共查询到20条相似文献,搜索用时 15 毫秒
1.
Shivani Kanodia Gautam Kumar Luca Rizzi Alessandro Pedretti Anthony N. Hodder Sergio Romeo Pawan Malhotra 《Biochimica et Biophysica Acta (BBA)/General Subjects》2014
Background
Plasmodium falciparum serine repeat antigen 5 (PfSERA5) is an abundant blood stage protein that plays an essential role in merozoite egress and invasion. The native protein undergoes extensive proteolytic cleavage that appears to be tightly regulated. PfSERA5 N-terminal fragment is being developed as vaccine candidate antigen. Although PfSERA5 belongs to papain-like cysteine protease family, its catalytic domain has a serine in place of cysteine at the active site.Methods
In the present study, we synthesized a number of peptides from the N- and C-terminal regions of PfSERA5 active domain and evaluated their inhibitory potential.Results
The final proteolytic step of PfSERA5 involves removal of a C-terminal ~ 6 kDa fragment that results in the generation of a catalytically active ~ 50 kDa enzyme. In the present study, we demonstrate that two of the peptides derived from the C-terminal ~ 6 kDa region inhibit the parasite growth and also cause a delay in the parasite development. These peptides reduced the enzyme activity of the recombinant protein and co-localized with the PfSERA5 protein within the parasite, thereby indicating the specific inhibition of PfSERA5 activity. Molecular docking studies revealed that the inhibitory peptides interact with the active site of the protein. Interestingly, the peptides did not have an effect on the processing of PfSERA5.Conclusions
Our observations indicate the temporal regulation of the final proteolytic cleavage step that occurs just prior to egress.General significance
These results reinforce the role of PfSERA5 for the intra-erythrocytic development of malaria parasite and show the role of carboxy terminal ~ 6 kDa fragments in the regulation of PfSERA5 activity. The results also suggest that final cleavage step of PfSERA5 can be targeted for the development of new anti-malarials. 相似文献2.
Shabir H. Qureshi Qiuya Lu Chandrashekhara Manithody Likui YangAlireza R. Rezaie 《Biochimica et Biophysica Acta - Proteins and Proteomics》2014,1844(9):1631-1637
Background
Protein Z (PZ) has been reported to promote the inactivation of factor Xa (FXa) by PZ-dependent protease inhibitor (ZPI) by about three orders of magnitude. Previously, we prepared a chimeric PZ in which its C-terminal pseudo-catalytic domain was grafted on FX light-chain (Gla and EGF-like domains) (PZ/FX-LC). Characterization of PZ/FX-LC revealed that the ZPI interactive-site is primarily located within PZ pseudo-catalytic domain. Nevertheless, the cofactor function and apparent Kd of PZ/FX-LC for interaction with ZPI remained impaired ~ 6–7-fold, suggesting that PZ contains a ZPI interactive-site outside pseudo-catalytic domain. X-ray structural data indicates that Tyr-240 of ZPI interacts with EGF2-domain of PZ. Structural data further suggests that 3 other ZPI surface loops make salt-bridge interactions with PZ pseudo-catalytic domain. To identify ZPI interactive-sites on PZ, we grafted the N-terminal EGF2 subdomain of PZ onto PZ/FX-LC chimera (PZ-EGF2/FX-LC) and also generated two compensatory charge reversal mutants of PZ pseudo-catalytic domain (Glu-244 and Arg-212) and ZPI surface loops (Lys-239 and Asp-293).Methods
PZ chimeras were expressed in mammalian cells and ZPI derivatives were expressed in Escherichia coli.Results
The PZ EGF2 subdomain fusion restored the defective cofactor function of PZ/FX-LC. The activities of PZ and ZPI mutants were all impaired if assayed individually, but partially restored if the compensatory charge reversal mutants were used in the assay.Conclusions
PZ EGF2 subdomain constitutes an interactive-site for ZPI. Data with compensatory charge reversal mutants validates structural data that the identified residues are part of interactive-sites.General significance
Insight is provided into mechanisms through which specificity of ZPI–PZ–FXa complex formation is determined. 相似文献3.
