Gastrodin alleviates Tourette syndrome via Nrf‐2/HO‐1/HMGB1/NF‐кB pathway

The aim is to study the effects of gastrodin (GA) on striatal inflammation and oxidative stress in rats with Tourette syndrome (TS). The rat model of TS was induced by 3,3′‐iminodipropionitrile. Behavioral tests were carried out by stereotype experiment. The concentrations of amino acid transmitters glutamic acid (Glu) and γ‐aminobutyric acid (GABA) in striatum were determined by high‐performance liquid chromatography. Superoxide dismutase (SOD) and malondialdehyde (MDA) in serum and striatum were detected by commercial kits. Cytokines in serum and striatum were detected by enzyme‐linked immunosorbent assay kits. Western blot analysis was used to detect striatum nuclear erythroid factor 2‐related factor 2 (Nrf‐2)/heme oxygenase‐1 (HO‐1)/high mobility group box 1 protein (HMGB1)/nuclear factor‐кB (NF‐кB) pathway‐related proteins. The expressions of Nrf‐2 and P‐NF‐кBp65 in striatum were detected by immunohistochemistry. Compared with the control group, the stereotype scores of rats in the model group significantly increased, and the contents of Glu and GABA in striatum obviously increased. GA significantly reduced the stereotype scores and decreased the contents of Glu and GABA. The levels of SOD in serum and striatum were decreased and the content of MDA in serum and striatum were increased compared with the control group, while GA significantly restored the changes. GA significantly adjusted Nrf‐2/HO‐1/HMGB1/NF‐кB pathway‐related proteins changes consistent with immunohistochemical changes. GA may protect striatum of rats with TS by regulating Nrf‐2/HO‐1/HMGB1/NF‐кB pathway protein changes in striatum.     

6‐Methyl 3‐chromonyl 2,4‐thiazolidinedione/2,4‐imidazolidinedione/2‐thioxo‐imidazolidine‐4‐one compounds: novel scavengers of reactive oxygen species

The benefits of antioxidants on human health are usually ascribed to their potential ability to remove reactive oxygen species providing protection against oxidative stress. In this paper the free radicals scavenging activities of nine 6‐methyl 3‐chromonyl derivatives (CMs) were evaluated for the first time by the chemiluminescence, electron paramagnetic resonance, spin trapping and 2,2‐diphenyl‐1‐picrylhydrazyl (DPPH^?) methods. The total antioxidant capacity was also measured using a ferric‐ferrozine reagent. Compounds having a hydrogen atom at the N3‐position of the β‐ring were effective in quenching CL resulted from the KO₂/18‐crown‐6‐ether system (a source of superoxide anion radical, ) in a dose‐dependent manner over the range of 0.05–1 mmol/L [IC₅₀ ranged from 0.353 (0.04) to 0.668 (0.05) mmol/L]. The examined compounds exhibited a significant scavenging effect towards hydroxyl radicals (HO^? HO^?), produced by the Fenton reaction, and this ranged from 24.0% to 61.0%, at the concentration of 2.5 mmol/L. Furthermore, the compounds examined were also found to inhibit DPPH^? and this ranged from 51.9% to 97.4% at the same concentration. In addition, the use of the total antioxidant capacity assay confirmed that CM compounds are able to act as reductants. According to the present study, CM compounds showed effective in vitro free radical scavenging activity and may be considered as potential therapeutics to control diseases of oxidative stress‐related etiology. Copyright © 2013 John Wiley & Sons, Ltd.     

PTRN‐1/CAMSAP promotes CYK‐1/formin‐dependent actin polymerization during endocytic recycling

