase fluorescence assay, and colorimetric assays, respectively. The results indicated a lack of nSMase2 mRNA expression in treated and untreated HepG2 cells. Depletion of total glutathione resulted in a significant increase in mRNA levels but a dramatic reduction in the enzymatic activity of nSMase1 and nSMase3, a rise in ROS levels, a decrease in intracellular levels of ceramide, and an increase in cell proliferation. These findings suggest that total glutathione depletion may exacerbate liver cancer (HCC) and not support using total glutathione-depleting agents in HCC management. It is important to note that these results are limited to HepG2 cells, and further studies are necessary to determine if these effects will also occur in other cell lines. Additional research is necessary to explore the role of total glutathione depletion in inducing tumor cell apoptosis.

Hypertoxic self-assembled peptide with dual functions of glutathione depletion and biosynthesis inhibition for selective tumor ferroptosis and pyroptosis.

Abundant glutathione (GSH) is a biological characteristic of lots of tumor cells. A growing number of studies are utilizing GSH depletion as an effective adjuvant therapy for tumor. However, due to the compensatory effect of intracellular GSH biosynthesis, GSH is hard to be completely exhausted and the strategy of GSH depletion remains challenging. Herein, we report an L-buthionine-sulfoximine (BSO)-based hypertoxic self-assembled peptide derivative (NSBSO) with dual functions of GSH depletion and biosynthesis inhibition for selective tumor ferroptosis and pyroptosis. The NSBSO consists of a hydrophobic self-assembled peptide motif and a hydrophilic peptide derivative containing BSO that inhibits the synthesis of GSH. NSBSO was cleaved by GSH and thus experienced a morphological transformation from nanoparticles to nanofibers. NSBSO showed GSH-dependent cytotoxicity and depletion of intracellular GSH. In 4T1 cells with medium GSH level, it depleted intracellular GSH and inactivated GSH peroxidase 4 (GPX4) and thus induced efficient ferroptosis. While in B16 cells with high GSH level, it exhausted GSH and triggered indirect increase of intracellular ROS and activation of Caspase 3 and gasdermin E, resulting in severe pyroptosis. These findings demonstrate that GSH depletion- and biosynthesis inhibition-induced ferroptosis and pyroptosis strategy would provide insights in designing GSH-exhausted medicines.

Research on Weigh-in-Motion Algorithm of Vehicles Based on BSO-BP.

Weigh-in-motion (WIM) systems are used to measure the weight of moving vehicles. Aiming at the problem of low accuracy of the WIM system, this paper proposes a WIM model based on the beetle swarm optimization (BSO) algorithm and the error back propagation (BP) neural network. Firstly, the structure and principle of the WIM system used in this paper are analyzed. Secondly, the WIM signal is denoised and reconstructed by wavelet transform. Then, a BP neural network model optimized by BSO algorithm is established to process the WIM signal. Finally, the predictive ability of BP neural network models optimized by different algorithms are compared and conclusions are drawn. The experimental results show that the BSO-BP WIM model has fast convergence speed, high accuracy, the relative error of the maximum gross weight is 1.41%, and the relative error of the maximum axle weight is 6.69%.

Novel Slippery Liquid-Infused Porous Surfaces (SLIPS) Based on Electrospun Polydimethylsiloxane/Polystyrene Fibrous Structures Infused with Natural Blackseed Oil.

