Blockade of JAK2 activity suppressed accumulation of β‐catenin in leukemic cells

The Wnt/β‐catenin pathway has been implicated in leukemogenesis. We found β‐catenin abnormally accumulated in both human acute T cell leukemia Jurkat cells and human erythroleukemia HEL cells. β‐Catenin can be significantly down‐regulated by the Janus kinase 2 specific inhibitor AG490 in these two cells. AG490 also reduces the luciferase activity of a reporter plasmid driven by LEF/β‐catenin promoter. Similar results were observed in HEL cells infected with lentivirus containing shRNA against JAK2 gene. After treatment with 50 µM AG490 or shRNA, the mRNA expression levels of β‐catenin, APC, Axin, β‐Trcp, GSK3α, and GSK3β were up‐regulated within 12–16 h. However, only the protein levels of GSK3β and β‐Trcp were found to have increased relative to untreated cells. Knockdown experiments revealed that the AG490‐induced inhibition of β‐catenin can be attenuated by shRNA targeting β‐TrCP. Taken together; these results suggest that β‐Trcp plays a key role in the cross‐talk between JAK/STAT and Wnt/β‐catenin signaling in leukemia cells. J. Cell. Biochem. 111: 402–411, 2010. © 2010 Wiley‐Liss, Inc.     

β‐Catenin—A supporting role in the skeleton

In the last 5 years a role for β‐catenin in the skeleton has been cemented. Beginning with mutations in the Lrp5 receptor that control β‐catenin canonical downstream signals, and progressing to transgenic models with bone‐specific alteration of β‐catenin, research has shown that β‐catenin is required for normal bone development. A cell critical to bone in which β‐catenin activity determines function is the marrow‐derived mesenchymal stem cell (MSC), where sustained β‐catenin prevents its distribution into adipogenic lineage. β‐Catenin actions are less well understood in mature osteoblasts: while β‐catenin contributes to control of osteoclastic bone resorption via alteration of the osteoprotegerin/RANKL ratio, a specific regulatory role during osteoblast bone synthesis has not yet been determined. The proven ability of mechanical factors to prevent β‐catenin degradation and induce nuclear translocation through Lrp‐independent mechanisms suggests processes by which exercise might modulate bone mass via control of lineage allocation, in particular, by preventing precursor distribution into the adipocyte pool. Effects resulting from mechanical activation of β‐catenin in mature osteoblasts and osteocytes likely modulate bone resorption, but whether β‐catenin is involved in osteoblast synthetic function remains to be proven for both mechanical and soluble mediators. As β‐catenin appears to support the downstream effects of multiple osteogenic factors, studies clarifying when and where β‐catenin effects occur will be relevant for translational approaches aimed at preventing bone loss and terminal adipogenic conversion. J. Cell. Biochem. 110: 545–553, 2010. © 2010 Wiley‐Liss, Inc.     

Extracellular vesicles have variable dose‐dependent effects on cultured draining cells in the eye

The role of extracellular vesicles (EVs) as signal mediators has been described in many biological fields. How many EVs are needed to deliver the desired physiological signal is yet unclear. Using a normal trabecular meshwork (NTM) cell culture exposed to non‐pigmented ciliary epithelium (NPCE)–derived EVs, a relevant model for studying the human ocular drainage system, we addressed the EVs dose–response effects on the Wnt signaling. The objective of the study was to investigate the dosing effects of NPCE‐derived EVs on TM Wnt signaling. EVs were isolated by PEG 8000 method from NPCE and RPE cells (used as controls) conditioned media. Concentrations were determined by Tunable Resistive Pulse Sensing method. Various exosomes concentration were incubated with TM cells, for the determination of mRNA (β‐Catenin, Axin2 and LEF1) and protein (β‐Catenin, GSK‐3β) expression using real‐time quantitative PCR and Western blot, respectively. Exposure of NTM cells for 8 hrs to low EVs concentrations was associated with a significant decreased expression of β‐Catenin, GSK‐3β, as opposed to exposure to high exosomal concentrations. Pro‐MMP9 and MMP9 activities were significantly enhanced in NTM cells treated with high EV concentrations of (X10) as compared to low EV concentrations of either NPCE‐ or RPE‐derived EVs and to untreated control. Our data support the concept that EVs biological effects are concentration‐dependent at their target site. Specifically in the present study, we described a general dose–response at the gene and MMPs activity and a different dose–response regarding key canonical Wnt proteins expression.     

