Proteome analysis of hepatocellular carcinoma

Development of hepatocellular carcinoma (HCC) is a complex process involving multiple changes in gene expression and usually occurs in the presence of liver cirrhosis. In this research, we observed proteome alterations of three tissue types isolated from livers of HCC patients: normal, cirrhotic, and tumorous tissue. Proteome alterations were observed using two-dimensional polyacrylamide gel electrophoresis and matrix-assisted laser desorption/ionization time-of-flight mass spectrometry. Comparing the tissue types with each other, a significant change in expression level was found in 21 proteins. Of these proteins, sarcosine dehydrogenase, liver carboxylesterase, peptidyl-prolyl isomerase A, and lamin B1 are considered novel HCC marker candidates. In particular, lamin B1 may be considered as a marker for cirrhosis, because its expression level changes considerably in cirrhotic tissue compared with normal tissue. The proteins revealed in this experiment can be used in the future for studies pertaining to hepatocarcinogenesis, or as diagnostic markers and therapeutic targets for HCC.     

Oxidation-sensitive residues mediate the DNA bending abilities of the architectural MC1 protein

The Methanosarcina thermophila MC1 protein is a small basic protein that is able to bend DNA sharply. When this protein is submitted to oxidative stress through gamma irradiation, it loses its original DNA interaction properties. The protein can still bind DNA but its ability to bend DNA is decreased dramatically. Here, we used different approaches to determine the oxidations that are responsible for this inactivation. Through a combination of proteolysis and mass spectrometry we have identified the three residues that are oxidized preferentially. We show by site directed mutagenesis that two of these residues, Trp74 and Met75, are involved in the DNA binding. Their substitution by alanine leads to a strong reduction in the protein capacity to bend DNA, and a total loss of its ability to recognize bent DNA. Taken together, these results show that oxidation of both these residues is responsible for the protein inactivation. Furthermore, the results confirm the strong relationship between DNA bending and recognition of DNA sequences by the MC1 protein.     

用双向电泳和质谱技术检测NGX6转染后人鼻咽癌细胞表达差异的蛋白质(英)

NGX6是克隆的鼻咽癌相关基因,它的功能与作用机制目前尚不十分清楚.通过脂质体转染把NGX6导入鼻咽癌细胞株中,采用双向凝胶电泳分离细胞内所有蛋白质,通过软件分析,找到与未处理细胞表达差异的蛋白质,通过质谱分析和生物信息学资料处理.鉴定出七种表达上调的蛋白质,其中包括Fas蛋白,锌指蛋白（ZNF）,主要组织相容性抗原Ⅱ（MHCⅡ）等.Fas蛋白参与细胞凋亡的信号传导途径,它的上调可以促进细胞凋亡;ZNF蛋白参与基因的转录调控,它的上调也可影响细胞异常增殖的信号传导通路;MHCⅡ可以促进机体对肿瘤细胞的免疫应答.这些结果说明NGX6可能通过多种途径抑制鼻咽癌细胞的生长,为研究NGX6的作用机制提供了很好的实验资料,对鼻咽癌的基因治疗奠定了一定的研究基础,也为研究其他基因的作用机制提供了新思路.     

Immunoprecipitation and MALDI-MS identification of lithocholic acid-tagged proteins in liver of bile duct-ligated rats

Formation of covalently bound protein adducts with lithocholic acid (LCA) might explain LCA's known carcinogenic properties and hepatotoxicity. We performed studies aimed at isolating and identifying hepatic proteins tagged with LCA, presumably via the epsilon-amino group of lysine residues. Antibodies recognizing the 3alpha-hydroxy-5beta-steroid moiety of LCA were generated by immunizing rabbits with immunogens in which the carboxyl group of LCA was coupled to BSA via a 6-aminohexanoic acid and/or succinic acid spacer. The resulting antibodies reacted with N-alpha-(t-butoxycarbonyl)-l-lysine-epsilon-LCA, the amidated and nonamidated forms of LCA, as well as synthetically prepared LCA adducts with ovalbumin and lysozyme. Proteins tagged with LCA in the liver of bile duct-ligated rats were isolated by immunoprecipitation using these antibodies. Proteins were isolated by two-dimensional electrophoresis, and their structure was identified using matrix-assisted laser desorption ionization time-of-flight mass spectrometry and computer-assisted programs. Proteins labeled with LCA were Rab-3, Rab-12, Rab-16, and M-Ras. Rab proteins are Ras-like small GTP binding proteins that regulate vesicle trafficking pathways. The covalent binding of the Rab proteins with LCA may influence vesicular transport or binding of vesicles to their cognate membrane and may contribute to LCA-induced liver toxicity.     

