Characterization of the human urinary proteome: a method for high-resolution display of urinary proteins on two-dimensional electrophoresis gels with a yield of nearly 1400 distinct protein spots

The abundance profile of the human urinary proteome is known to change as a result of diseases or drug toxicities, particularly of those affecting the kidney and the urogenital tract. A consequence of such insults is the ability to identify proteins in urine, which may be useful as quantitative biomarkers. To succeed in discovering them, reproducible urine sample preparation methods and good protein resolution in two-dimensional electrophoresis (2-DE) gels for parallel semiquantitative protein measurements are desirable. Here, we describe a protein fractionation strategy enriching proteins of molecular masses (M(r)) lower than 30 kDa in a fraction separate from larger proteins. The fraction containing proteins with M(r)s higher than 30 kDa was subsequently subjected to immunoaffinity subtraction chromatography removing most of the highly abundant albumin and immunoglobulin G. Following 2-DE display, superior protein spot resolution was observed. Subsequent high-throughput mass spectrometry analysis of ca. 1400 distinct spots using matrix-assisted laser desorption/ionization-time of flight peptide mass fingerprinting and liquid chromatography-electrospray ionization tandem mass spectrometry lead to the successful identification of 30% of the proteins. As expected from high levels of post-translational modifications in most urinary proteins and the presence of proteolytic products, ca. 420 identified spots collapsed into 150 unique protein annotations. Only a third of the proteins identified in this study are described as classical plasma proteins in circulation, which are known to be relatively abundant in urine despite their retention to a large extent in the glomerular blood filtration process. As a proof of principle that our urinary proteome display effort holds promise for biomarker discovery, proteins isolated from the urine of a renal cell carcinoma patient were profiled prior to and after nephrectomy. Particularly, the decrease in abundance of the kininogen 2-DE gel spot train in urine after surgery was striking.     

Wheat leaf proteome analysis using sequence data of proteins separated by two-dimensional electrophoresis

Identifying wheat leaf protein expression is a major challenge of functional genomics. Using two-dimensional gel electrophoresis 541 wheat leaf proteins were separated and 55 of them were sequenced by nano liquid chromatography-tandem mass spectrometry. Peptide sequence data were screened against protein banks and expressed sequence tag public banks. Among these 55 spots, 20 proteins were found in wheat and 21 in other grass families (http://www.ncbi.nlm.nih.gov/). Twelve proteins showed similarities with other eukaryotic plant species. One protein showed homology to a bacterial sequence and another protein remained unknown. In 18 cases a significant score was found for the wheat TUC (Tentative Unique Contigs) of the PlantGDB (http://www.plantgdb.org/) data. In several cases, different spots were identified as corresponding to the same protein that can probably be attributed to the hexaploid structure of wheat. The identified proteins were classified in six groups and their role is discussed. Most of them (31/55) are involved in carbohydrate metabolism.     

An electroblotting apparatus for multiple replica technique and identification of human serum proteins on micro two-dimensional gels

A new apparatus for electrophoretic transfer of proteins from micro polyacrylamide slab gels has been developed. The apparatus enabled the easy changing of nitrocellulose sheets and was suited for obtaining multiple blots from a gel. Electrophoretic conditions were determined so that all of the blots obtained sequentially from one slab gel were successfully used to visualize specific proteins irrespective of their molecular weight. Combining the transfer technique with the technique of parallel micro two-dimensional electrophoresis, 20 blots could be obtained within 1 h of electroblotting time. The locations of 28 human serum proteins were determined simultaneously on these blots using commercial specific antisera.     

A rice protein library: a data-file of rice proteins separated by two-dimensional electrophoresis

Proteins extracted from embryos, endosperms and leaves of rice were separated by two-dimensional electrophoresis and relative molecular weights and isoelectric points were determined. The separated proteins were electroblotted onto a polyvinylidene difluoride membrane and 85 electroblotted proteins were analyzed by a gas-phase protein sequencer. The N-terminal amino-acid sequences of 27 out of 85 proteins were determined in this manner. The N-terminal regions of the remaining proteins could not be sequenced and they were inferred to have a blocking group at the N-terminus. Among proteins, 11 could be sequenced after deblocking by in situ treatment with pyroglutamyl peptidase. The internal amino-acid sequences of 23 proteins were determined by sequence analysis of peptides obtained by Cleveland peptide mapping. The amino-acid sequences determined here were compared with those of known plant and animal proteins. The concanavalin A-peroxidase method was used to determine whether the 85 proteins were glycosylated and the diagonal electrophoresis method was used to determine whether they contained disulphide bonding. Finally, we constructed a data-file of rice proteins including information on relative molecular weight, isoelectric point, amino-acid sequence, sequence homology, glycosylation, and the presence of disulphide bonding.     