Cargo sorting and membrane carrier initiation in recycling endosomes require appropriately coordinated actin dynamics. However, the mechanism underlying the regulation of actin organization during recycling transport remains elusive. Here we report that the loss of PTRN‐1/CAMSAP stalled actin exchange and diminished the cytosolic actin structures. Furthermore, we found that PTRN‐1 is required for the recycling of clathrin‐independent cargo hTAC‐GFP. The N‐terminal calponin homology (CH) domain and central coiled‐coils (CC) region of PTRN‐1 can synergistically sustain the flow of hTAC‐GFP. We identified CYK‐1/formin as a binding partner of PTRN‐1. The N‐terminal GTPase‐binding domain (GBD) of CYK‐1 serves as the binding interface for the PTRN‐1 CH domain. The presence of the PTRN‐1 CH domain promoted CYK‐1‐mediated actin polymerization, which suggests that the PTRN‐1‐CH:CYK‐1‐GBD interaction efficiently relieves autoinhibitory interactions within CYK‐1. As expected, the overexpression of the CYK‐1 formin homology domain 2 (FH2) substantially restored actin structures and partially suppressed the hTAC‐GFP overaccumulation phenotype in ptrn‐1 mutants. We conclude that the PTRN‐1 CH domain is required to stimulate CYK‐1 to facilitate actin dynamics during endocytic recycling.     

12‐O‐tetradecanoylphorbol‐13‐acetate‐induced invasion/migration of glioblastoma cells through activating PKCα/ERK/NF‐κB‐dependent MMP‐9 expression

An increase in MMP‐9 gene expression and enzyme activity with stimulating the migration of GBM8401 glioma cells via wound healing assay by 12‐O‐tetradecanoylphorbol‐13‐acetate (TPA) was detected in glioblastoma cells GBM8401. TPA‐induced translocation of protein kinase C (PKC)α from the cytosol to membranes, and migration of GBM8401 elicited by TPA was suppressed by adding the PKCα inhibitors, GF109203X and H7. Activation of extracellular signal‐regulated kinase (ERK) and c‐Jun‐N‐terminal kinase (JNK) by TPA was identified, and TPA‐induced migration and MMP‐9 activity was significantly blocked by ERK inhibitor PD98059 and U0126, but not JNK inhibitor SP600125. Activation of NF‐κB protein p65 nuclear translocation and IκBα protein phosphorylation with increased NF‐κB‐directed luciferase activity by TPA were observed, and these were blocked by the PD98059 and IkB inhibitor BAY117082 accompanied by reducing migration and MMP‐9 activity induced by TPA in GBM8401 cells. Transfection of GBM8401 cells with PKCα siRNA specifically reduced PKCα protein expression with blocking TPA‐induced MMP‐9 activation and migration. Additionally, suppression of TPA‐induced PKCα/ERK/NK‐κB activation, migration, and MMP‐9 activation by flavonoids including kaempferol (Kae; 3,5,7,4′‐tetrahydroxyflavone), luteolin (Lut; 5,7,3′4′‐tetrahydroxyflavone), and wogonin (Wog; 5,7‐dihydroxy‐8‐methoxyflavone) was demonstrated, and structure–activity relationship (SAR) studies showed that hydroxyl (OH) groups at C4′ and C8 are critical for flavonoids' action against MMP‐9 enzyme activation and migration/invasion of glioblastoma cells elicited by TPA. Application of flavonoids to prevent the migration/invasion of glioblastoma cells through blocking PKCα/ERK/NF‐κB activation is first demonstrated herein. J. Cell. Physiol. 225: 472–481, 2010. © 2010 Wiley‐Liss, Inc.     

LncRNA HOTAIR/miR‐613/c‐met axis modulated epithelial‐mesenchymal transition of retinoblastoma cells