Identification of differentially expressed proteins in poplar leaves induced by Marssonina brunnea f. Sp. Multigermtubi

Black spot disease in poplar is a disease of the leaf caused by fungus. The major pathogen is Marssonina brunnea f. sp. multigermtubi. To date, little is known about the molecular mechanism of poplar （M. brunnea） interaction. In order to identify the proteins related to disease resistance and understand its molecular basis, the clone ＂NL895＂ （P. euramericana CL＂NL895＂）, which is highly resistant to M. brunnea f. sp. multigermtubi, was used in this study. We used two-dimensional gel electrophoresis （2-DE） and mass spectrometry （MS） to identify the proteins in poplar leaves that were differentially expressed in response to black spot disease pathogen, M. brunnea f. sp. multigermtubi. Proteins extracted from poplar leaves at 0, 12, 24, 48, and 72 h after pathogen-inoculation were separated by 2-DE, About 500 reproducible protein spots were detected, of which 40 protein spots displayed differential expression in levels and were subjected to Matrix assisted laser desorption/ionization time of flight mass spectrometry （MALDI-TOF MS） followed by database searching. According to the function, the identified proteins were sorted into five categories, that is, protein synthesis, metabolism, defense response and unclassified proteins.     

后基因组时代的植物蛋白质组学

蛋白质组学是后基因组时代功能基因组学研究的新兴学科和热点领域.简要介绍了蛋白质组学产生的科学背景、研究内容和研究方法.重点综述了植物个体水平、组织、器官和亚细胞水平蛋白组研究,植物蛋白质组学在植物遗传多样性、遗传突变体、植物的逆境生理等方面的研究进展.最后展望了今后的发展前景.     

Proteomic analyses of the Xiphophorus Gordon-Kosswig melanoma model

Interspecies hybridization between the platyfish X. maculatus Jp 163 A, and the swordtail X. helleri (Sarabia), generates F(1) hybrids with pronounced melanin pigmentation. Backcrossing of F(1) hybrids with the X. helleri parent results in 25% of progeny that will spontaneously develop melanoma. We have applied proteomic methods to this Gordon-Kosswig (G-K) melanoma model to identify candidate proteins that exhibit modulated expression in fin tissue due to interspecies hybridization and progression of hybrid tissues to spontaneous melanoma. Difference Gel Electrophoresis (DIGE) was used to minimize the variability commonly observed in quantitative analyses of comparative protein samples. Following identification of up- or down-regulated protein expression by DIGE, candidate protein spots were identified by mass spectrometric sequencing. Several protein expression differences displayed in interspecies hybrids were identified and compared to distinct differences that occur upon backcrossing and progression to melanoma. These studies are important for the identification of distinct biochemical pathways involved in the variety of Xiphophorus interspecies hybrid tumor models.     

Identification of a novel, highly variable amino-terminal amino acid sequence element in the nuclear intermediate filament protein lamin B(2) from higher vertebrates

By comparing newly available cDNA sequences of the human intermediate filament protein lamin B(2) with published sequences, we have identified an additional translation initiation codon 60 nucleotides upstream of the previously assumed translation start. In addition, corresponding sequences were identified in the chimpanzee, mouse, rat and bovine genes and cDNAs, respectively. Therefore, we generated antibodies against these potential 20 new amino acids of the human sequence. By immunoblot analysis and immunofluorescence microscopy we show that human lamin B(2) is indeed synthesized as a longer version than previously reported, because it contains these additional 20 amino acids. Notably, the sequence homology to mouse, rat and bovine lamin B(2) is significantly lower in this segment than in that between the second methionine codon and the start of the alpha-helical rod indicating that the tip of the "head" is engaged in more species-specific functions. Forced expression of the GFP-tagged authentic "long" and the 20 amino acid shorter version of lamin B(2) in human cultured SW-13 cells demonstrated that both the longer and the shorter version are properly integrated into the nuclear lamina, although the shorter version exhibited a tendency to disturb envelope architecture at higher expression levels.     