Sequence information and preparation of resolved by; two-dimensional gel electrophoresis: no longer just spots on gels

In 1975 O'Farrell described, in detail, a procedure to separate proteins by polyacrylamide gel electrophoresis in two dimensions. This powerful new technique relied on two characteristics of proteins: charge and molecular mass. In the first dimension, proteins were separated on the basis of net charge in a pH gradient by isoelectric focusing, and in the second dimension the proteins were further fractionated exclusively on the basis of their molecular mass by SDS gel electrophoresis. Since two-dimensional gel electrophoresis (2DGE) has a resolving power of at least 20 fold greater than one-dimensional electrophoresis, it has found wide spread application in modern biological research. However, beyond the detection of a given protein, 2DGE provides little additional information about a specific protein other than molecular mass, isoelectric point, and approximate relative abundance. In recent years, the development of new technologies have made it possible to directly obtain sequence information, and produce specific antisera for proteins resolved by 2DGE. These new technological developments serve to further increase the power and utility of 2DGE in the analysis of proteins of importance to plant physiology.     

Concanavalin A chromatography coupled to two-dimensional gel electrophoresis improves protein expression studies of the serum proteome

In the present study, we show a simple method to analyse human serum proteins using Concanavalin A (Con A) chromatography coupled to two-dimensional gel electrophoresis. Serum samples were separated into two fractions, one mainly containing non-glycosylated and O-glycosylated proteins and the other enriched in N-glycosylated proteins. Both fractions were subjected to two-dimensional gel electrophoresis, and the obtained maps were analysed. The method presented here improves the resolution of the serum proteome, increasing the number of visualized spots over two times and allowing the detection of proteins with lower abundance in serum. We have proved the feasibility of the method comparing the N-glycoprotein fraction of serum from donors and colorectal cancer (CRC) patients.     

Direct chemiluminescent imaging detection of human serum proteins in two-dimensional polyacrylamide gel electrophoresis

A novel chemiluminescence (CL)-based imaging method capable of directly detecting proteins in polyacrylamide gels after electrophoresis is proposed. Human serum proteins are presently detected by a direct CL imaging method after native 2-D PAGE. As a consequence, some proteins, including haptoglobin (Hp), Hp precursor, hemopexin (Hpx) precursor, Ig alpha-1 chain C region, and Complement C3 precursor can be detected and identified by MS and MS/MS techniques. These proteins are all acute phase proteins, which have been defined as biomarkers for certain diseases. Moreover, serum proteins from healthy people and cirrhotic patients were analyzed. A decrease in Hp spots for cirrhotic patients could be confirmed. The CL imaging conditions were optimized, including the concentrations of H(2)O(2) and luminol. The process of CL detection of proteins is simple, and there is no need for specialized equipment. In comparison with the traditional CBB-R250 staining method, the detection sensitivity was improved and the detection period decreased about 70 times. Hence, this technique possesses potentials as a rapid, convenient, and inexpensive analytical technique for protein detection and for the diagnosis of diseases.     

The determination of similarities in amino acid composition among proteins separated by two-dimensional gel electrophoresis

A simple and rapid procedure has been developed to determine similarities in amino acid composition among cellular proteins separated by two-dimensional gel electrophoresis. Cells in tissue culture are simultaneously labeled with two different amino acids each tagged with a different radioisotope. The proteins are then separated on two-dimensional gels and their location on the gels determined by Coomassie-blue staining or autoradiography. Elution of the protein from the appropriate region of the gel followed by liquid scintillation counting yields an isotope ratio which reflects the ratio of the two amino acids in the protein. Examples of the use of this technique in analyzing mutant proteins, proteins altered by carbamylation, and cell proteins with similar amino acid composition (e.g., actin and tubulin) are given.     