Harmanpreet Kaur Rebecca Heeney Rupp Carriveau Gabriel Sosne Bulent Mutus 《Biochimica et Biophysica Acta (BBA)/General Subjects》2010
Background
Thymosin beta 4 (Tβ4) is a major actin sequestering peptide present in most mammalian cells. It also acts as an anti-inflammatory agent and promotes corneal wound healing.Methods
In the present study, we constructed a four channel cylindrical flow chambers out of polydimethylsiloxane (PDMS) on microscope coverslips. The platelet-binding proteins–fibrinogen and collagen–were immobilized onto the middle ~ 25% of the inner cylindrical surface. The flow method introduced here was employed to determine the effect of Tβ4, on the deposition of ADP-activated platelets onto fibrinogen cross-linked flow chambers.Results
The binding data from the flow chambers indicated that the both the rate constant of platelet deposition (average: 0.026 ± 0.0015 s− 1, corresponding to a half-life of 26.7 s) and the total number of deposited platelets were independent of the platelet binding protein and the activating agent. Our results show that low concentrations of Tβ4 (0.2 μM to 0.5 μM) increased both the rate constant of platelet deposition by ~ 1.5-fold (i.e. half-life decreased from 26.7 s to 17.6 s) and the total number of deposited platelets by ~ 3-fold. However at higher concentrations (> 1 μM) the Tβ4-potentiating effect was diminished to near control levels. Tβ4 did interact with fibrinogen with an estimated KD of ~ 126 ± 18 nM or 66 ± 20 nM under equilibrium or flow, respectively.Conclusion
These results suggest that Tβ4 could potentially increase the affinity of platelet receptors for their ligands thus promoting platelet deposition. Tβ4 could also bind to fibrinogen and as its concentration increased would prevent platelet–fibrinogen interactions resulting in the attenuation of platelet deposition.General significance
This work suggests that Tβ4 might have a dual role in platelet function. 相似文献4.
5.
Atsuyuki Tomizawa Itsuko Ishii Zhivko Zhelev Ichio Aoki Sayaka Shibata Mitsukazu Kitada Rumiana Bakalova 《Biochimica et Biophysica Acta (BBA)/General Subjects》2011
Background
Gd-DTPA-enhanced magnetic resonance imaging (MRI) is a conventional method for non-invasive investigation of blood-brain-barrier (BBB) permeability in animal models. It allows the visualization of serious injury to the BBB. We developed a novel approach for detecting very small disruptions in BBB permeability induced by dietary cholesterol by using carbamoyl-PROXYL (CMP) as an MRI contrast probe.Methods
Mice were separated into two groups: normal diet (ND-mice) and high cholesterol diet (CD-mice). MRI-signal dynamics, plasma cholesterol, matrix metalloproteinase (MMP-9, MMP-2), and the white blood cell profile were analyzed. For the MRI analysis, two regions-of-interest (ROI) were selected: brain (ROI-1) and surrounding area (ROI-2).Results
In the ROI-2 of ND-mice, CMP- or Gd-enhanced MRI-signal followed typical kinetics with a half-life of signal decay (τ1/2) ~ 8 or ~ 15 min, respectively. In CD-mice, the MRI-signal increased continuously without decay.In the ROI-1 of ND- and CD-mice, MRI-signal enhancement was not detected by Gd-DTPA. In the ROI-1 of ND-mice, CMP-induced MRI-signal enhancement was negligible, while in CD-mice, it was significant (τ1/2 > 15 min).Hypercholesterolemia increased the plasma levels of MMP-9 and neutrophils.Conclusions
Hypercholesterolemia increases vascular permeability, which is mediated by MMP-9 and neutrophils.General significance
Even very small disruptions in brain vascular permeability could be detected by CMP-enhanced MRI but not by Gd-DTPA-enhanced MRI. 相似文献6.