Hydrophobic fibrous slippery liquid-infused porous surfaces (SLIPS) were fabricated by electrospinning polydimethylsiloxane (PDMS) and polystyrene (PS) as a carrier polymer on plasma-treated polyethylene (PE) and polyurethane (PU) substrates. Subsequent infusion of blackseed oil (BSO) into the porous structures was applied for the preparation of the SLIPS. SLIPS with infused lubricants can act as a repellency layer and play an important role in the prevention of biofilm formation. The effect of polymer solutions used in the electrospinning process was investigated to obtain well-defined hydrophobic fibrous structures. The surface properties were analyzed through various optical, macroscopic and spectroscopic techniques. A comprehensive investigation of the surface chemistry, surface morphology/topography, and mechanical properties was carried out on selected samples at optimized conditions. The electrospun fibers prepared using a mixture of PDMS/PS in the ratio of 1:1:10 (g/g/mL) using tetrahydrofuran (THF) solvent showed the best results in terms of fiber uniformity. The subsequent infusion of BSO into the fabricated PDMS/PS fiber mats exhibited slippery behavior regarding water droplets. Moreover, prepared SLIPS exhibited antibacterial activity against Staphylococcus aureus and Escherichia coli bacterium strains.

Association between BRCA mutations and endometrial carcinoma: a systematic review with meta-analysis.

PURPOSE: To first investigate on the association between BRCA mutations and endometrial carcinoma. To first evaluate the contribution of tamoxifen use and risk-reducing bilateral salping-oophenrectomy (BSO) on endometrial carcinoma in BRCA carriers. METHODS: A systematic search of electronic databases including the PubMed and EMBASE was conducted to identify publications exploring the association between BRCA mutations and endometrial carcinoma. Finally, single rate meta-analysis and diagnostic meta-analysis were performed. RESULTS: 11 retrospective studies and 3 prospective studies were included in the meta-analysis, single rate meta-analysis was performed on retrospective studies and prospective studies respectively. We got that incidence of BRCA mutations in patients with endometrial carcinoma is about 0.035, the incidence of endometrial carcinoma in BRCA carriers is about 0.004. Diagnostic meta-analysis performed on prospective studies found that tamoxifen increased incidence of endometrial carcinoma in BRCA carriers. CONCLUSIONS: The incidence of BRCA mutations in patients with endometrial carcinoma is about 0.035 according to present studies, the incidence of endometrial carcinoma in BRCA carriers is about 0.004. Tamoxifen use is a certain risk factor for subsequent endometrial carcinoma, while history of breast cancer or risk-reducing BSO is not associated with incidence of follow-up endometrial carcinoma. The necessity and rationality of prophylactic hysterectomy for BRCA carriers remained to be discussed.

Melatonin restores neutrophil functions and prevents apoptosis amid dysfunctional glutathione redox system.

Melatonin is a chronobiotic hormone, which can regulate human diseases like cancer, atherosclerosis, respiratory disorders, and microbial infections by regulating redox system. Melatonin exhibits innate immunomodulation by communicating with immune system and influencing neutrophils to fight infections and inflammation. However, sustaining redox homeostasis and reactive oxygen species (ROS) generation in neutrophils are critical during chemotaxis, oxidative burst, phagocytosis, and neutrophil extracellular trap (NET) formation. Therefore, endogenous antioxidant glutathione (GSH) redox cycle is highly vital in regulating neutrophil functions. Reduced intracellular GSH levels and glutathione reductase (GR) activity in the neutrophils during clinical conditions like autoimmune disorders, neurological disorders, diabetes, and microbial infections lead to dysfunctional neutrophils. Therefore, we hypothesized that redox modulators like melatonin can protect neutrophil health and functions under GSH and GR activity-deficient conditions. We demonstrate the dual role of melatonin, wherein it protects neutrophils from oxidative stress-induced apoptosis by reducing ROS generation; in contrast, it restores neutrophil functions like phagocytosis, degranulation, and NETosis in GSH and GR activity-deficient neutrophils by regulating ROS levels both in vitro and in vivo. Melatonin mitigates LPS-induced neutrophil dysfunctions by rejuvenating GSH redox system, specifically GR activity by acting as a parallel redox system. Our results indicate that melatonin could be a potential auxiliary therapy to treat immune dysfunction and microbial infections, including virus, under chronic disease conditions by restoring neutrophil functions. Further, melatonin could be a promising immune system booster to fight unprecedented pandemics like the current COVID-19. However, further studies are indispensable to address the clinical usage of melatonin.

