Characterization of β-lactamase activity using isothermal titration calorimetry

BackgroundHydrolysis of β-lactam antibiotic by β-lactamase is the most common mechanism of β-lactam resistance in clinical isolates. Timely detection and characterization of β-lactamases are therefore of utmost biomedical importance. Conventional spectrophotometric method is time-consuming and cannot provide thermodynamic information on β-lactamases.MethodsA new assay was developed for the study of β-lactamase activity in protein solutions (Metallo-β-lactamase L1) and in clinical bacterial cells, based on heat-flow changes derived from enzymatic hydrolysis of β-lactams using isothermal titration calorimetry.Results(1) The thermokinetic parameters of three antibiotics (penicillin G, cefazolin and imipenem) and the inhibition constant of an azolylthioacetamide inhibitor were determined using the calorimetric assay. The results from the calorimetric assays were consistent with the data from the spectrophotometric assay. (2) The values of heat change in the calorimetric assay using two clinical Escherichia coli strains correlated well with their antibiotic susceptibility results from the broth dilution experiment. The subtypes of β-lactamase were also determined in the calorimetric assay.ConclusionsThe ITC assay is a reliable and fast method to study β-lactamase enzyme kinetics and inhibition. It can also provide thermodynamic information on antibiotic hydrolysis, which has been taken advantage of in this work to study β-lactamase activity in two clinical Escherichia coli isolates.General significanceAs the first calorimetric study of β-lactamase activity, it may provide a new assay to assist biomedical validation of new β-lactamase inhibitors, and also has potential applications on rapid antibiotic susceptibility testing and screening β-lactamase producing bacteria.     

Discovery and biochemical characterization of a mannose phosphorylase catalyzing the synthesis of novel β-1,3-mannosides

BackgroundMannoside phosphorylases are frequently found in bacteria and play an important role in carbohydrate processing. These enzymes catalyze the reversible conversion of β-1,2- or β-1,4-mannosides to mannose and mannose-1-phosphate in the presence of inorganic phosphate.MethodsThe biochemical parameters of this recombinantly expressed novel mannose phosphorylase were obtained. Furthermore purified reaction products were subjected to ESI- and MALDI-TOF mass spectrometry and detailed NMR analysis to verify this novel type of β-1,3-mannose linkage.ResultsWe describe the first example of a phosphorylase specifically targeting β-1,3-mannoside linkages. In addition to mannose, this phosphorylase originating from the bacterium Zobellia galactanivorans could add β-1,3-linked mannose to various other monosaccharides and anomerically modified 5-bromo-4-chloro-3-indolyl-glycosides (X-sugars).ConclusionsAn unique bacterial phosphorylase specifically targeting β-1,3-mannoside linkages was discovered.General significanceFunctional extension of glycoside hydrolase family 130.     

Pharmacological evaluation of ocular β-adrenoceptors in rabbit by tissue segment binding method

AimsThis study evaluates ocular (iris, ciliary body and ciliary process) and nonocular (atria and lung) β-adrenoceptors in rabbit to characterize the plasma membrane β-adrenoceptors and binding affinities of β-adrenoceptor antagonists.Main methodsThe tissue segment binding method with a hydrophilic radioligand (?)-4-[3-t-butylamino-2-hydroxypropoxy]-[5,7-³H]benzimidazol-2-one ([³H]-CGP12177) was employed.Key findingsSpecific and saturable binding of [³H]-CGP12177 to intact tissue segments was detected by using (±)-propranolol to define nonspecific binding, showing a single population of plasma membrane binding sites with high affinity. Competition experiments with selective β₁- and β₂-adrenoceptor antagonists revealed a single population of β₂-adrenoceptors in ocular tissues and of β₁-adrenoceptors in atria, but mixed populations of β₁- and β₂-adrenoceptors in 70% and 30%, respectively, in lung. A competition curve for timolol was biphasic in lung and its binding affinity for β₂-adrenoceptors was approximately 158-fold higher than for β₁-adrenoceptors, indicating the β₂-selectivity of timolol. In contrast, competition curves for stereoisomers of befunolol, carteolol, and propranolol were monophasic in all tissues. The (?)-enantiomers of these antagonists were more potent than corresponding (+)-enantiomers in displacing from [³H]-CGP12177 binding, and the isomeric potency ratios of befunolol and carteolol were less than those of propranolol.SignificanceThis study with tissue segment binding method suggests that the binding affinity of (?)-enantiomers of β-adrenoceptor antagonists for plasma membrane β-adrenoceptors (β₁-adrenoceptors of atria, β₂-adrenoceptors of ocular tissues, and mixed β₁-/β₂-adrenoceptors of lung) is higher than that of corresponding (+)-enantiomers and their stereoselectivity is different between β-adrenoceptor antagonists.     