Identification of 4-hydroxynonenal-modified retinal proteins induced by photooxidative stress prior to retinal degeneration

4-Hydroxynonenal (4-HNE) is a reactive aldehyde species generated endogenously from the nonenzymatic oxidation of n-6 polyunsaturated fatty acids under physiological conditions. We have reported that intense white light exposure increases 4-HNE-protein modification in the retina prior to the onset of photoreceptor cell apoptosis. To understand the molecular mechanism(s) underlying the retinal degeneration induced by photooxidative stress, we identified 4-HNE-modified retinal proteins using a proteomic approach. Albino rats were exposed to 5 k lx white fluorescent light for 3 h and retinas were removed 24 h later and pooled. By Western dot blot analysis, the total intensity of 4-HNE-modified proteins was increased 1.5-fold following the exposure compared to dim light controls. In two independent sets of two-dimensional gel electrophoresis/Western blots followed by peptide mass fingerprinting (PMF), nine proteins including voltage-dependent anion channel, enolase 1, aldolase C, crystallins A and βB3, heterogeneous nuclear ribonucleoprotein A2/B1, albumin, and glutamine synthetase were identified. We observed that 4-HNE modifications of retinal proteins are specific to a particular set of proteins rather than random events on abundant proteins. By immunohistochemistry, localization of 3 identified proteins overlapped with immunoreactivity of 4-HNE-modified proteins in light-exposed retinas. Intense light exposure increases 4-HNE-protein modifications on specific retinal proteins in several functional categories including energy metabolism, glycolysis, chaperone, phototransduction, and RNA processing. Together with previous reports that 4-HNE modification changes protein activities, these results suggest a close association of 4-HNE-protein modifications with the initiation of light-induced retinal degeneration.     

Proteomics analysis of cerebral cortex in Wistar rats

To analyze the protein expression pattern of the cerebral cortex in Wistar rats using the proteomics approach, proteins were separated by two-dimensional gel electrophoresis, stained with Coomassie brilliant blue and digested with trypsin. Then, we analyzed the peptide section using a matrix-assisted laser desorption/ionization time of flight mass spectrometry (MALDI-TOF-MS) and identified the protein by indexing special database (SwissProt) according to the finger printing of the peptide quality. Eighty-four protein spots were identified, including metabolic enzymes, skeleton proteins, heat shock proteins, antioxidant proteins, signaling proteins, proteasome related proteins, neuron and glial specific proteins and serum associated proteins. The result of this study enriches the database of the proteome in the cerebral cortex of rats and lays a foundation for further research of neurological disorders in rat models. __________ Translated from Acta Biophysica Sinica, 2007, 23 (1): 151–156 [译自: 生物物理学报]     

Recombinant subunits as tools for the structural and functional characterization of Echinococcus granulosus antigen B

Antigen B (AgB) is a major protein component of the Echinococcus granulosus metacestode. It is oligomeric and this raises several questions regarding the subunit structure and composition of AgB. Several genes that encode different AgB subunits have been identified, and some of these have been cloned and expressed to produce recombinant subunits. The study of these recombinant subunits may provide new insights into the structure, physical-chemical properties, and functional aspects of AgB. Like native AgB, the AgB8/1, AgB8/2, and AgB8/3 recombinant subunits produced in our laboratory form 120-160 kDa oligomers that have stable secondary structures, are strongly antigenic and immunogenic, and selectively bind hydrophobic compounds. Here, we review these results and discuss their implications for the elucidation of the structure and function of AgB. This includes a possible role for AgB in host-parasite interactions.     