Christian C. Colín-Santana S. Eréndira Avendaño-VázquezRocío Alcántara-Hernández J. Adolfo García-Sáinz 《Biochimica et Biophysica Acta (BBA)/General Subjects》2011
Background
Lysophosphatidic acid (LPA) is a local mediator that exerts its actions through G protein coupled receptors. Knowledge on the regulation of such receptors is scarce to date. Here we show that bidirectional cross-talk exits between LPA1 and EGF receptors.Methods
C9 cells expressing LPA1 receptor fussed to the enhanced green fluorescent protein were used. We studied intracellular calcium concentration, Akt/PKB phosphorylation, LPA1 and EGF receptor phosphorylation.Results
EGF diminished LPA-mediated intracellular calcium response and induced LPA1 receptor phosphorylation, which was sensitive to protein kinase C inhibitors. Angiotensin II and LPA induced EGF receptor transactivation as evidenced by Akt/PKB phosphorylation through metalloproteinase-catalyzed membrane shedding of heparin-binding EGF and autocrine/paracrine activation of EGF receptors. This process was found to be of major importance in angiotensin II-induced LPA1 receptor phosphorylation. Attempts to define a role for EGF receptor transactivation in homologous LPA1 receptor desensitization and phosphorylation suggested that G protein-coupled receptor kinases are the major players in this process, overshadowing other events.Conclusions
EGF receptors and LPA1 receptors are engaged in an intense liaison, in that EGF receptors are capable of modulating LPA1 receptor function through phosphorylation cascades. EGF transactivation plays a dual role: it mediates some LPA actions, and it modulates LPA1 receptor function in inhibitory fashion.General significance
EGF and LPA receptors coexist in many cell types and play key roles in maintaining the delicate equilibrium that we call health and in the pathogenesis of many diseases. The intense cross-talk described here has important physiological and pathophysiological implications. 相似文献7.
Background
Argonaute (Ago) proteins are essential for the biogenesis and function of ~ 20–30 nucleotide long RNAs such as microRNAs (miRNAs). Ago expression increases or decreases under various physiological conditions, although the functional consequences are unknown. In addition, while reduced global miRNA production was shown to enhance cellular transformation and tumorigenesis, how Ago proteins contribute to human diseases has not been reported.Method
Ago2, an essential Ago isoform in mammals, was stably expressed in 293 T, the human embryonic kidney cell line, and H1299, the human lung adenocarcinoma cell line. miRNA and mRNA expression was investigated by quantitative PCR and microarray profiling. Cell proliferation and migration was examined by 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide assay and scratch assay in the cell cultures, respectively. How Ago2 affected cell growth in vivo was determined by H1299 xenograft tumor growth in mice. Changes in Ago2 expression in human lung cancer samples were investigated by quantitative PCR and immunohistochemistry.Results
Stable Ago2 overexpression elicited specific changes in miRNA and mRNA expression in both 293 T and H1299 cells. It also inhibited cell proliferation and migration in cell cultures as well as xenograft tumor growth in nude mice. Ago2 expression was lower in human lung adenocarcinomas than in the paired, non-cancerous tissues.General significance
We concluded that changes in Ago2 expression might have significant physiological and pathological consequences in vivo. 相似文献8.
Chantal Eid Miryana HémadiNguyêt-Thanh Ha-Duong Jean-Michel El Hage Chahine 《Biochimica et Biophysica Acta (BBA)/General Subjects》2014
Background
Dietary and recycled iron are in the Fe2 + oxidation state. However, the metal is transported in serum by transferrin as Fe3 +. The multi-copper ferroxidase ceruloplasmin is suspected to be the missing link between acquired Fe2 + and transported Fe3 +.Methods
This study uses the techniques of chemical relaxation and spectrophotometric detection.Results
Under anaerobic conditions, ceruloplasmin captures and oxidizes two Fe2 +. The first uptake occurs in domain 6 (< 1 ms) at the divalent iron-binding site. It is accompanied by Fe2 + oxidation by Cu2 +D6. Fe3 + is then transferred from the binding site to the holding site. Cu+D6 is then re-oxidized by a Cu2 + of the trinuclear cluster in about 200 ms. The second Fe2 + uptake and oxidation involve domain 4 and are under the kinetic control of a 200 s change in the protein conformation. With transferrin and in the formed ceruloplasmin–transferrin adduct, two Fe3 + are transferred from their holding sites to two C-lobes of two transferrins. The first transfer (~ 100 s) is followed by conformation changes (500 s) leading to the release of monoferric transferrin. The second transfer occurs in two steps in the 1000–10,000 second range.Conclusion
Fe3 + is transferred after Fe2 + uptake and oxidation by ceruloplasmin to the C-lobe of transferrin in a protein–protein adduct. This adduct is in a permanent state of equilibrium with all the metal-free or bounded ceruloplasmin and transferrin species present in the medium.General significance
Ceruloplasmin is a go-between dietary or recycled Fe2 + and transferrin transported Fe3 +. 相似文献9.