LongShengZhi Capsule reduces carrageenan-induced thrombosis by reducing activation of platelets and endothelial cells.

Formation of thrombosis is associated with activation of platelets and endothelial cells. The effect of LongShengZhi Capsule (LSZ), a traditional Chinese medicine used for treatment of vascular diseases, on thrombosis was investigated in this study. BALB/c mice were induced thrombosis by injection of carrageenan while receiving pre or simultaneous LSZ treatment. We also compared the therapeutic effects of LSZ and clopidogrel on formed thrombi. LSZ inhibited carrageenan-induced thrombi in mouse tissue vessels. In addition, LSZ but not clopidogrel reduced formed thrombi with a short time window. The reduction of thrombi by LSZ was associated with reduced serum P-selectin, reduced expression of TNF-α and P-selectin and activated matrix metalloproteinase 2 expression in tissues. In vitro, LSZ decreased thrombin-induced human platelet clot retraction which was associated with inactivation of AKT and ERK1/2. LSZ also reduced adhesion of platelets or THP-1 monocytes to human umbilical vein endothelial cells (HUVECs) induced by oxidized low-density lipoprotein or lipopolysaccharide. The anti-adherent actions of LSZ was attributed to reduction of oxidative stress, expression of platelet receptors (P2Y12, PAR4 and CD36) and AKT activity in platelets. LSZ also reduced adhesion molecules or tissue factor but activated tissue factor pathway inhibitor expression in HUVECs. Taken together, our study demonstrates the antithrombotic properties of LSZ by reducing activation of platelets and endothelial cells, and suggests its potential application in clinics.

Acute kidney injury model established by systemic glutathione depletion in mice.

Glutathione (GSH) is one of the most extensively studied tripeptides. The roles for GSH in redox signaling, detoxification of xenobiotics and antioxidant defense have been investigated. A drug-induced rhabdomyolysis mouse model was recently established in L-buthionine-(S,R)-sulfoximine (BSO; a GSH synthesis inhibitor)-treated normal mice by co-administration of antibacterial drug and statin. In these models, mild kidney injury was observed in the BSO only-treated mice. Therefore, in this study, we studied kidney injury in the GSH-depleted mouse. BSO was intraperitoneally administered twice a day for 7 days to normal mice. The maximum level of plasma creatine phosphokinase (351 487 ± 53 815 U/L) was shown on day 8, and that of aspartate aminotransferase was shown on day 6. Increased levels of blood urea nitrogen, plasma creatinine, urinary kidney injury molecule-1 and urinary creatinine were observed. An increase of mRNA expression level of renal lipocalin 2/neutrophil gelatinase-associated lipocalin was observed. Degeneration and necrosis in the skeletal muscle and high concentrations of myoglobin (Mb) in blood (347-203 925 ng/mL) and urine (2.5-68 583 ng/mL) with large interindividual variability were shown from day 5 of BSO administration. Mb-stained regions in the renal tubule and renal cast were histologically observed. In this study, the GSH-depletion treatment established an acute kidney injury mouse model due to Mb release from the damaged skeletal muscle. This mouse model would be useful for predicting potential acute kidney injury risks in non-clinical drug development.

Buthionine sulfoximine, a glutathione depletor, attenuates endotoxic fever and reduces IL-1ß and IL-6 level in rats.