Mapping of phosphorylated proteins on two-dimensional polyacrylamide gels using protein phosphatase

This study developed an enzymatic method for high-throughput mapping of phosphoproteins on two-dimensional (2-D) polyacrylamide gels. Proteins of cultured rat skin fibroblasts were divided into two aliquots, one of which was dephosphorylated using recombinant lambda protein phosphatase and the other was not treated with the enzyme. The two aliquots were then subjected to 2-D electrophoresis. Phosphoproteins could be mapped on the 2-D gel of the nontreated aliquot by comparing the gels of the two aliquots, because the phosphoproteins in the treated aliquot shifted to more basic positions on the gel. This technique revealed that approximately 5% of the detectable proteins were phosphorylated. Fourteen phosphoproteins were identified by mass spectrometry, including proteasome component C8 and small glutamine-rich tetratricopeptide repeat-containing protein. Furthermore, the extent of phosphorylation of two actin modulating proteins, destrin and cofilin, was found to be significantly reduced when the cells were chemically or enzymatically detached from the culture dishes. The method developed by this study can generally be applied to all biological materials and is useful for high-throughput mapping of phosphoproteins in proteome research.     

Salt-independent adsorption of human serum proteins on cyanocarbon gels

Electron donor acceptor gels based on cyanocarbons have been tested for human serum protein adsorption in the absence of salt-promotion by water-structuring salt. This phenomenon was compared with a normal adsorption process in the presence of salt. The tricyanoaminopropene–divinyl sulfone–agarose displayed unusual protein adsorption properties as binding could occur both independently or dependently of the salt-promotion. The absence of hydrophobic or ionic character of the salt-independent interaction suggests an electron donor acceptor adsorption mechanism which is shown, for the first time, to occur independently of salt-promotion in aqueous solution. Study of the protein adsorption specificity showed similar protein selectivity for the fractions adsorbed in both conditions.     

Solubilization of membrane proteins for two-dimensional gel electrophoresis: identification of sarcoplasmic reticulum membrane proteins

Solubilization of membrane proteins for two-dimensional electrophoresis (2DE) is very difficult. In this study, we report the use of 1,2-diheptanoyl-sn-glycero-3-phosphatdiyl choline (DHPC) as a detergent to solubilize integral membrane proteins for 2DE. Rat ventricular microsomal fractions enriched with sarco(endo)plasmic reticulum (SR) membrane proteins were used as a model system. Compatibility of DHPC with a high concentration of urea increases the solubility of proteins compared with sulphobetaines or ASB-14. Peptide mass analysis assisted in the identification of key SR membrane proteins including SR Ca(2+) ATPase and other membrane proteins, which have not previously been reported on 2DE. These results suggest that DHPC is a better detergent for solubilizing membrane proteins and may be useful in generating proteomic maps for most complex organelles including SR.     

Genetic analysis of human lymphocyte proteins by two-dimensional gel electrophoresis:

Summary Approximately 250 phytohemagglutinin (PHA)-stimulated peripheral blood lymphocyte polypeptides from three unrelated healthy males were compared by high-resolution two-dimensional gel electrophoresis and double-label autoradiography. Comparisons by all possible pairwise combinations of [¹⁴C]leucine-labeled proteins from an individual and [³H]leucine-labeled proteins from another revealed that only three polypeptides differed qualitatively among the three individuals. The degree of variation in lymphocyte polypeptides between different individuals was similar to that in fibroblast polypeptides reported previously. Among the three variant polypeptides, two polypeptides with mol.wt. 64,000 and mol. wt. 37,000 coexisted with a polypeptide with the same molecular weight, and they showed the behavior expected of two allelic gene products separated in the isoelectric focusing dimension by charge differences. Analysis of [¹⁴C]leucine labeled peripheral blood lymphocyte proteints, from the parents of each individual, by two-dimensional gel electrophoresis indicated that the variant polypeptides with mol. wt. 64,000 and mol. wt. 37,000 in the propositus were inherited from one of his parents. The data indicate that genetic analysis of PHA-stimulated peripheral blood lymphocyte proteins is feasible by high-resolution two-dimensional gel electrophoresis in combination with double-label autoradiography and pedigree analysis.     

Genetic analysis of human lymphocyte proteins by two-dimensional gel electrophoresis:

Summary Three different electrophoretic types (1-1, 2-1 and 2-2) of a human cellular polypeptide with molecular weight of 31000 have been identified by the analysis of PHA-stimulated peripheral blood lymphocyte proteins using high resolution two-dimensional gel electrophoresis. Family and population studies indicate that the three phenotypes of the polypeptide are determined by two common alleles at a single autosomal locus. The 31k polypeptide appears to be present as a monomer in the cytosol in a wide range of different cell types, including permanent lymphoblastoid cell lines, fibroblasts and HeLa cells. In an individual with the 31k polypeptide type 2-2, the phenotypes of adenosine deaminase and uridine monophosphate kinase were both type 1. These data indicate that the 31K polypeptide is a new polymorphic protein encoded by a new autosomal locus. It is proposed that the polypeptide and its locus be temporarily designated cytosol 31k polypeptide (C31k polypeptide) and C31P, respectively. In a Japanese population, the gene frequencies of C31P ¹ and C31P ² were 0.940 and 0.060, respectively. The C31k polypeptide type 2-2 appears to be a molecular weight variant as well as a charge variant.     