Normal fertility in male mice with deletion of β‐catenin gene in germ cells

As a dual function protein, β‐catenin affects both cell adhesion and mediates canonical Wnt/β‐catenin cell signaling. β‐Catenin is prominently expressed in somatic Sertoli cells in the testis and postmeiotic germ cells, suggesting an additional role in spermatogenesis. It was reported previously that Cre/loxP‐mediated conditional inactivation of the β‐catenin gene (Ctnnb1) in male gonads using a protamine promoter‐driven Cre transgene (Prm‐cre) resulted in partial infertility, reduced sperm count, and abnormal spermatogenesis. In this report, we demonstrated that the conditional deletion of Ctnnb1 using a germ cell specific Cre transgene (Stra8‐icre) had no effect on male fertility. We have shown that the Stra8‐icre transgene was highly efficient in generating deletion in early pre‐meiotic and post‐meiotic cells. No differences in anatomical or histological presentation were found in the mutant testis, the production of viable sperm was similar, and no abnormalities in DNA sperm content were detected. We concluded that β‐catenin is fully dispensable in germ cells for spermatogenesis. The conflicting results from the earlier study may have been due to off‐target expression of Prm‐cre in testicular somatic cells. In future studies, the analysis of conditional mutants using several Cre‐transgenes should be encouraged to reduce potential errors. genesis 52:328–332, 2014. © 2014 Wiley Periodicals, Inc.     

Rücken‐WNT für die Primärachse der Tiere

Axis formation in animals The last common ancestor of Cnidaria and Bilateria likely used the WNT/β‐Catenin pathway in a regionalized fashion to establish its primary, anterior‐posterior axis. Unexpectedly, the morphological head of Cnidaria corresponds to the rear end of Bilateria. Moreover, annelids use the WNT/β‐Catenin system for early, local and binary decisions, and insects developed a completely unrelated pathway. They use Bicoid (Drosophila) – or Hunchback/Orthodenticle (Tribolium) – to control axis formation. Nevertheless, WNT functions are essential during the segmentation phase in insects and in ancestral insects as well as in other arthropods during formation of posterior structures. In summary, the WNT/β‐Catenin system is an essential part of the molecular tool kit, which helped to establish the unique features of animals.     

Tumour necrosis factor‐α‐induced protein 8‐like 2 is a novel regulator of proliferation,migration, and invasion in human rectal adenocarcinoma cells

Tumour necrosis factor‐α‐induced protein 8‐like 2 (TIPE2) is a tumour suppressor in many types of cancer. However, the mechanism of action of TIPE2 on the growth of rectal adenocarcinoma is unknown. Our results showed that the expression levels of TIPE2 in human rectal adenocarcinoma tissues were higher than those in adjacent non‐tumour tissues. Overexpression of TIPE2 reduced the proliferation, migration, and invasion of human rectal adenocarcinoma cells and down‐regulation of TIPE2 showed reverse effects. TIPE2 overexpression increased apoptosis through down‐regulating the expression levels of Wnt3a, phospho (p)‐β‐Catenin, and p‐glycogen synthase kinase‐3β in rectal adenocarcinoma cells, however, TIPE2 knockdown exhibited reverse trends. TIPE2 overexpression decreased autophagy by reducing the expression levels of p‐Smad2, p‐Smad3, and transforming growth factor‐beta (TGF‐β) in rectal adenocarcinoma cells, however, TIPE2 knockdown showed opposite effects. Furthermore, TIPE2 overexpression reduced the growth of xenografted human rectal adenocarcinoma, whereas TIPE2 knockdown promoted the growth of rectal adenocarcinoma tumours by modulating angiogenesis. In conclusion, TIPE2 could regulate the proliferation, migration, and invasion of human rectal adenocarcinoma cells through Wnt/β‐Catenin and TGF‐β/Smad2/3 signalling pathways. TIPE2 is a potential therapeutic target for the treatment of rectal adenocarcinoma.     

Isolation,purification and de novo sequencing of TBD‐1, the first beta‐defensin from leukocytes of reptiles

A novel peptide with antimicrobial activity was isolated from leukocytes of the European pond turtle Emys orbicularis and purified to homogeneity by preparative gel electrophoresis followed by reversed phase chromatography. It was highly active in vitro against Escherichia coli, Listeria monocytogenes, methicillin‐resistant Staphylococcus aureus, and Candida albicans. The isolated peptide was sequenced de novo by tandem mass spectrometry using both collision‐induced and electron‐transfer dissociation in combination with different chemical derivatization techniques. The 40‐residue peptide, called TBD‐1 (turtle β‐defensin 1), represents the first defensin isolated from reptilian leukocytes. It contains three disulfide bonds and shows high structural similarities to β‐defensins isolated from birds and mammals.     