PURPOSE: The aim of our study was to investigate the effect of buthionine sulfoximine (BSO) - a glutathione depletor - on a course of endotoxic fever and IL-1ß and IL-6 production. MATERIAL AND METHODS: Male Wistar rats were subjected to intraperitoneal injection of lipopolysaccharide (LPS) from E. coli (50µg/kg, ip) to provoke fever. The level of spleen glutathione, plasma interleukin (IL)-1ß, IL-6, and deep body temperature (Tb) were measured. RESULTS: The LPS administration provoked fever (the average Tb was 38.14±0.05°C in NaCl/LPS-treated rats vs 37.10±0.03°C in control, not-treated rats; p<0.001). We observed that LPS injection induced a decrease in spleen glutathione level (7.67±0.92nM/g vs 13.27±0.47nM/g in not-treated rats; p<0.001). Furthermore, the injection of LPS provoked an elevation of plasma IL-1ß and IL-6 concentration (from values below the lowest detectable standard in not-treated animals to 199.99±34.89pg/mL and 7500±542.21pg/mL, respectively; p<0.001). Pretreatment with BSO enhanced glutathione decrease in LPS-treated rats (5.05±0.49nM/g), and significantly affected fever (maximal Tb was 37.81±0.07°C in BSO/LPS-treated rats vs 38.76±0.11°C in NaCl/LPS-treated rats). BSO 4h after LPS injection decreased IL-1ß and IL-6 gene expression (about 1.5 fold, and 2 fold, respectively). In a consequence we observed a decrease in plasma IL-6 concentration (4h after LPS injection plasma IL-6 was 4167.17±956.54pg/mL in BSO/LPS-treated rats vs 7500±542.21pg/mL in NaCl/LPS-treated rats; p<0.001), and later IL-1ß (7h after LPS injection the IL-1ß concentration was not detected). CONCLUSION: Based on these data, we conclude that BSO, in addition to well-known application as an inhibitor of glutathione synthesis, is an antipyretic agent which reduces both IL-1ß and IL-6 concentration.

"Best practices in risk reducing bilateral salpingo-oophorectomy: the influence of surgical specialty".

BACKGROUND: Risk-reducing bilateral salpingo-oophorectomy (RRBSO) increases survival in patients at high risk of developing ovarian cancer. While many general gynecologists perform this procedure, some argue it should be performed exclusively by specialists. In this retrospective observational study, we identified how often optimal techniques were used and whether surgeons' training impacted implementation. METHODS: We used the ACOG guidelines highlighting various aspects of the procedure to determine which elements were consistent with best practices to maximize surgical prophylaxis. All cases of RRBSO from 2006 to 2010 were identified. We abstracted data from the operative and pathology reports to review the techniques employed. Fisher's exact test and chi-square were utilized to compare differences between groups (InStat, La Jolla, CA). RESULTS: Among 263 RRBSOs, 22 were performed by general gynecologists and 241 by gynecologic oncologists. Gynecologic oncologists were more likely to perform pelvic washings-217/241 vs. 10/22 (p < .0001). They were more likely to include a description of the upper abdomen-220/241 vs. 12/22 (p < .0001). Oncologists were more likely to utilize a retroperitoneal approach to skeletonize the infundibulopelvic ligaments-157/241 vs. 3/22 (p < .0001). When operations were performed by oncologists, the specimens were more often completely sectioned-217/241 vs. 16/22 (p = .003). The use of a retroperitoneal approach among gynecologic oncologists increased over the study period (chi-square for trend, p < .0001). There was no visible trend in performance improvement in any other area when looking at either group. CONCLUSION: Gynecologic oncologists are more likely to adhere to best practice techniques when performing RRBSO, though there was room for improvement for both groups.

HNF1ß drives glutathione (GSH) synthesis underlying intrinsic carboplatin resistance of ovarian clear cell carcinoma (OCCC).