Since lncRNAs could modulate neoplastic development by modulating downstream miRNAs and genes, this study was carried out to figure out the synthetic contribution of HOTAIR, miR‐613 and c‐met to viability, apoptosis and proliferation of retinoblastoma cells. Totally 276 retinoblastoma tissues and tumour‐adjacent tissues were collected, and human retinoblastoma cell lines (ie, Y79, HXO‐Rb44, SO‐Rb50 and WERI‐RB1) were also gathered. Moreover, transfections of pcDNA3.1‐HOTAIR, si‐HOTAIR, miR‐613 mimic, miR‐613 inhibitor, pcDNA3.1/c‐met were performed to evaluate the influence of HOTAIR, miR‐613 and c‐met on viability, apoptosis and epithelial‐mesenchymal transition (EMT) of retinoblastoma cells. Dual‐luciferase reporter gene assay was also arranged to confirm the targeted relationship between HOTAIR and miR‐613, as well as between miR‐613 and c‐met. Consequently, up‐regulated HOTAIR and down‐regulated miR‐613 expressions displayed associations with poor survival status of retinoblastoma patients (P < 0.05). Besides, inhibited HOTAIR and promoted miR‐613 elevated E‐cadherin expression, yet decreased Snail and Vimentin expressions (P < 0.05). Simultaneously, cell proliferation and cell viability were also less‐motivated (P < 0.05). Nonetheless, c‐met prohibited the functioning of miR‐613, resulting in promoted cell proliferation and viability, along with inhibited cell apoptosis (P < 0.05). Finally, HOTAIR was verified to directly target miR‐613, and c‐met was the direct target gene of miR‐613 (P < 0.05). In conclusion, the role of lncRNA HOTAIR/miR‐613/c‐met signalling axis in modulating retinoblastoma cells’ viability, apoptosis and expressions of EMT‐specific proteins might provide evidences for developing appropriate diagnostic and treatment strategies for retinoblastoma.     

Neuroprotective effects of 1‐O‐hexyl‐2,3,5‐trimethylhydroquinone on ischaemia/reperfusion‐induced neuronal injury by activating the Nrf2/HO‐1 pathway

1‐O‐Hexyl‐2,3,5‐trimethylhydroquinone (HTHQ), a lipophilic phenolic agent, has an antioxidant activity and reactive oxygen species (ROS) scavenging property. However, the role of HTHQ on cerebral ischaemic/reperfusion (I/R) injury and the underlying mechanisms remain poorly understood. In the present study, we demonstrated that HTHQ treatment ameliorated cerebral I/R injury in vivo, as demonstrated by the decreased infarct volume ration, neurological deficits, oxidative stress and neuronal apoptosis. HTHQ treatment increased the levels of nuclear factor erythroid 2–related factor 2 (Nrf2) and its downstream antioxidant protein, haeme oxygenase‐1 (HO‐1). In addition, HTHQ treatment decreases oxidative stress and neuronal apoptosis of PC12 cells following hypoxia and reperfusion (H/R) in vitro. Moreover, we provided evidence that PC12 cells were more vulnerable to H/R‐induced oxidative stress after si‐Nrf2 transfection, and the HTHQ‐mediated protection was lost in PC12 cells transfected with siNrf2. In conclusion, these results suggested that HTHQ possesses neuroprotective effects against oxidative stress and apoptosis after cerebral I/R injury via activation of the Nrf2/HO‐1 pathway.     

Cell‐cycle‐dependent PC‐PLC regulation by APC/CCdc20‐mediated ubiquitin‐proteasome pathway

Phosphatidylcholine‐specific phospholipase C (PC‐PLC) is involved in the cell signal transduction, cell proliferation, and apoptosis. The mechanism of its action, however, has not been fully understood, particularly, the role of PC‐PLC in the cell cycle. In the present study, we found that cell division cycle 20 homolog (Cdc20) and PC‐PLC were co‐immunoprecipitated reciprocally by either antibody in rat hepatoma cells CBRH‐7919 as well as in rat liver tissue. Using confocal microscopy, we found that PC‐PLC and Cdc20 were co‐localized in the perinuclear endoplasmic reticulum region (the “juxtanuclear quality control” compartment, JUNQ). The expression level and activities of PC‐PLC changed in a cell‐cycle‐dependent manner and were inversely correlated with the expression of Cdc20. Intriguingly, Cdc20 overexpression altered the subcellular localization and distribution of PC‐PLC, and caused PC‐PLC degradation by the ubiquitin proteasome pathway (UPP). Taken together, our data indicate that PC‐PLC regulation in cell cycles is controlled by APC/C^Cdc20‐mediated UPP. J. Cell. Biochem. 107: 686–696, 2009. © 2009 Wiley‐Liss, Inc.     