β-Caryophyllene ameliorates the Mycoplasmal pneumonia through the inhibition of NF-κB signal transduction in mice

BackgroundPneumonia is a frequent infectious disease that mainly affects the children and the global death rate is nearly 19% among children at the below 5 age. β-caryophyllene is an active compound, mainly occurs in the spices and it possesses immense biological activities.ObjectiveThis investigation deliberated to scrutinize the beneficial actions of β-caryophyllene against the M. pneumoniae induced pneumonia.MethodsThe pneumonia was stimulated to the BALB/c mice by infecting them with 100 µl of M. pneumonia for 2 days via nasal drops with the concomitant treatment with 20 mg/kg of β-caryophyllene. The total cells in the BALF of test mice were counted by using the Neuber chamber. The total protein and the pro-inflammatory cytokines status were examined by using the commercial ELISA kits. The PCR technique was used to measure the M. pneumoniae bacterial load. The NF-?B expression was investigated using western blotting. The lung tissues were analyzed microscopically.ResultsThe β-caryophyllene notably diminished the total protein status, total cell count, and bacterial load in the pneumonia provoked mice. The marked reduction in the status of pro-inflammatory regulators was seen in the β-caryophyllene supplemented pneumonia mice. β-caryophyllene also down-regulated the expression of NF-?B thereby reduced the lung inflammation and tissue damages as seen in the result of histological analysis.ConclusionThese findings were confirmed the therapeutic potential of β-caryophyllene against the M. pneumoniae-activated pneumonia in animals.     

Studies on the inhibition of AmpC and other β-lactamases by cyclic boronates

BackgroundThe β-lactam antibiotics represent the most successful drug class for treatment of bacterial infections. Resistance to them, importantly via production of β-lactamases, which collectively are able to hydrolyse all classes of β-lactams, threatens their continued widespread use. Bicyclic boronates show potential as broad spectrum inhibitors of the mechanistically distinct serine- (SBL) and metallo- (MBL) β-lactamase families.MethodsUsing biophysical methods, including crystallographic analysis, we have investigated the binding mode of bicyclic boronates to clinically important β-lactamases. Induction experiments and agar-based MIC screening against MDR-Enterobacteriaceae (n = 132) were used to evaluate induction properties and the in vitro efficacy of a bicyclic boronate in combination with meropenem.ResultsCrystallographic analysis of a bicyclic boronate in complex with AmpC from Pseudomonas aeruginosa reveals it binds to form a tetrahedral boronate species. Microbiological studies on the clinical coverage (in combination with meropenem) and induction of β-lactamases by bicyclic boronates further support the promise of such compounds as broad spectrum β-lactamase inhibitors.ConclusionsTogether with reported studies on the structural basis of their inhibition of class A, B and D β-lactamases, biophysical studies, including crystallographic analysis, support the proposal that bicyclic boronates mimic tetrahedral intermediates common to SBL and MBL catalysis.General significanceBicyclic boronates are a new generation of broad spectrum inhibitors of both SBLs and MBLs.     