Structural and functional analysis of tomato β‐galactosidase 4: insight into the substrate specificity of the fruit softening‐related enzyme

Plant β‐galactosidases hydrolyze cell wall β‐(1,4)‐galactans to play important roles in cell wall expansion and degradation, and turnover of signaling molecules, during ripening. Tomato β‐galactosidase 4 (TBG4) is an enzyme responsible for fruit softening through the degradation of β‐(1,4)‐galactan in the pericarp cell wall. TBG4 is the only enzyme among TBGs 1–7 that belongs to the β‐galactosidase/exo‐β‐(1,4)‐galactanase subfamily. The enzyme can hydrolyze a wide range of plant‐derived (1,4)‐ or 4‐linked polysaccharides, and shows a strong ability to attack β‐(1,4)‐galactan. To gain structural insight into its substrate specificity, we determined crystal structures of TBG4 and its complex with β‐d ‐galactose. TBG4 comprises a catalytic TIM barrel domain followed by three β‐sandwich domains. Three aromatic residues in the catalytic site that are thought to be important for substrate specificity are conserved in GH35 β‐galactosidases derived from bacteria, fungi and animals; however, the crystal structures of TBG4 revealed that the enzyme has a valine residue (V548) replacing one of the conserved aromatic residues. The V548W mutant of TBG4 showed a roughly sixfold increase in activity towards β‐(1,6)‐galactobiose, and ~0.6‐fold activity towards β‐(1,4)‐galactobiose, compared with wild‐type TBG4. Amino acid residues corresponding to V548 of TBG4 thus appear to determine the substrate specificities of plant β‐galactosidases towards β‐1,4 and β‐1,6 linkages.     

Protective effect of Agrimonia pilosa polysaccharides on dexamethasone‐treated MC3T3‐E1 cells via Wnt/β‐Catenin pathway

A water‐soluble polysaccharide (APP‐AW) was isolated from Agrimonia pilosa and prepared to three sulphated derivatives (S1, S2 and S3). The results showed that pre‐treatment with APP‐AW, S1, S2 and S3 each at the concentration of 50 μg/mL for 48 hours was able to prevent cytotoxicity induced by 1 μmol/L dexamethasone (Dex) in MC3T3‐E1 cells via inhibition of apoptosis, which is in line with the findings in flow cytometry analysis. Meanwhile, the decreased ALP activity, collagen content, mineralization, BMP2, Runx2, OSX and OCN protein expression in DEX‐treated MC3T3‐E1 cells were reversed by the addition of APP‐AW, S1, S2 and S3. Moreover, APP‐AW, S1, S2 and S3 rescued DEX‐induced increase of Bax, cytochrome c and caspase‐3 and decrease of Bcl‐2, Wnt3, β‐catenin and c‐Myc protein expression in MC3T3‐E1 cells. Our findings suggest that pre‐treatment with APP‐AW, S1, S2 and S3 could significantly protect MC3T3‐E1 cells against Dex‐induced cell injury via inhibiting apoptosis and activating Wnt/β‐Catenin signalling pathway, thus application of these polysaccharides may be a promising alternative strategy for steroid‐induced avascular necrosis of the femoral head (SANFH) therapy.     

The relation between glucovanillin, β-d-glucosidase activity and cellular compartmentation during the senescence, freezing and traditional curing of vanilla beans

The aim of this research was to improve our understanding of the mechanism of glucovanillin hydrolysis by β‐d ‐glucosidase activity in vanilla beans by studying their senescence, freezing and traditional curing. A batch of green pods from Madagascar was ripened at 30°C until fruits turned black; another batch was frozen for few days at ?18°C and defrosted at 35°C for 24 h and a third batch was cured using traditional methods. During treatments, samples were analysed for the yield of glucovanillin hydrolysis, and β‐glucosidase activity was measured. Cellular structures were also examined by light and transmission electron microscopy. Green fruits had a low yield of glucovanillin hydrolysis (<5%), a high level of β‐glucosidase activity (～1000 nkatal g^?1 fresh weight) and a perfect cellular integrity. Senescent fruits had a high yield of glucovanillin hydrolysis (>95%), no measurable β‐glucosidase activity and complete cellular degradation. Similar results were observed in beans after defrosting. During curing, beans had a medium yield of glucovanillin hydrolysis (<50%), no measurable β‐glucosidase activity and partial cellular degradation compared with senescent or defrosted beans. Results show that the mechanism of glucovanillin hydrolysis in vanilla beans is regulated by cellular compartmentation and that the β‐glucosidase activity level is not the limiting factor for complete hydrolysis. If total decompartmentation is obtained, then complete glucovanillin hydrolysis is observed even if most of the β‐glucosidase activity is lost. The β‐glucosidase activity level only has an effect on glucovanillin hydrolysis kinetics.     