ACE2‐EPC‐EXs protect ageing ECs against hypoxia/reoxygenation‐induced injury through the miR‐18a/Nox2/ROS pathway

Oxidative stress is one of the mechanisms of ageing‐associated vascular dysfunction. Angiotensin‐converting enzyme 2 (ACE2) and microRNA (miR)‐18a have shown to be down‐regulated in ageing cells. Our previous study has shown that ACE2‐primed endothelial progenitor cells (ACE2‐EPCs) have protective effects on endothelial cells (ECs), which might be due to their released exosomes (EXs). Here, we aimed to investigate whether ACE2‐EPC‐EXs could attenuate hypoxia/reoxygenation (H/R)‐induced injury in ageing ECs through their carried miR‐18a. Young and angiotensin II‐induced ageing ECs were subjected to H/R and co‐cultured with vehicle (medium), EPC‐EXs, ACE2‐EPCs‐EXs, ACE2‐EPCs‐EXs + DX600 or ACE2‐EPCs‐EXs with miR‐18a deficiency (ACE2‐EPCs‐EXs^{anti‐miR‐18a}). Results showed (1) ageing ECs displayed increased senescence, apoptosis and ROS production, but decreased ACE2 and miR‐18a expressions and tube formation ability; (2) under H/R condition, ageing ECs showed higher rate of apoptosis, ROS overproduction and nitric oxide reduction, up‐regulation of Nox2, down‐regulation of ACE2, miR‐18a and eNOS, and compromised tube formation ability; (3) compared with EPC‐EXs, ACE2‐EPC‐EXs had better efficiencies on protecting ECs from H/R‐induced changes; (4) The protective effects were less seen in ACE2‐EPCs‐EXs + DX600 and ACE2‐EPCs‐EXs^{anti‐miR‐18a} groups. These data suggest that ACE‐EPCs‐EXs have better protective effects on H/R injury in ageing ECs which could be through their carried miR‐18a and subsequently down‐regulating the Nox2/ROS pathway.     

Disabled‐1 is down‐regulated in clinical breast cancer and regulates cell apoptosis through NF‐κB/Bcl‐2/caspase‐9

Disabled‐1 (Dab1) is best known as an adaptor protein regulating neuron migration and lamination during development. However, the exact function of Dab1 in breast cancer is unknown. In this study, we examined the expression of Dab1 in 38 breast cancer paraffin sections, as well as 60 paired frozen breast cancer and their adjacent tissues. Our results showed that Dab1 was reduced in breast cancer, and its compromised expression correlated with triple negative breast cancer phenotype, poor differentiation, as well as lymph node metastasis. Functional analysis in breast cancer cell lines demonstrated that Dab1 promoted cell apoptosis, which, at least partially, depended on its regulation of NF‐κB/Bcl‐2/caspase‐9 pathway. Our study strongly suggests that Dab1 may be a potential tumour suppressor gene in breast cancer.     

P‐1DIRECT‐TO‐VIAL USE OF THE LIQUI‐PREP™ CYTOLOGY SYSTEM

Introduction: The authors initiated the use of Liqui‐PREP? (LGM International Inc., Fort Lauderdale, FL, USA) in August, 2005. Cytotechnologists received extensive (one month) training by cytopathologists experienced in Liquid‐based cytology. The Liqui‐PREP? direct‐to‐vial procedure (LP) was compared to the conventional Pap smears in a routine screening population. Methods: Data derived from 26 178 LP cervical‐vaginal (CV) specimens were compared to data derived from 218 548 conventional Pap smears (CS). Both data sets reflect patient samples collected concurrently (August–December, 2005) by 117 participating outpatient medical practices from a well‐defined geographic area. There were no significant personnel changes during the study period. The diagnostic results, classified according to Bethesda criteria were calculated. Results:

Utilization of UPLC/Q‐TOF‐MS‐Based Metabolomics and AFLP‐Based Marker‐Assisted Selection to Facilitate/Assist Conventional Breeding of Polygala tenuifolia

As one of the most important traditional Chinese medicine, the quality of Polygala tenuifolia is difficult to control and a new method must be established to facilitate/assist the breeding of P. tenuifolia. In this study, UPLC/Q‐TOF‐MS‐based metabolomics analysis was performed to determine the chemical composition and screen metabolite biomarkers according to agronomic traits. A total of 29 compounds and 18 metabolite biomarkers were found. AFLP‐based marker‐assisted selection (MAS) was used to identify molecular marker bands and screen characteristic bands associated with specific agronomic traits. 184 bands and 76 characteristic AFLP bands were found. The correlation network between compounds and characteristic AFLP bands was built, so we may directly breed certain P. tenuifolia herbs with special agronomic traits (or characteristic AFLP bands), which exhibit specific pharmacological functions depending on the content of the active compounds. The proposed method of metabolomics coupled with MAS could facilitate/assist the breeding of P. tenuifolia.     