β-Glucan extracts inhibit the in vitro intestinal uptake of long-chain fatty acids and cholesterol and down-regulate genes involved in lipogenesis and lipid transport in rats

BackgroundDietary fiber reduces the intestinal absorption of nutrients and the blood concentrations of cholesterol and triglycerides.AimWe wished to test the hypothesis that high-viscosity (HV) and low-viscosity preparations of barley and oat β-glucan modify the expression of selected genes of lipid-binding proteins in the intestinal mucosa and reduce the intestinal in vitro uptake of lipids.MethodsFive different β-glucan extracts were separately added to test solutions at concentrations of 0.1–0.5% (wt/wt), and the in vitro intestinal uptake of lipids into the intestine of rats was assessed. An intestinal cell line was used to determine the effect of β-glucan extracts on the expression of intestinal genes involved in lipid metabolism and fatty acid transport.ResultsAll extracts reduced the uptake of 18:2 when the effective resistance of the unstirred water layer was high. When the unstirred layer resistance was low, the HV oat β-glucan extract reduced jejunal 18:2 uptake, while most extracts reduced ileal 18:2 uptake. Ileal 18:0 uptake was reduced by the HV barley extract, while both jejunal and ileal cholesterol uptakes were reduced by the medium-purity HV barley extract. The inhibitory effect of HV barley β-glucan on 18:0 and 18:2 uptake was more pronounced at higher fatty acid concentrations. The expression of genes involved in fatty acid synthesis and cholesterol metabolism was down-regulated with the HV β-glucan extracts. β-Glucan extracts also reduced intestinal fatty-acid-binding protein and fatty acid transport protein 4 mRNA.ConclusionsThe reduced intestinal fatty acid uptake observed with β-glucan is associated with inhibition of genes regulating intestinal uptake and synthesis of lipids. The inhibitory effect of β-glucan on intestinal lipid uptake raises the possibility of their selective use to reduce their intestinal absorption.     

Synthesis of blockwise alkylated (1→4) linked trisaccharides as surfactants: influence of configuration of anomeric position on their surface activities

New carbohydrate-based surfactants consisting of hydrophilic cellobiosyl and hydrophobic glucosyl residues, methyl β-d-glucopyranosyl-(1→4)-α-d-glucopyranosyl-(1→4)-2,3,6-tri-O-methyl-α-d-glucopyranoside 1 (GβGαMα, G: glucopyranosyl residue, α and β: α-(1→4)- and β-(1→4) glycosidic bonds, M: methyl group), 2 (G_βG_βM_α), 3 (G_βG_αM_β), 4 (G_βG_βM_β), 5 (G_βG_αE_α, E: ethyl group), 6 (G_βG_βE_α), 7 (G_βG_αE_β), 8 (G_βG_βE_β) and eight α-and β-glycoside mixtures (a mixture of 1 and 2: 1/2 = 62/38 (9), 32/68 (10); a mixture of 3 and 4: 3/4 = 69/31 (11), 32/68 (12); a mixture of 5 and 6: 5/6 = 62/38 (13), 33/67 (14); a mixture of 7 and 8: 7/8 = 59/41 (15), 29/71 (16)) were synthesized via combined methods consisting of acid-catalyzed alcoholysis of cellulose ethers and glycosylation of phenyl thio-cellobioside derivatives. Their surface activities in aqueous solution depended on their chemical structures: α- or β-(1→4) linkage between hydrophilic cellobiosyl and hydrophobic glucosyl blocks, methyl or ethyl groups of hydrophobic glucosyl block, and α- or β-linked ether group at the C-1 of hydrophobic glucosyl block. The mixing effect of α- and β-glycosides on surface activities was also investigated. As a result, ethyl β-d-glucopyranosyl-(1→4)-α-d-glucopyranosyl-(1→4)-2,3,6-tri-O-ethyl-β-d-glucopyranoside 7 (G_βG_αE_β) had the highest surface activity, and its critical micellar concentration (CMC) and γ_CMC (surface tension at CMC) values of compound 7 were 0.5 mM (ca. 0.03 wt %) and 34.5 mN/m, respectively. The surface tensions of α- and β-glycoside mixtures except for compounds 9 and 10 were almost equal to those of pure compounds. The syntheses of the mixtures of α- and β-glycosides without purification process are easier than those of pure compounds. Thus, the mixtures should be more practical compounds for industrial use as a surfactant.     