Chemoresistance to platinum-based antineoplastic agents is a consistent feature among ovarian carcinomas; however, whereas high-grade serous carcinoma (OSC) acquires resistance during chemotherapy, ovarian clear cell carcinoma (OCCC) is intrinsically resistant. The main objective of this study was to explore, in vitro and in vivo, if hepatocyte nuclear factor 1ß (HNF1ß) and glutaminolysis contribute for the resistance of OCCC to carboplatin through the intrinsically increased GSH bioavailability. To disclose the role of HNF1ß, experiments were also performed in an OSC cell line, which does not express HNF1ß. Metabolic profiles, GSH quantification, HNF1ß, and γ-glutamylcysteine ligase catalytic subunit (GCLC) and modifier subunit (GCLM) expression, cell cycle, and death were assessed in ES2 cell line (OCCC) and OVCAR3 cell line (OSC); HNF1ß knockdown was performed in ES2 and murine model of subcutaneous and peritoneal OCCC tumors was established to test buthionine sulphoxamine (BSO), as a sensitizer to carboplatin. Glutaminolysis is activated in ES2 and OVCAR3, though ES2 exclusively synthesizes amino acids and GSH. ES2 cells are more resistant to carboplatin than OVCAR3 and the abrogation of GSH production by BSO sensitizes ES2 to carboplatin. HNF1ß regulates the expression of GCLC, but not GCLM, and consequently GSH production in ES2. In vivo, BSO prior to carboplatin reduces dramatically subcutaneous tumor size and GSH levels, as well as peritoneal dissemination. Our study discloses HNF1ß as the mediator of intrinsic OCCC chemoresistance and sheds a light to re-explore a cancer adjuvant therapeutic approach using BSO to overcome the lack of efficient therapy in OCCC.

Current Strategy for the Treatment of Ovarian Germ Cell Tumors: Role of Extensive Surgery.

OPINION STATEMENT: The necessity and extent of comprehensive surgical staging (CSS) and lymphadenectomy in the treatment of malignant ovarian germ cell tumors (MOGCTs) is still controversial. However, it is uniformly agreed that CSS with lymphadenectomy is crucial to follow up patients without adjuvant chemotherapy in stage I MOGCTs. Considering the chemotherapy-sensitive nature of MOGCTs, fertility-sparing cytoreductive surgery (FSCS) seems a reasonable approach in initial treatment for patients with advanced stage. When encountered with bilateral MOGCTs, debulking is surely granted if there is no desire for fertility. Both ovaries completely replaced by neoplastic tissue composed the most challenging situation especially when patients require childbearing potential. In dysgerminoma histology, which usually has good prognosis, residual disease could be left to spare fertility. USO of the largest and more heterogeneous ovarian mass and a biopsy of the contralateral lesion may be considered if the patients are compliant to regular follow-up. NACT followed by interval FSCS may be a reasonable option in patients with extensive disease, when initial debulking is not an option or where the poor general condition or clinical findings suggest an increased risk of surgical morbidity or preclude fertility-sparing surgery. This is currently not the standard of care but deserves future study. In some rare situation, when any remaining ovarian tissue means high risk, BSO may be performed with the uterus preserved for possible assisted reproduction with donor egg. Treatment failure occurs in a small group of MOGCTs after primary treatment. A good number of recurrences can be salvaged with selected salvage surgery, especially when optimal secondary cytoreduction can be achieved. Immature teratoma is a subtype of MOGCTs where secondary cytoreduction may have a strong role to play.

Neuroprotection by GH against excitotoxic-induced cell death in retinal ganglion cells.

Retinal growth hormone (GH) has been shown to promote cell survival in retinal ganglion cells (RGCs) during developmental waves of apoptosis during chicken embryonic development. The possibility that it might also against excitotoxicity-induced cell death was therefore examined in the present study, which utilized quail-derived QNR/D cells as an in vitro RGC model. QNR/D cell death was induced by glutamate in the presence of BSO (buthionine sulfoxamide) (an enhancer of oxidative stress), but this was significantly reduced (P<0.01) in the presence of exogenous recombinant chicken GH (rcGH). Similarly, QNR/D cells that had been prior transfected with a GH plasmid to overexpress secreted and non-secreted GH. This treatment reduced the number of TUNEL-labeled cells and blocked their release of lactate dehydrogenase (LDH). In a further experiment with dissected neuroretinal explants from ED (embryonic day) 10 embryos, rcGH treatment of the explants also reduced (P<0.01) the number of glutamate-BSO-induced apoptotic cells and blocked the explant release of LDH. This neuroprotective action was likely mediated by increased STAT5 phosphorylation and increased bcl-2 production, as induced by exogenous rcGH treatment and the media from GH-overexpressing QNR/D cells. As rcGH treatment and GH-overexpression cells also increased the content of IGF-1 and IGF-1 mRNA this neuroprotective action of GH is likely to be mediated, at least partially, through an IGF-1 mechanism. This possibility is supported by the fact that the siRNA knockdown of GH or IGF-1 significantly reduced QNR/D cell viability, as did the immunoneutralization of IGF-1. GH is therefore neuroprotective against excitotoxicity-induced RGC cell death by anti-apoptotic actions involving IGF-1 stimulation.