Alisol A attenuates high‐fat‐diet‐induced obesity and metabolic disorders via the AMPK/ACC/SREBP‐1c pathway

Obesity and its associated metabolic disorders such as diabetes, hepatic steatosis and chronic heart diseases are affecting billions of individuals. However there is no satisfactory drug to treat such diseases. In this study, we found that alisol A, a major active triterpene isolated from the Chinese traditional medicine Rhizoma Alismatis, could significantly attenuate high‐fat‐diet‐induced obesity. Our biochemical detection demonstrated that alisol A remarkably decreased lipid levels, alleviated glucose metabolism disorders and insulin resistance in high‐fat‐diet‐induced obese mice. We also found that alisol A reduced hepatic steatosis and improved liver function in the obese mice model.In addition, protein expression investigation revealed that alisol A had an active effect on AMPK/ACC/SREBP‐1c pathway. As suggested by the molecular docking study, such bioactivity of alisol A may result from its selective binding to the catalytic region of AMPK.Therefore, we believe that Alisol A could serve as a promising agent for treatment of obesity and its related metabolic diseases.     

Testican‐3: a brain‐specific proteoglycan member of the BM‐40/SPARC/osteonectin family

The testicans are a three‐member family of secreted proteoglycans structurally related to the BM‐40/secreted protein acidic and rich in cystein (SPARC) osteonectin family of extracellular calcium‐binding proteins. In vitro studies have indicated that testicans are involved in the regulation of extracellular protease cascades and in neuronal function. Here, we describe the biochemical characterization and tissue distribution of mouse testican‐3 as well as the inactivation of the corresponding gene. The expression of testican‐3 in adult mice is restricted to the brain, where it is located diffusely within the extracellular matrix, as well as associated with cells. Brain‐derived testican‐3 is a heparan sulphate proteoglycan. In cell culture, the core protein is detected in the supernatant and the extracellular matrix, whereas the proteoglycan form is restricted to the supernatant. This indicates possible interactions of the testican‐3 core protein with components of the extracellular matrix which are blocked by addition of the glycosaminoglycan chains. Mice deficient in testican‐3 are viable and fertile and do not show an obvious phenotype. This points to a functional redundancy among the different members of the testican family or between testican‐3 and other brain heparan sulphate proteoglycans.     

Multi‐Length‐Scale Morphologies in PCPDTBT/PCBM Bulk‐Heterojunction Solar Cells

Additives are known to improve the performance of organic photovoltaic devices based on mixtures of a low bandgap polymer, poly[2,6‐(4,4‐bis(2‐ethylhexyl)‐4H‐cyclopenta[2,1‐b;3,4‐b′]‐dithiophene)‐alt‐4,7‐(2,1,3‐benzothiadiazole)] (PCPDTBT) and [6,6]‐phenyl C61‐butyric acid methyl ester (PCBM). The evolution of the morphology during the evaporation of the mixed solvent, which comprises additive and chlorobenzene (CB), is investigated by in‐situ grazing incidence X‐ray scattering, providing insight into the key role the additive plays in developing a multi‐length‐scale morphology. Provided the additive has a higher vapor pressure and a selective solubility for PCBM, as the host solvent (CB) evaporates, the mixture of the primary solvent and additive becomes less favorable for the PCPDTBT, while completely solubilizing the PCBM. During this process, the PCPDTBT first crystallizes into fibrils and then the PCBM, along with the remaining PCPDTBT, is deposited, forming a phase‐separated morphology comprising domains of pure, crystalline PCPDTBT fibrils and another domain that is a PCBM‐rich mixture with amorphous PCPDTBT. X‐ray/neutron scattering and diffraction methods, in combination with UV–vis absorption spectroscopy and transmission electron microscopy, are used to determine the crystallinity and phase separation of the resultant PCPDTBT/PCBM thin films processed with or without additives. Additional thermal annealing is carried out and found to change the packing of the PCPDTBT. The two factors, degree of crystallinity and degree of phase separation, control the multi‐length‐scale morphology of the thin films and significantly influence device performance.     