Chemistry and biology of reactive species with special reference to the antioxidative defence status in pancreatic β-cells

BackgroundDiabetes mellitus is a serious metabolic disease. Dysfunction and subsequent loss of the β-cells in the islets of Langerhans through apoptosis ultimately cause a life-threatening insulin deficiency. The underlying reason for the particular vulnerability of the β-cells is an extraordinary sensitivity to the toxicity of reactive oxygen and nitrogen species (ROS and RNS) due to its low antioxidative defense status.Scope reviewThis review considers the different aspects of the chemistry and biology of the biologically most important reactive species and their chemico-biological interactions in the β-cell toxicity of proinflammatory cytokines in type 1 diabetes and of lipotoxicity in type 2 diabetes development.Major conclusionThe weak antioxidative defense equipment in the different subcellular organelles makes the β-cells particularly vulnerable and prone to mitochondrial, peroxisomal and ER stress.Looking upon the enzyme deficiencies which are responsible for the low antioxidative defense status of the pancreatic β-cells it is the lack of enzymatic capacity for H₂O₂ inactivation at all major subcellular sites.General significanceDiabetes is the most prevalent metabolic disorder with a steadily increasing incidence of both type 1 and type 2 diabetes worldwide. The weak protection of the pancreatic β-cells against oxidative stress is a major reason for their particular vulnerability. Thus, careful protection of the β-cells is required for prevention of the disease.     

β-Elemonic acid inhibits the growth of human Osteosarcoma through endoplasmic reticulum (ER) stress-mediated PERK/eIF2α/ATF4/CHOP activation and Wnt/β-catenin signal suppression

BackgroundOsteosarcoma (OS) is a significant threat to the lives of children and young adults. Although neoadjuvant chemotherapy is the first choice of treatment for OS, it is limited by serious side-effects and cancer metastasis. β-Elemonic acid (β-EA), an active component extracted from Boswellia carterii Birdw., has been reported to exhibit potential anti-inflammatory and anticancer activities. However, the anti-tumor effects and underlying mechanisms on OS as well as pharmacokinetic characteristics of β-EA remain unknown.PurposeThis study was aimed to investigating the anti-tumor effects of β-EA on human OS, the underlying mechanisms, and the pharmacokinetic and tissue distribution characteristics.Study design and methodsCell viability and colony formation assays were performed to determine the effect of β-EA cell on cell proliferation. Apoptosis rates, mitochondrial membrane potential and cell cycle features were analyzed by flow cytometry. qRT-PCR, Western blot, immunofluorescence and immunohistochemical assays were conducted to evaluate the expression levels of genes or proteins related to the pathways affected by β-EA in vitro and in vivo. Cell migration and invasion were evaluated in wound healing and Transwell chamber assays. The effects and pharmacokinetic characteristics of β-EA in vivo were evaluated by analyzing tumor suppression, pharmacokinetics and tissue distribution.ResultsExplorations indicated that endoplasmic reticulum (ER) stress conditions provoked by β-EA activated the PERK/eIF2α/ATF4 branch of the unfolded protein reaction (UPR), stimulating C/EBP homologous protein (CHOP)-regulated apoptosis and inducing Ca²⁺ leakage leading to caspase-dependent apoptosis. Furthermore, β-EA induced G0/G1 cell cycle arrest and inhibited metastasis of HOS and 143B cells by attenuating Wnt/β-catenin signaling effects, which included decreased levels of p-Akt(Ser473), p-Gsk3β (Ser9), Wnt/β-catenin target genes (c-Myc and CyclinD1) along with a decline in nuclear β-catenin accumulation. The fast absorption, short elimination half-life, and linear pharmacokinetic characteristics of β-EA were also revealed. The distribution of β-EA was detected in the tumor and bone tissues.ConclusionsOverall, both in vitro and in vivo investigations showed the potential of β-EA for the treatment of human OS. The pharmacokinetic profile and considerable distribution in the tumor and bone tissues warrant further preclinical or even clinical studies.     