Bee Swarm Optimization for Medical Web Information Foraging.

The present work is related to Web intelligence and more precisely to medical information foraging. We present here a novel approach based on agents technology for information foraging. An architecture is proposed, in which we distinguish two important phases. The first one is a learning process for localizing the most relevant pages that might interest the user. This is performed on a fixed instance of the Web. The second takes into account the openness and the dynamicity of the Web. It consists on an incremental learning starting from the result of the first phase and reshaping the outcomes taking into account the changes that undergoes the Web. The whole system offers a tool to help the user undertaking information foraging. We implemented the system using a group of cooperative reactive agents and more precisely a colony of artificial bees. In order to validate our proposal, experiments were conducted on MedlinePlus, a benchmark dedicated for research in the domain of Health. The results are promising either for those related to Web regularities and for the response time, which is very short and hence complies the real time constraint.

Society of Gynecologic Oncology recommendations for the prevention of ovarian cancer.

Mortality from ovarian cancer may be dramatically reduced with the implementation of attainable prevention strategies. The new understanding of the cells of origin and the molecular etiology of ovarian cancer warrants a strong recommendation to the public and health care providers. This document discusses potential prevention strategies, which include 1) oral contraceptive use, 2) tubal sterilization, 3) risk-reducing salpingo-oophorectomy in women at high hereditary risk of breast and ovarian cancer, 4) genetic counseling and testing for women with ovarian cancer and other high-risk families, and 5) salpingectomy after childbearing is complete (at the time of elective pelvic surgeries, at the time of hysterectomy, and as an alternative to tubal ligation). The Society of Gynecologic Oncology has determined that recent scientific breakthroughs warrant a new summary of the progress toward the prevention of ovarian cancer. This review is intended to emphasize the importance of the fallopian tubes as a potential source of high-grade serous cancer in women with and without known genetic mutations in addition to the use of oral contraceptive pills to reduce the risk of ovarian cancer.

Dietary and pharmacological compounds altering intestinal calcium absorption in humans and animals.

The intestine is the only gate for the entry of Ca to the body in humans and mammals. The entrance of Ca occurs via paracellular and intracellular pathways. All steps of the latter pathway are regulated by calcitriol and by other hormones. Dietary and pharmacological compounds also modulate the intestinal Ca absorption process. Among them, dietary Ca and P are known to alter the lipid and protein composition of the brush-border and basolateral membranes and, consequently, Ca transport. Ca intakes are below the requirements recommended by health professionals in most countries, triggering important health problems. Chronic low Ca intake has been related to illness conditions such as osteoporosis, hypertension, renal lithiasis and incidences of human cancer. Carbohydrates, mainly lactose, and prebiotics have been described as positive modulators of intestinal Ca absorption. Apparently, high meat proteins increase intestinal Ca absorption while the effect of dietary lipids remains unclear. Pharmacological compounds such as menadione, dl-butionine-S,R-sulfoximine and ursodeoxycholic acid also modify intestinal Ca absorption as a consequence of altering the redox state of the epithelial cells. The paracellular pathway of intestinal Ca absorption is poorly known and is under present study in some laboratories. Another field that needs to be explored more intensively is the influence of the gene × diet interaction on intestinal Ca absorption. Health professionals should be aware of this knowledge in order to develop nutritional or medical strategies to stimulate the efficiency of intestinal Ca absorption and to prevent diseases.

The role of glutathione detoxification pathway in MCLR-induced hepatotoxicity in SD rats.