Hydrogen/deuterium exchange mass spectrometric analysis of conformational changes accompanying the assembly of the yeast prion Ure2p into protein fibrils

The Ure2 protein from baker's yeast (Saccharomyces cerevisiae) has prion properties. In vitro, at neutral pH, soluble Ure2p forms long, twisted fibrils. Two models have been proposed to account for Ure2p polymerization. The first postulates that a segment of 70 amino acid residues in the flexible N-terminal domain from different Ure2p molecules forms a parallel superpleated beta-structure running along the fibrils. The second hypothesizes that assembly of full-length Ure2p is driven by limited conformational rearrangements and non-native inter- and intramolecular interactions. The knowledge of the three-dimensional structure of the fibrillar form of Ure2p is critical for understanding the molecular events leading to the polymerization of soluble Ure2p into fibrils and hence for the design of inhibitors that might have therapeutic potential as yeast prions possessing domains rich in N and Q residues, similar to huntingtin. Solvent-accessibility studies using hydrogen/deuterium exchange monitored by mass spectrometry (HXMS) can provide insights into the structure of the fibrillar form of Ure2p and characterize at the molecular level the conformational rearrangements that occur upon assembly, in particular through the identification of protected regions and their localization in the overall structure of the protein. We have analyzed the changes in Ure2p structure associated with its assembly into fibrils using HXMS. The deuterium incorporation profile along the sequence allows the identification of the regions that exhibit the most important conformational change. Our data reveal that Ure2p undergoes minor structural changes upon assembly. While polypeptides [82-92] and [13-37] exhibit significant increased and decreased exposure to the solvent, respectively, no marked change was observed for the rest of the protein upon assembly. Our results afford new insights into the conformational rearrangements that lead to the assembly of Ure2p into fibrils and the propagation of the [URE3] element in yeast.     

Tryptophan 334 oxidation in bovine cytochrome c oxidase subunit I involves free radical migration

A single tryptophan (W(334(I))) within the mitochondrial-encoded core subunits of cytochrome c oxidase (CcO) is selectively oxidized when hydrogen peroxide reacts with the binuclear center. W(334(I)) is converted to hydroxytryptophan as identified by reversed-phase HPLC-electrospray ionization tandem mass spectrometry analysis of peptides derived from the three SDS-PAGE purified subunits. Total sequence coverage of subunits I, II and III was limited to 84%, 66% and 54%, respectively. W(334(I)) is located on the surface of CcO at the membrane interface. Two other surface tryptophans within nuclear-encoded subunits, W(48(IV)) and W(19(VIIc)), are also oxidized when hydrogen peroxide reacts with the binuclear center (Musatov et al. (2004) Biochemistry 43, 1003-1009). Two aromatic-rich networks of amino acids were identified that link the binuclear center to the three oxidized tryptophans. We propose the following mechanism to explain these results. Electron transfer through the aromatic networks moves the free radicals generated at the binuclear center to the surface-exposed tryptophans, where they produce hydroxytryptophan.     

Proteomic Alterations of Antarctic Ice Microalga Chlamydomonas sp. Under Low-Temperature Stress

Antarctic ice microalga can survive and thrive in cold channels or pores in the Antarctic ice layer. In order to understand the adaptive mechanisms to low temperature, in the present study we compared two-dimensional polyacrylamide gel electrophoresis （2-DE） profiles of normal and low temperature-stressed Antarctic ice microalga Chlamydomonas sp. cells. In addition, new protein spots induced by low temperature were identified with peptide mass fingerprinting based on matrix-assisted laser desorption/ionization time-of-flight mass spectrometry （MALDI-TOF-MS） and database searching. Well-resolved and reproducible 2-DE patterns of both normal and low temperature-stressed cells were acquired. A total of 626 spots was detected in control cells and 652 spots were detected in the corresponding low temperature-stressed cells. A total of 598 spots was matched between normal and stressed cells. Two newly synthesized proteins （a and b） in low temperature-stressed cells were characterized. Protein spot A （53 kDa, pl 6.0） was similar to isopropylmalate/homocitrate/citramalate synthases, which act in the transport and metabolism of amino acids. Protein spot b （25 kDa, pl 8.0） was related to glutathione S-transferase, which functions as a scavenger of active oxygen, free radicals, and noxious metabolites. The present study is valuable for the application of ice microalgae, establishing an ice microalga Chlamydomonas sp. proteome database, and screening molecular biomarkers for further studies.     