Proteomic analysis of human serum by two-dimensional differential gel electrophoresis after depletion of high-abundant proteins

Two-dimensional differential gel electrophoresis (2-D DIGE) was used to analyze human serum following the removal of albumin and five other high-abundant serum proteins. After protein removal, serum was analyzed by SDS-PAGE as a preliminary screen, and significant differences between four high-abundant protein removal methods were observed. Antibody-based albumin removal and high-abundant protein removal methods were found to be efficient and specific. To further characterize serum after protein removal, 2-D DIGE was employed, enabling multiplexed analysis of serum through the use of three fluorescent protein dyes. Comparison between crude serum and serum after removal of high-abundant proteins clearly illustrates an increase in the number of lower abundant protein spots observed. Approximately 850 protein spots were detected in crude serum whereas over 1500 protein spots were exposed following removal of six high-abundant proteins, representing a 76% increase in protein spot detection. Several proteins that showed a 2-fold increase in intensity after depletion of high-abundant proteins, as well as proteins that were depleted during abundant protein removal methods, were further characterized by mass spectrometry. This series of experiments demonstrates that high-abundant protein removal, combined with 2-D DIGE, is a practical approach for enriching and characterizing lower abundant proteins in human serum. Consequently, this methodology offers advances in proteomic characterization, and therefore, in the identification of biomarkers from human serum.     

Identification of mitochondrial proteins on two-dimensional electrophoresis gels of extracts of adult Drosophila melanogaster

Several hundred proteins have been resolved on two-dimensional gels of extracts of [³⁵S]methionine-labeled adult Drosophila melanogaster. 27 of these polypeptides disappear from the gel pattern after feeding the K⁺ ionophore nonactin. These proteins have been identified as mitochondrial, since the two-dimensional gel pattern of extracts of isolated mitochondria correlates well with the pattern of the proteins missing from that of nonactin-treated flies. Nine new proteins also appear on the two-dimensional gels of the extracts from the nonactin-treated flies. Apparently, these nine proteins are precursors of the mature mitochondrial forms. These particular data support the concept that processing of many of the cytoplasmically synthesized mitochondrial proteins requires a specific membrane potential, and that some of these proteins are modified intramitochondrially. However, using [³⁵S]methionine incorporation techniques, not all labeled polypeptides disappear from mitochondria during such treatment. Feeding similarly radiolabeled flies with chloramphenicol, an inhibitor of mitochondrial protein synthesis, results in the disappearance of only one protein from the gel pattern with the concurrent appearance of a ‘new’ high-molecular-weight polypeptide. Collectively, these data show that a specific group of [³⁵S]methionine-labeled mitochondrial proteins can be identified by selective inhibition of mitochondrial function in whole cell protein maps of adult D. melanogaster.     

Extensive analysis of the human platelet proteome by two-dimensional gel electrophoresis and mass spectrometry

Platelets play a key role in the control of bleeding and wound healing, contributing to the formation of vascular plugs. Under pathologic circumstances, they are involved in thrombotic disorders, including heart disease. Since platelets do not have a nucleus, proteomics offers a powerful alternative approach to provide data on protein expression in these cells, helping to address their biology. In this publication we extend the previously reported analysis of the pI 4-5 region of the human platelet proteome to the pI 5-11 region. By using narrow pI range two-dimensional electrophoresis (2-DE) for protein separation followed by high-throughput tandem mass spectrometry (MS/MS) for protein identification, we were able to identify 760 protein features, corresponding to 311 different genes, resulting in the annotation of 54% of the pI 5-11 range 2-DE proteome map. We evaluated the physicochemical properties and functions of the identified platelet proteome. Importantly, the main group of proteins identified is involved in intracellular signalling and regulation of the cytoskeleton. In addition, 11 hypothetical proteins are reported. In conclusion, this study provides a unique inventory of the platelet proteome, contributing to our understanding of platelet function and building the basis for the identification of new drug targets.