In the present study, we investigated the role of glutathione (GSH) and its related enzymes in Sprague Dawley (SD) rats subjected to microcystin-leucine-arginine (MCLR)-induced hepatotoxicity. SD rats were intraperitoneally (i.p.) injected with MCLR after pretreating with or without buthionine-(S,R)-sulfoximine (BSO), an inhibitor of GSH synthesis. The depletion of GSH with BSO enhanced MCLR-induced oxidative stress, resulting in more severe liver damage and higher MCLR accumulation. Similarly, the contents of malondialdehyde (MDA), total GSH (T-GSH), oxidized GSH (GSSG) and GSH were significantly enhanced in BSO pretreated rats following MCLR treatment. The study showed that the transcription of GSH-related enzymes such as glutathione-S-transferase (GST), γ-glutamylcysteine synthetase (γ-GCS), glutathione reductase (GR) varied in different ways (expect for glutathione peroxidase (GPx), whose gene expression was induced in all treated groups) with or without BSO pretreatment before MCLR exposure, suggesting an adaptative response of GSH-related enzymes at transcription level to combat enhancement of oxidative stress induced by MCLR when pretreated with BSO. These data suggested the tissues with low GSH concentration are highly vulnerable to MCLR toxicity and GSH was critical for the detoxification in MCLR-induced hepatotoxicity in vivo.

Oxidized low density lipoprotein enhanced RANKL expression in human osteoblast-like cells. Involvement of ERK, NFkappaB and NFAT.

BACKGROUND: Receptor activator of nuclear factor kappa-light-chain-enhancer of activated B cell ligand/osteoprotegerin ratio is of crucial importance in osteoclast differentiation and thus in bone dysregulation diseases. METHODS: Receptor activator of nuclear factor kappa-light-chain-enhancer of activated B cell ligand and osteoprotegerin were determined under oxidized low density lipoprotein treatment of human osteoblast-like cells. The involvement of oxidative stress, of the extracellular signal regulated kinase and of the transcription factors nuclear factor kappa-light-chain-enhancer of activated B cells and nuclear factor of activated T cells was demonstrated. RESULTS: Cu(2+)-oxidized low density lipoprotein increased cell-associated and extracellular receptor activator of nuclear factor kappa-light-chain-enhancer of activated B cell ligand levels whereas osteoprotegerin levels were not affected. The increase in receptor activator of nuclear factor kappa-light-chain-enhancer of activated B cell ligand was parallel to the generation of reactive oxygen species provoked by Cu(2+)-oxidized low density lipoprotein. The lipid extract of Cu(2+)-oxidized low density lipoprotein, together with other forms of oxidized low density lipoproteins such as smooth muscle cell-oxidized low density lipoprotein and myeloperoxidase-oxidized low density lipoprotein, also induced an increase in reactive oxygen species and cell-associated receptor activator of nuclear factor kappa-light-chain-enhancer of activated B cell ligand. The effect of Cu(2+)-oxidized low density lipoprotein was prevented by the antioxidant vitamin E, and mimicked by the prooxidant compounds hydrogen peroxide and buthionine sulfoximine. Inhibitors of mitogen activated protein kinase/extracellular signal regulated kinase (PD 98059), nuclear factor kappa-light-chain-enhancer of activated B cells (Ro 106-9920) and nuclear factor of activated T cells (Vivit) reduced the effect of Cu(2+)-oxidized low density lipoprotein on receptor activator of nuclear factor kappa-light-chain-enhancer of activated B cell ligand expression. Cu(2+)-oxidized low density lipoprotein signaling was also reduced by vitamin E. GENERAL SIGNIFICANCE: This work describes a new molecular mechanism and elucidates the signaling pathway whereby oxidized low density lipoprotein, by means of its lipid moiety, can modulate the crosstalk between osteoblasts/osteoclasts and bone remodeling, leading to an eventual risk of osteoporosis.