Youko Fukata Aiko Itoh Yasuhiro Nonaka Takashi Ogawa Takanori Nakamura Osamu Matsushita Nozomu Nishi 《Biochimica et Biophysica Acta (BBA)/General Subjects》2014
Background
There is a continuous demand for new immunosuppressive agents for organ transplantation. Galectin-9, a member of the galactoside-binding animal lectin family, has been shown to suppress pathogenic T-cell responses in autoimmune disease models and experimental allograft transplantation. In this study, an attempt has been made to develop new collagen matrices, which can cause local, contact-dependent immune suppression, using galectin-9 and collagen-binding galectin-9 fusion proteins as active ingredients.Methods
Galectin-9 and galectin-9 fusion proteins having collagen-binding domains (CBDs) derived from bacterial collagenases and a collagen-binding peptide (CBP) were tested for their ability to bind to collagen matrices, and to induce Jurkat cell death in solution and in the collagen-bound state.Results
Galectin-9-CBD fusion proteins exhibited collagen-binding activity comparable to or lower than that of the respective CBDs, while their cytocidal activity toward Jurkat cells in solution was 80 ~ 10% that of galectin-9. Galectin-9 itself exhibited oligosaccharide-dependent collagen-binding activity. The growth of Jurkat cells cultured on collagen membranes treated with galectin-9 was inhibited by ~ 90%. The effect was dependent on direct cell-to-membrane contact. Galectin-9-CBD/CBP fusion proteins bound to collagen membranes via CBD/CBP moieties showed a low or negligible effect on Jurkat cell growth.Conclusions
Among the proteins tested, galectin-9 exhibited the highest cytocidal effect on Jurkat cells in the collagen-bound state. The effect was not due to galectin-9 released into the culture medium but was dependent on direct cell-to-membrane contact.General significance
The study demonstrates the possible use of galectin-9-modified collagen matrices for local, contact-dependent immune suppression in transplantation. 相似文献10.
11.
Catalina Carrasco-Pozo Edgar Pastene Carola Vergara Moises Zapata Cristian Sandoval Martin Gotteland 《Biochimica et Biophysica Acta (BBA)/General Subjects》2012
Background
The effect of indomethacin (INDO) on Ca2 + mobilization, cytotoxicity, apoptosis and caspase activation and the potential protective effect of quercetin (QUE), resveratrol (RES) and rutin (RUT) were determined in Caco-2 cells.Methods
Caco-2 cells were incubated with INDO in the presence or absence of QUE, RES or RUT. The concentrations of Ca2 + in the cytosol (Fluo-3 AM) and mitochondria (Rhod-2 AM) were determined as well as the cytotoxicity (MTT reduction and LDH leakage), apoptosis (TUNEL) and caspase-3 and 9 activities.Results
INDO promoted Ca2 + efflux from the endoplasmic reticulum (ER), resulting in an early, but transient, increment of cytosolic Ca2 + at 3.5 min, followed by a subsequent increment of intra-mitochondrial Ca2 + at 24 min. INDO also induced cytotoxicity, apoptosis, and increased caspase activities and cytochrome c release. All these alterations were prevented by the inhibitors of the IP3R and RyR receptors, 2-Aminoethoxydiphenyl borate (2-APB) and dantrolene. QUE was the most efficient polyphenol in preventing Ca2 + mobilization induced by INDO and all of its consequences including cytotoxicity and apoptosis.Conclusions
In Caco-2 cells, INDO stimulates ER Ca2 + mobilization, probably through the activation of IP3R and RyR receptors, and the subsequent entry of Ca2 + into the mitochondria. Polyphenols protected the cells against the Ca2 + mobilization induced by INDO and its consequences on cytotoxicity and apoptosis.General significance
These results confirm the possibility of using polyphenols and particularly QUE for the protection of the gastroduodenal mucosa in subjects consuming NSAIDs. 相似文献12.