Taxonomic,functional, and phylogenetic β‐diversity patterns of stream fish assemblages in tropical agroecosystems

相似文献   

Mitigative effects of epigallocatechin gallate in terms of diminishing apoptosis and oxidative stress generated by the combination of lead and amyloid peptides in human neuronal cells

Environmental exposure to lead (Pb) is reported to associate with the development of Alzheimer's disease, where the formation of β‐amyloid peptides (APs) of (1‐40), (1‐42), and (25‐35) is considered as the major risk factor. In this context, we aimed at investigating the effect of epigallocatechin gallate (EGCG), a major flavonoid polyphenol available in green tea, in mitigating the individual and combined toxicity generated by Pb and β‐APs in terms of oxidative stress and apoptosis in human neuronal cells. SH‐SY5Y cells were exposed to Pb and β‐APs of (1‐40) and (25‐35) individually and in different combinations in the presence and absence of EGCG. The results indicated that EGCG mitigated both Pb‐ and β‐AP‐induced oxidative stress in scavenging reactive oxygen species and apoptosis by improving the expression levels of Bax and bcl2 and inhibiting annexin V and caspase‐3. Thus, our study shows that EGCG protects SH‐SY5Y cells against the cytotoxicity induced by Pb and β‐APs by decreasing oxidative stress and inhibiting apoptosis.     

Porins and Amyloids are Coded by Similar Sequence Motifs

The relationship between amino acid sequences of the β‐hairpin structures and amyloidogenic β‐arcade‐forming motifs are of special interest because, similar to amyloid fibrils, most of the β‐hairpin repeat (BHR) structures have the so‐called cross‐β arrangement. Moreover, β‐hairpin is considered as a probable intermediate structure in amyloidogenesis. In this work, a bioinformatics sequence analysis of the known BHR structures is performed in search of amylodogenic motifs able to form β‐arcade fibrils. The analysis shows that the occurrence of the predicted β‐arcade motifs in the BHR regions is very different depending on the BHR structural fold, cellular localization, and phylogeny. One of the most striking observations is the high level of sequence similarity between the BHRs of membranous porins and β‐arcade motifs. This sequence similarity provides additional evidence that the structure of the membranous porins and annular amyloid oligomers may bear a resemblance. Moreover, these results explain how some amyloidogenic sequence can fold in either the ring‐like shape oligomers or elongated amyloid fibrils. It has been also found that potentially lethal amyloidogenic β‐arcade motifs are absent in the elongated BHR structures of intracellular eukaryotic proteins. It allows to hypothesize that, in this case, the selective evolutionary pressure acts against aggregation.     

Structural basis for the nuclease activity of a bacteriophage large terminase

The DNA‐packaging motor in tailed bacteriophages requires nuclease activity to ensure that the genome is packaged correctly. This nuclease activity is tightly regulated as the enzyme is inactive for the duration of DNA translocation. Here, we report the X‐ray structure of the large terminase nuclease domain from bacteriophage SPP1. Similarity with the RNase H family endonucleases allowed interactions with the DNA to be predicted. A structure‐based alignment with the distantly related T4 gp17 terminase shows the conservation of an extended β‐sheet and an auxiliary β‐hairpin that are not found in other RNase H family proteins. The model with DNA suggests that the β‐hairpin partly blocks the active site, and in vivo activity assays show that the nuclease domain is not functional in the absence of the ATPase domain. Here, we propose that the nuclease activity is regulated by movement of the β‐hairpin, altering active site access and the orientation of catalytically essential residues.     

Solution and crystal structure of BA42, a protein from the Antarctic bacterium Bizionia argentinensis comprised of a stand‐alone TPM domain

The structure of the BA42 protein belonging to the Antarctic flavobacterium Bizionia argentinensis was determined by nuclear magnetic resonance and X‐ray crystallography. This is the first structure of a member of the PF04536 family comprised of a stand‐alone TPM domain. The structure reveals a new topological variant of the four β‐strands constituting the central β‐sheet of the αβα architecture and a double metal binding site stabilizing a pair of crossing loops, not observed in previous structures of proteins belonging to this family. BA42 shows differences in structure and dynamics in the presence or absence of bound metals. The affinity for divalent metal ions is close to that observed in proteins that modulate their activity as a function of metal concentration, anticipating a possible role for BA42. Proteins 2014; 82:3062–3078. © 2014 Wiley Periodicals, Inc.