Puerarin ameliorates hyperglycemia in HFD diabetic mice by promoting β-cell neogenesis via GLP-1R signaling activation

BackgroundDiabetes is characterized by β-cell loss and dysfunction. A strategy for diabetes treatment is to promote new β-cell formation. Puerarin is an isoflavone from the root of Pueraria lobata (Willd.) Ohwi. Our previous study demonstrated puerarin could ameliorate hyperglycemia in diabetic mice. However, related mechanisms and potential roles of puerarin in β-cell neogenesis have not been elucidated.PurposeThe present study aims to investigate whether anti-diabetic effect of puerarin is dependent on promoting β-cell neogenesis via GLP-1R signaling activation.MethodsA high-fat diet (HFD) induced diabetic mouse model was applied to investigate effects of puerarin in vivo, exendin-4 (GLP-1R agonist) and metformin were used as positive controls. Moreover, related mechanisms and GLP-1R downstream signal transduction were explored in isolated cultured mouse pancreatic ductal cells.ResultsPuerarin improved glucose homeostasis in HFD diabetic mice significantly. Markers of new β-cell formation (insulin, PDX1 and Ngn3) were observed in pancreatic ducts of HFD mice treated by puerarin. Of note, efficacy of puerarin in vivo was suppressed by GLP-1R antagonist exendin9-39, but enhanced by exendin-4 respectively. In cultured mouse pancreatic ductal cells, puerarin induced expressions of insulin and PDX1, upregulated GLP-1R expression and activated β-catenin and STAT3 subsequently. Expressions of insulin and PDX1 in ductal cells could be blocked by exendin9-39, or β-catenin inhibitor ICG001, or JAK2 inhibitor AG490.ConclusionThese data clarified puerarin ameliorated hyperglycemia of HFD mice via a novel mechanism involved promoting β-cell neogenesis. Our finding highlights the potential value of puerarin developing as an anti-diabetic agent.     

β-Elemene inhibits the metastasis of multidrug-resistant gastric cancer cells through miR-1323/Cbl-b/EGFR pathway

Backgroundβ-Elemene is a natural agent extracted from the traditional Chinese herbal medicine Curcuma wenyujin that is a promising novel plant-derived drug with broad-spectrum anticancer activity. Our previous study identified an enhanced capacity for metastasis in multidrug resistant (MDR) gastric cancer and breast cancer cells. However, the anti-metastatic effects of β-Elemene on MDR cancer cells remain unknown.PurposeIn this study, we posit the hypothesis that β-elemene possesses antimetastatic effects on MDR cancer cells.MethodsCell viability assay was used to assess the resistance of SGC7901/ADR cells and the cytotoxic effects of β-Elemene. Wound healing, transwell assay and lung metastatic mice model were used to the anti-metastasis effects of β-Elemene. MicroRNA microarray analysis was used to explore potential regulated miRNAs. Luciferase reporter assay was used to identify the direct target. Human MMP antibody array, western blot, immunoprecipitation, qRT-PCR analyses and immunohistochemistry were conducted to investigate the underlying anti-metastasis mechanism of β-Elemene.ResultsIn this study, we found that β-Elemene significantly inhibited the metastatic capacity of MDR gastric cells in vivo and in vitro. Mechanistically, we found that β-Elemene regulated MMP-2/9 expression and reversed epithelial-mesenchymal transition. Further studies showed that β-Elemene upregulated Cbl-b expression, resulting in inhibition of the EGFR-ERK/AKT pathways, which regulate MMP-2/9. Additionally, we confirmed that β-Elemene upregulated Cbl-b by inhibiting miR-1323 expression. Finally, we found that numbers of metastatic tumor nodules were significantly decreased in the lungs of nude mice after β-Elemene treatment.ConclusionOur results suggested that β-Elemene inhibits the metastasis of MDR gastric cancer cells by modulating the miR-1323/Cbl-b/EGFR signaling axis.     