Nicholas G. James Michelle A. Digman Justin A. Ross Barbara Barylko Lei Wang Jinhui Li Yan Chen Joachim D. Mueller Enrico Gratton Joseph P. Albanesi David M. Jameson 《Biochimica et Biophysica Acta (BBA)/General Subjects》2014
Background
Dynamin 2 (Dyn2) is a ~ 100 kDa GTPase that assembles around the necks of nascent endocytic and Golgi vesicles and catalyzes membrane scission. Mutations in Dyn2 that cause centronuclear myopathy (CNM) have been shown to stabilize Dyn2 polymers against GTP-dependent disassembly in vitro. Precisely timed regulation of assembly and disassembly is believed to be critical for Dyn2 function in membrane vesiculation, and the CNM mutations interfere with this regulation by shifting the equilibrium toward the assembled state.Methods
In this study we use two fluorescence fluctuation spectroscopy (FFS) approaches to show that a CNM mutant form of Dyn2 also has a greater propensity to self-assemble in the cytosol and on the plasma membrane of living cells.Results
Results obtained using brightness analysis indicate that unassembled wild-type Dyn2 is predominantly tetrameric in the cytosol, although different oligomeric species are observed, depending on the concentration of expressed protein. In contrast, an R369W mutant identified in CNM patients forms higher-order oligomers at concentrations above 1 μM. Investigation of Dyn2-R369W by Total Internal Reflection Fluorescence (TIRF) FFS reveals that this mutant forms larger and more stable clathrin-containing structures on the plasma membrane than wild-type Dyn2.Conclusions and general significance
These observations may explain defects in membrane trafficking reported in CNM patient cells and in heterologous systems expressing CNM-associated Dyn2 mutants. 相似文献13.
Sebastián Carballal Silvina Bartesaghi Rafael Radi 《Biochimica et Biophysica Acta (BBA)/General Subjects》2014
Background
Peroxynitrite, the product of the reaction between superoxide radicals and nitric oxide, is an elusive oxidant with a short half-life and a low steady-state concentration in biological systems; it promotes nitroxidative damage.Scope of review
We will consider kinetic and mechanistic aspects that allow rationalizing the biological fate of peroxynitrite from data obtained by a combination of methods that include fast kinetic techniques, electron paramagnetic resonance and kinetic simulations. In addition, we provide a quantitative analysis of peroxynitrite production rates and conceivable steady–state levels in living systems.Major conclusions
The preferential reactions of peroxynitrite in vivo include those with carbon dioxide, thiols and metalloproteins; its homolysis represents only < 1% of its fate. To note, carbon dioxide accounts for a significant fraction of peroxynitrite consumption leading to the formation of strong one-electron oxidants, carbonate radicals and nitrogen dioxide. On the other hand, peroxynitrite is rapidly reduced by peroxiredoxins, which represent efficient thiol-based peroxynitrite detoxification systems. Glutathione, present at mM concentration in cells and frequently considered a direct scavenger of peroxynitrite, does not react sufficiently fast with it in vivo; glutathione mainly inhibits peroxynitrite-dependent processes by reactions with secondary radicals. The detection of protein 3-nitrotyrosine, a molecular footprint, can demonstrate peroxynitrite formation in vivo. Basal peroxynitrite formation rates in cells can be estimated in the order of 0.1 to 0.5 μM s− 1 and its steady-state concentration at ~ 1 nM.General significance
The analysis provides a handle to predict the preferential fate and steady-state levels of peroxynitrite in living systems. This is useful to understand pathophysiological aspects and pharmacological prospects connected to peroxynitrite. This article is part of a Special Issue entitled Current methods to study reactive oxygen species - pros and cons and biophysics of membrane proteins. Guest Editor: Christine Winterbourn. 相似文献14.