A comparative approach towards thylakoid membrane proteome analysis of unicellular green alga Scenedesmus obliquus

The chlorophyll (Chl)-containing membrane protein complexes from the green alga Scenedesmus obliquus have been isolated from the thylakoid membranes by solubilization with dodecyl-β-maltoside and fractionation using a sucrose density gradient. The Chl-containing protein fractions were characterized by absorption spectroscopy, tricine SDS PAGE, BN-PAGE, and dynamic light scattering (DLS). BN-PAGE showed the presence of seven protein complexes with molecular weights in the range of 68, 118, 157, 320, 494, 828 and 955 kDa, respectively. Furthermore, light scattering reveals the simultaneous presence of particles of different sizes in the 3-4 nm and 6.0-7.5 nm range, respectively. The smaller size is related to the hydrodynamic radius of the trimer Light Harvesting Complex (LHCII), whereas the larger size is associated with the presence of photosystem I and photosystem II reaction centers. Additionally, functional information regarding protein-protein interactions was deconvoluted using coupling 2-D BN-PAGE, MALDI-TOF MS and a detailed mapping of S. obliquus photosynthetic proteome of the solubilized thylakoid membranes is therefore presented.     

Allosteric signaling in the biotin repressor occurs via local folding coupled to global dampening of protein dynamics

The biotin repressor is an allosterically regulated, site-specific DNA-binding protein. Binding of the small ligand bio-5′-AMP activates repressor dimerization, which is a prerequisite to DNA binding. Multiple disorder-to-order transitions, some of which are known to be important for the functional allosteric response, occur in the vicinity of the ligand-binding site concomitant with effector binding to the repressor monomer. In this work, the extent to which these local changes are coupled to additional changes in the structure/dynamics of the repressor was investigated using hydrogen/deuterium exchange coupled to mass spectrometry. Measurements were performed on the apo-protein and on complexes of the protein bound to four different effectors that elicit a range of thermodynamic responses in the repressor. Global exchange measurements indicate that binding of any effector to the intact protein is accompanied by protection from exchange. Mass spectrometric analysis of pepsin-cleavage products generated from the exchanged complexes reveals that the protection is distributed throughout the protein. Furthermore, the magnitude of the level of protection in each peptide from hydrogen/deuterium exchange correlates with the magnitude of the functional allosteric response elicited by a ligand. These results indicate that local structural changes in the binding site that occur concomitant with effector binding nucleate global dampening of dynamics. Moreover, the magnitude of dampening of repressor dynamics tracks with the magnitude of the functional response to effector binding.     

Comparative analysis of secreted proteins from normal and preeclamptic trophoblastic cells using proteomic approaches

Preeclampsia (PE) is a pathology of pregnancy which represents the main cause of maternal and perinatal morbidity and mortality. Defective placentation is the first event of this pathology. The purpose of this study was to identify the proteins secreted by cytotrophoblastic cells (CTB) using proteomic approach that are associated with PE. Comparison of secreted proteins by mass spectrometry allowed us to identify 21 proteins which were significantly differentially secreted by control and PE CTB. One protein has been detected exclusively in supernatant of control CTB and was identified as factor XIII chain A. To determine if this observation is due to a difference of protein secretion or gene expression, its mRNA was quantified in all CTB. We found that it was significantly decreased in PE CTB compared to control. Collectively, these data suggest that decrease of factor XIII chain A might be associated with development of PE.     

Metabolism controls dimerization of the chloroplast FoF1 ATP synthase in Chlamydomonas reinhardtii

Dimers and oligomers of F-type ATP synthases have been observed previously in mitochondria of various organisms and for the CF(o)F(1) ATP synthase of chloroplasts of Chlamydomonas reinhardtii. In contrast to mitochondria, however, dimers of chloroplast ATP synthases dissociate at elevated phosphate concentration. This suggests a regulation by cell physiological processes. Stable isotope labeling of living cells and blue-native PAGE have been employed to quantitate changes in the ratio of monomeric to dimeric CF(o)F(1) ATP synthase. Chlamydomonas reinhardtii cells were cultivated photoautotrophically in the presence of (15)N and photomixotrophically at natural (14)N abundance, respectively. As compared to photoautotrophic growth, an increased assembly of ATP synthase dimers on the expense of preexisting monomers during photomixotrophic growth was observed, demonstrating a metabolic control of the dimerization process.