Effects of nandrolone and resistance training on the blood pressure,cardiac electrophysiology,and expression of atrial β-adrenergic receptors

AimsThis study was performed to assess isolated and combined effects of nandrolone and resistance training on the blood pressure, cardiac electrophysiology, and expression of the β₁- and β₂-adrenergic receptors in the heart of rats.Main methodsWistar rats were randomly divided into four groups and submitted to a 6-week treatment with nandrolone and/or resistance training. Cardiac hypertrophy was accessed by the ratio of heart weight to the final body weight. Blood pressure was determined by a computerized tail-cuff system. Electrocardiography analyses were performed. Western blotting was used to access the protein levels of the β₁- and β₂-adrenergic receptors in the right atrium and left ventricle.Key findingsBoth resistance training and nandrolone induced cardiac hypertrophy. Nandrolone increased systolic blood pressure depending on the treatment time. Resistance training decreased systolic, diastolic and mean arterial blood pressure, as well as induced resting bradycardia. Nandrolone prolonged the QTc interval for both trained and non-trained groups when they were compared to their respective vehicle-treated one. Nandrolone increased the expression of β₁- and β₂-adrenergic receptors in the right atrium for both trained and non-trained groups when they were compared to their respective vehicle-treated one.SignificanceThis study indicated that nandrolone, associated or not with resistance training increases blood pressure depending on the treatment time, induces prolongation of the QTc interval, and increases the expression of β₁- and β₂-adrenergic receptors in the cardiac right atrium, but not in the left ventricle.     

Comparison of β2-microglobulin serum level between Alzheimer’s patients,cognitive healthy and mild cognitive impaired individuals

Background: Several studies performed in the last years on the brain, showed that beta2-microglobulin (β2m) and MHC can act independently of their canonical immune function to regulate normal brain development, synaptic plasticity and behaviour. Increased systemic levels of soluble β2m have been implicated in cognitive impairments like that associated with chronic haemodialysis, or aortic valve replacement. Increased soluble β2m has also been detected in the cerebral spinal fluid (CSF) of patients with HIV-associated dementia and Alzheimer’s disease (AD).

Objective: To compare plasma β2m levels in healthy subjects and subjects with dementia or cognitive impairment.

Methods: We measured the concentration of β2m in a cohort of 245 individuals and compared sex matched, cognitive healthy individuals.

Results: We found higher levels of β2m in AD patients compared to non-AD MCI and healthy controls (2063?ng/mL ±852 versus 1613?±?503 and 1832?±?382?ng/mL, pp?>?0.05).

Conclusions: Our data confirm that β2m could play a role in AD. However, a replication study in an independent cohort would be necessary to confirm our preliminary results.     

BamA is required for autotransporter secretion

BackgroundIn Gram-negative bacteria, type Va and Vc autotransporters are proteins that contain both a secreted virulence factor (the “passenger” domain) and a β-barrel that aids its export. While it is known that the folding and insertion of the β-barrel domain utilize the β-barrel assembly machinery (BAM) complex, how the passenger domain is secreted and folded across the membrane remains to be determined. The hairpin model states that passenger domain secretion occurs independently through the fully-formed and membrane-inserted β-barrel domain via a hairpin folding intermediate. In contrast, the BamA-assisted model states that the passenger domain is secreted through a hybrid of BamA, the essential subunit of the BAM complex, and the β-barrel domain of the autotransporter.MethodsTo ascertain the models' plausibility, we have used molecular dynamics to simulate passenger domain secretion for two autotransporters, EspP and YadA.ResultsWe observed that each protein's β-barrel is unable to accommodate the secreting passenger domain in a hairpin configuration without major structural distortions. Additionally, the force required for secretion through EspP's β-barrel is more than that through the BamA β-barrel.ConclusionsSecretion of autotransporters most likely occurs through an incompletely formed β-barrel domain of the autotransporter in conjunction with BamA.General significanceSecretion of virulence factors is a process used by practically all pathogenic Gram-negative bacteria. Understanding this process is a necessary step towards limiting their infectious capacity.     