Henriqueta Dias Cardoso Eraldo Fonseca dos Santos Junior David Filipe de Santana Catarina Gonçalves-Pimentel Monara Kaélle Angelim Alinny R. Isaac Cláudia Jacques Lagranha Rubem Carlos Araújo Guedes Eduardo Isidoro Beltrão Edgar Morya Marcelo Cairrão Araújo Rodrigues Belmira Lara da Silveira Andrade-da-Costa 《Biochimica et Biophysica Acta (BBA)/General Subjects》2014
Background
Our previous study demonstrated that essential fatty acid (EFA) dietary restriction over two generations induced midbrain dopaminergic cell loss and oxidative stress in the substantia nigra (SN) but not in the striatum of young rats. In the present study we hypothesized that omega-3 deficiency until adulthood would reduce striatum's resilience, increase nitric oxide (NO) levels and the number of BDNF-expressing neurons, both potential mechanisms involved in SN neurodegeneration.Methods
Second generation rats were raised from gestation on control or EFA-restricted diets until young or adulthood. Lipoperoxidation, NO content, total superoxide dismutase (t-SOD) and catalase enzymatic activities were assessed in the SN and striatum. The number of tyrosine hydroxylase (TH)- and BDNF-expressing neurons was analyzed in the SN.Results
Increased NO levels were observed in the striatum of both young and adult EFA-deficient animals but not in the SN, despite a similar omega-3 depletion (~ 65%) in these regions. Increased lipoperoxidation and decreased catalase activity were found in both regions, while lower tSOD activity was observed only in the striatum. Fewer TH- (~ 40%) and BDNF-positive cells (~ 20%) were detected at the SN compared to the control.Conclusion
The present findings demonstrate a differential effect of omega-3 deficiency on NO production in the rat's nigrostriatal system. Prolonging omega-3 depletion until adulthood impaired striatum's anti-oxidant resources and BDNF distribution in the SN, worsening dopaminergic cell degeneration.General significance
Omega-3 deficiency can reduce the nigrostriatal system's ability to maintain homeostasis under oxidative conditions, which may enhance the risk of Parkinson's disease. 相似文献15.
Anette Weyergang Pål K. Selbo Kristian Berg 《Biochimica et Biophysica Acta (BBA)/General Subjects》2013
Background
Tyrosin kinase inhibitors (TKIs) and monoclonal antibodies aimed to target epidermal growth factor receptor (EGFR) have shown limited effect as monotherapies and drug resistance is a major limitation for therapeutic success. Adjuvant therapies to EGFR targeting therapeutics are therefore of high clinical relevance.Methods
Three EGFR targeting drugs, Cetuximab, Erlotinib and Tyrphostin AG1478 were used in combination with photodynamic therapy (PDT) in two EGFR positive cell lines, A-431 epidermoid skin carcinoma and WiDr colorectal adenocarcinoma cells. The amphiphilic meso-tetraphenylporphine with 2 sulphonate groups on adjacent phenyl rings (TPPS2a) was utilized as a photosensitizer for PDT. The cytotoxic outcome of the combined treatments was evaluated by cell counting and MTT. Cellular signalling was explored by Western blotting.Results
PDT as neoadjuvant to Tyrphostin in A-431 cells as well as to Tyrphostin or Erlotinib in WiDr cells revealed synergistic cytotoxicity. In contrast, Erlotinib or Cetuximab combined with neoadjuvant PDT induced an antagonistic effect on cell survival of A-431 cells. Neoadjuvant PDT and EGFR targeting therapies induced a synergistic inhibition of ERK as well as synergistic cytotoxicity only when the EGFR targeting monotherapies caused a prolonged ERK inhibition. There were no correlation between EGFR inhibition by the EGFR targeting monotherapies or the combined therapies and the cytotoxic outcome combination-therapies.Conclusions
The results suggest that sustained ERK inhibition by EGFR targeting monotherapies is a predictive factor for synergistic cytotoxicity when combined with neoadjuvant PDT.General significance
The present study provides a rationale for selecting anticancer drugs which may benefit from PDT as adjuvant therapy. 相似文献16.