A comparison of MS/MS‐based,stable‐isotope‐labeled,quantitation performance on ESI‐quadrupole TOF and MALDI‐TOF/TOF mass spectrometers

The peptide‐based quantitation accuracy and precision of LC‐ESI (QSTAR Elite) and LC‐MALDI (4800 MALDI TOF/TOF) were compared by analyzing identical Escherichia coli tryptic digests containing iTRAQ‐labeled peptides of defined abundances (1:1, 2.5:1, 5:1, and 10:1). Only 51.4% of QSTAR spectra were used for quantitation by ProteinPilot Software versus 66.7% of LC‐MALDI spectra. The average protein sequence coverages for LC‐ESI and LC‐MALDI were 24.0 and 18.2% (14.9 and 8.4 peptides per protein), respectively. The iTRAQ‐based expression ratios determined by ProteinPilot from the 57 467 ESI‐MS/MS and 26 085 MALDI‐MS/MS spectra were analyzed for measurement accuracy and reproducibility. When the relative abundances of peptides within a sample were increased from 1:1 to 10:1, the mean ratios calculated on both instruments differed by only 0.7–6.7% between platforms. In the 10:1 experiment, up to 64.7% of iTRAQ ratios from LC‐ESI MS/MS spectra failed S/N thresholds and were excluded from quantitation, while only 0.1% of the equivalent LC‐MALDI iTRAQ ratios were rejected. Re‐analysis of an archived LC‐MALDI sample set stored for 5 months generated 3715 MS/MS spectra for quantitation, compared with 3845 acquired originally, and the average ratios differed by only 3.1%. Overall, MS/MS‐based peptide quantitation performance of offline LC‐MALDI was comparable with on‐line LC‐ESI, which required threefold less time. However, offline LC‐MALDI allows the re‐analysis of archived HPLC‐separated samples.     

Acetyl‐11‐keto‐β‐boswellic acid ameliorates renal interstitial fibrosis via Klotho/TGF‐β/Smad signalling pathway

Acetyl‐11‐keto‐β‐boswellic acid (AKBA), an active triterpenoid compound from the extract of Boswellia serrate, has been reported previously in our group to alleviate fibrosis in vascular remodelling. This study aimed to elucidate the in vivo and in vitro efficacy and mechanism of AKBA in renal interstitial fibrosis. The experimental renal fibrosis was produced in C57BL/6 mice via unilateral ureteral obstruction (UUO). Hypoxia‐induced HK‐2 cells were used to imitate the pathological process of renal fibrosis in vitro. Results showed that the treatment of AKBA significantly alleviated UUO‐induced impairment of renal function and improved the renal fibrosis by decreasing the expression of TGF‐β1, α‐SMA, collagen I and collagen IV in UUO kidneys. In hypoxia‐induced HK‐2 cells, AKBA displayed remarkable cell protective effects and anti‐fibrotic properties by increasing the cell viability, decreasing the lactate dehydrogenase (LDH) release and inhibiting fibrotic factor expression. Moreover, in obstructed kidneys and HK‐2 cells, AKBA markedly down‐regulated the expression of TGFβ‐RI, TGFβ‐RII, phosphorylated‐Smad2/3 (p‐Smad2/3) and Smad4 in a dose‐dependent fashion while up‐regulated the expression of Klotho and Smad7 in the same manner. In addition, the effects of AKBA on the Klotho/TGF‐β/Smad signalling were reversed by transfecting with siRNA‐Klotho in HK‐2 cells. In conclusion, our findings provide evidence that AKBA can effectively protect kidney against interstitial fibrosis, and this renoprotective effect involves the Klotho/TGF‐β/Smad signalling pathway. Therefore, AKBA could be considered as a promising candidate drug for renal interstitial fibrosis.