Ketoreductase activity for reduction of substituted-β-tetralones utilizing aqueous-organic systems and β-cyclodextrin derivatives

Abstract

Ketoreductases (KREDs) were employed for enantioselective reduction of 7-hydroxy-2-tetralone 1a and adduct 7-methoxy-2-tetralonbisulfite 2a to their corresponding (S)-/(R)-alcohols. In addition, the effect of additives such as organic solvents and β-cyclodextrin derivatives on the enzyme reductions was investigated. The changes in enzyme activity as a function of additives were correlated to structural alterations of the KREDs using circular dichroism and fluorescence spectrophotometric measurements. The effects of both the organic solvents and β-cyclodextrin derivatives on substrate solubility and equilibrium binding constants (log K) of β-cyclodextrin-substrate complexes were determined.     

Prognostic values of osteopontin-c,E-cadherin and β-catenin in breast cancer

ObjectiveTo determine the correlation of cell adhesion molecules (osteopontin-c, E-cadherin and β-catenin) with clinicopathological characteristics in breast cancer.MethodsImmunostaining of osteopontin-c, E-cadherin and β-catenin were conducted in 170 samples of breast cancer and 30 samples of adjacent normal breast tissues. The correlation of osteopontin-c, E-cadherin and β-catenin expression level with clinicopathological characteristics was evaluated by Pearson's chi-square and Wilcoxon rank-sum test. Univariate and multivariate Cox hazard regression model was used to assess the prognostic values of osteopontin-c, E-cadherin and β-catenin in clinical outcome of breast cancer.ResultsA higher level of osteopontin-c whereas lower levels of E-cadherin and β-catenin were observed in breast cancer as compared with the normal breast tissues. The expression of osteopontin-c was negatively associated with the expression of E-cadherin and β-catenin. The expression of osteopontin-c correlated with lymph node metastasis, and advanced TNM stage and histologic grade. The expression of E-cadherin correlated with low histologic grade; and β-catenin with low TNM stage and histological grade. Moreover, high osteopontin-c level correlated with tumor recurrence or metastasis as well as triple negative subtype. The expression of osteopontin-c was an independent prognostic factor for both disease-free and overall survival of breast cancer patients.ConclusionThe data suggest that the expression of osteopontin-c could serve as a prognostic factor of breast cancer.     

Relaxation by β3-adrenoceptor agonists of the isolated human internal anal sphincter

AimsIn this study, responses of β₃-adrenoceptor agonists were examined on human isolated internal anal sphincter (IAS) in order to explore their relaxant effects on hypertonicity of IAS.Main methodsThe relaxant efficacy (E_max) and potency (? logIC₅₀) of BRL37344 and SR58611A, β₃-adrenoceptor agonists, were examined in contracted IAS muscle strips. The presence of β₃-adrenoceptors, and changes in intracellular calcium and cyclic nucleotide levels in IAS muscle were tested by Western blotting, epifluorescence microscopy and enzyme immunoassay, respectively.Key findingsBRL37344 and SR58611A relaxed contracted IAS muscle (E_max = 27 ± 3% and 35 ± 3%; -logIC₅₀ = 6.26 ± 0.24 and 4.87 ± 0.13; respectively). These relaxant responses were blocked by SR59230A, a selective β₃-antagonist but not by β₁/β₂-selective antagonists, neuronal inhibitor or inhibition of nitric oxide synthase. The E_max of β₃-agonists was similar to that of β₂-selective agonists but smaller than that of isoprenaline (nonselective agonist) or β₁-selective agonists. BRL37344 (100 μM) increased cAMP (1.5-fold) without cGMP change, and depressed intracellular calcium signal. β₃-Adrenoceptor expression was smaller than that of β₁- and β₂-adrenoceptors.SignificanceThis is the first study demonstrating the presence of β₃-adrenoceptor in human IAS muscle and β₃-mediated relaxation of augmented sphincter tone. However, direct β₃-relaxation appears smaller than that obtained for nonselective agonists which may limit their potential use in the treatment of anorectal hypertonicity disorders.