Pengfei Liang Bimei Jiang Chunliu Lv Xu Huang Li Sun Pihong Zhang Xiaoyuan Huang 《Biochimica et Biophysica Acta (BBA)/General Subjects》2013
Background
The present study aims to examine the expression patterns and roles of nucleolin during the recovery of heat-denatured human umbilical vein endothelial cells (HUVECs).Methods
Deep partial thickness burn model in Sprague–Dawley rats and the heat denatured cell model (52 °C, 35 s) were used. The expression of nucleolin was measured using Western blot analysis and real-time PCR. Angiogenesis was assessed using in vitro parameters including endothelial cell proliferation, transwell migration assay, and scratched wound healing. Gene transfection and RNA interference approaches were employed to investigate the roles of nucleolin.Results
Nucleolin mRNA and protein expression showed a time-dependent increase during the recovery of heat-denatured dermis and HUVECs. Heat-denaturation time-dependently promoted cell growth, adhesion, migration, scratched wound healing and formation of tube-like structures in HUVECs. These effects of heat denaturation on endothelial wound healing and formation of tube-like structures were prevented by knockdown of nucleolin, whereas over-expression of nucleolin increased cell growth, migration, and formation of tube-like structures in cultured HUVEC endothelial cells. In addition, we found that the expression of vascular endothelial growth factor (VEGF) increased during the recovery of heat-denatured dermis and HUVECs, and nucleolin up-regulated VEGF in HUVECs.Conclusions
The present study reveals that the expression of nucleolin is up-regulated, and plays a pro-angiogenic role during the recovery of heat-denatured dermis and its mechanism is probably dependent on production of VEGF.General significance
We find a novel and important pro-angiogenic role of nucleolin during the recovery of heat-denatured dermis. 相似文献17.
Background
Studies of mineral compositional effects during bone aging are complicated by the presence of collagen.Methods
Hypermineralized bullae of Atlantic bottlenose dolphins of < 3 months, 2.5 years, and 20 years underwent micrometer-scale point analysis by Raman spectroscopy and electron microprobe in addition to bulk analysis for carbon.Results
Bulla central areas have a mineral content of ~ 96 wt.% and 9–10 wt.% carbonate in their bioapatite, which is ~ 2 wt.% more than edge areas. Ca/P atomic ratios (~ 1.8) and concentrations of Mg, S, and other minor/trace elements are almost constant in central areas over time. Maturity brings greater over-all homogeneity in mineral content, stoichiometry, and morphology throughout the central and edge areas of the bullae. During aging, edge areas become less porous, whereas the concentration of organics in the edge is reduced. Enhancement of coupled substitutions of CO32 − for PO43 − and Na for Ca during aging increases carbonate content up to ~ 10 wt.% in the adult bulla.Conclusions
1) Changes in physical properties during aging did not occur simultaneously with changes in chemical properties of the bone mineral. 2) Compositional changes in bone mineral were minor during the neonatal to sub-adult stage, but significant during later maturity. 3) Na and CO3 concentrations co-vary in a 1:1 molar proportion during aging. 4) The mineral's crystallinity did not decrease as CO3 concentration increased during aging.General significance
Hypermineralized dolphin's bulla, due to extreme depletion in collagen, is an ideal material for investigating mineralogical changes in bioapatite during bone aging. 相似文献18.
19.
Linlin Tang Huadan Ye Qingxiao Hong Lingyan Wang Qinwen Wang Hongwei Wang Leiting Xu Shizhong Bu Lina Zhang Jia Cheng Panpan Liu Yanping Le Meng Ye Yifeng Mai Shiwei Duan 《Gene》2014
Background
The GCK gene encodes hexokinase 4, which catalyzes the first step in most glucose metabolism pathways. The purpose of our study is to assess the contribution of GCK methylation to type 2 diabetes (T2D).Methods and results
GCK methylation was evaluated in 48 T2D cases and 48 age- and gender-matched controls using the bisulphite pyrosequencing technology. Among the four CpG sites in the methylation assay, CpG4 and the other three CpGs (CpG1-3) were not in high correlation (r < 0.5). Significantly elevated methylation levels of GCK CpG4 methylation were observed in T2D patients than in the healthy controls (P = 0.004). A breakdown analysis by gender indicated that the association between CpG4 methylation and T2D was specific to males (P = 0.002). It is intriguing that another significant male-specific association was also found between GCK CpG4 methylation and total cholesterol (TC) concentration (r = 0.304, P = 0.036).Conclusion
Our results showed that elevated GCK CpG4 methylation might suggest a risk of T2D in Chinese males. Gender disparity in GCK CpG4 methylation might provide a clue to elaborate the pathogenesis of T2D. 相似文献20.
Lynda Blayney Konrad Beck Ewan MacDonald Leon D'Cruz Michail Nomikos Julia Griffiths Angelos Thanassoulas George Nounesis F. Anthony Lai 《Biochimica et Biophysica Acta (BBA)/General Subjects》2013