Glutathione and antioxidant enzymes serve complementary roles in protecting activated hepatic stellate cells against hydrogen peroxide-induced cell death.

BACKGROUND: In chronic liver disease, hepatic stellate cells (HSCs) are activated, highly proliferative and produce excessive amounts of extracellular matrix, leading to liver fibrosis. Elevated levels of toxic reactive oxygen species (ROS) produced during chronic liver injury have been implicated in this activation process. Therefore, activated hepatic stellate cells need to harbor highly effective anti-oxidants to protect against the toxic effects of ROS. AIM: To investigate the protective mechanisms of activated HSCs against ROS-induced toxicity. METHODS: Culture-activated rat HSCs were exposed to hydrogen peroxide. Necrosis and apoptosis were determined by Sytox Green or acridine orange staining, respectively. The hydrogen peroxide detoxifying enzymes catalase and glutathione-peroxidase (GPx) were inhibited using 3-amino-1,2,4-triazole and mercaptosuccinic acid, respectively. The anti-oxidant glutathione was depleted by L-buthionine-sulfoximine and repleted with the GSH-analogue GSH-monoethylester (GSH-MEE). RESULTS: Upon activation, HSCs increase their cellular glutathione content and GPx expression, while MnSOD (both at mRNA and protein level) and catalase (at the protein level, but not at the mRNA level) decreased. Hydrogen peroxide did not induce cell death in activated HSCs. Glutathione depletion increased the sensitivity of HSCs to hydrogen peroxide, resulting in 35% and 75% necrotic cells at 0.2 and 1mmol/L hydrogen peroxide, respectively. The sensitizing effect was abolished by GSH-MEE. Inhibition of catalase or GPx significantly increased hydrogen peroxide-induced apoptosis, which was not reversed by GSH-MEE. CONCLUSION: Activated HSCs have increased ROS-detoxifying capacity compared to quiescent HSCs. Glutathione levels increase during HSC activation and protect against ROS-induced necrosis, whereas hydrogen peroxide-detoxifying enzymes protect against apoptotic cell death.

The feasibility and safety of same-day discharge after robotic-assisted hysterectomy alone or with other procedures for benign and malignant indications.

OBJECTIVE: This study aimed to report the feasibility and safety of same-day discharge after robotic-assisted hysterectomy. METHODS: Same-day discharge after robotic-assisted hysterectomy was initiated 07/2010. All cases from then through 12/2012 were captured for quality assessment monitoring. The distance from the hospital to patients' homes was determined using http://maps.google.com. Procedures were categorized as simple (TLH+/-BSO) or complex (TLH+/-BSO with sentinel node mapping, pelvic and/or aortic nodal dissection, appendectomy, or omentectomy). Urgent care center (UCC) visits and readmissions within 30days of surgery were captured, and time to the visit was determined from the initial surgical date. RESULTS: Same-day discharge was planned in 200 cases. Median age was 52years (range, 30-78), BMI was 26.8kg/m(2) (range, 17.4-56.8), and ASA was class 2 (range, 1-3). Median distance traveled was 31.5miles (range, 0.2-149). Procedures were simple in 109 (55%) and complex in 91 (45%) cases. The indication for surgery was: endometrial cancer (n=82; 41%), ovarian cancer (n=5; 2.5%), cervical cancer (n=8; 4%), and non-gynecologic cancer/benign (n=105; 53%). One hundred fifty-seven (78%) had successful same-day discharge. Median time for discharge for these cases was 4.8h (range, 2.4-10.3). Operative time, case ending before 6pm, and use of intraoperative ketorolac were associated with successful same-day discharge. UCC visits occurred in 8/157 (5.1%) same-day discharge cases compared to 5/43 (11.6%) requiring admission (P=.08). Readmission was necessary in 4/157 (2.5%) same-day discharge cases compared to 3/43 (7.0%) requiring admission (P=.02). CONCLUSIONS: Same-day discharge after robotic-assisted hysterectomy for benign and malignant conditions is feasible and safe.