Towards a comprehensive proteome of normal and malignant human colon tissue by 2-D-LC-ESI-MS and 2-DE proteomics and identification of S100A12 as potential cancer biomarker

The aim of this study was to characterize the proteome of normal and malignant colonic tissue. We previously studied the colon proteome using 2‐DE and MALDI‐MS and identified 734 proteins (Roeßler, M., Rollinger, W., Palme S., Hagmann, M.‐L., et al.., Clin. Cancer Res. 2005, 11, 6550–6557). Here we report the identification of additional colon proteins from the same set of tissue samples using a complementary nano‐flow 2‐D‐LC‐ESI‐MS. In total, 484 proteins were identified in colon. Of these, 252 had also been identified by the 2‐DE/MALDI‐MS approach, whereas 232 proteins were unique to the 2‐D‐LC‐ESI‐MS analysis. Comparing protein expression in neoplastic and normal colon tissue indicated elevated expression of several proteins in colorectal cancer, among them the well established tumor marker carcinoembryonic antigen, as well as calnexin, 40S ribosomal protein S15a, serpin H1, and S100A12. Overexpression of these proteins was confirmed by immunoblotting. Serum levels of S100A12 were determined by ELISA and were found to be strongly elevated in colorectal cancer patients compared to healthy individuals. We conclude, that 2‐D‐LC‐ESI‐MS is a powerful approach to identify and compare protein profiles of tissue samples, that it is complementary to 2‐DE/MALDI‐MS approaches and has the potential to identify novel biomarkers.     

In this issue: Proteomics – Clinical Applications 1/2008

In this issue of Proteomics you will find the following highlighted articles: Colon Cancer Complements to 2‐DE from 2‐D‐LC “When you have a good thing going, run with it” – Quote from paleolithic philosopher and hunting consultant. In this case, Thierolf et al. took a colon cancer sample set well‐characterized by 2‐DE‐MALDI PMF and ran it through a 2‐D‐LC‐ESI‐MS protocol. The samples of malignant and normal tissues from the same patient, analyzed by 2‐DE‐MALDI and mass fingerprinting (reported elsewhere) yielded 734 unique proteins. When the same tissue specimens were analyzed by 2‐D‐LC‐ESI‐MS, 484 proteins were identified, 232 of them new and 252 that had been ID’d in the earlier work. The two unique sets exhibited similar functional and ontological profiles, confirming the complementarity of the two methods. Using the data to select up‐regulated proteins for evaluation of potential for serving as biomarkers, they chose S100A12 as particularly interesting. An ELISA found that it was more sensitive but less discriminating than carcinoembryonic antigen. S100A12 is also an inflammation marker. Thierolf, M. et al., Proteomics Clin. Appl. 2008, 2, 11–22 Urinary bladder cancer: A proteomic approach Standing at number five on the US cancer frequency list, urinary bladder cancer costs almost $3 billion a year. No acceptable early detection tests have been developed – it seems no one will volunteer for a “routine” annual cystoscopy, so the 5‐year survival rate has stayed below 50% for many years. Several urinary biomarkers have been developed but fall short in their frequency of false positives or false negatives. Using 2‐DE/MALDI‐TOF MS and Ingenuity Systems’ Pathway Analysis software, Li et al. surveyed invasive urothelial carcinomas for up‐regulated proteins and settled on Choro­ideremia‐like protein (CHML) out of 21 candidates. Immunohistochemistry and Western blotting verified the specificity. The functional pathways found are part of the lipid metabolism, inflammation and molecular transport machinery and CHML is part of the Rab geranylgeranylation pathway. More work is needed to understand the diagnostic potential of CHML. Li, J. et al., Proteomics Clin. Appl. 2008, 2, 78–89. Angina: Looking for markers in all the right places Angina, the chest pain associated with heart attacks, has two forms: stable (SAP) and unstable (UAP). SAP is relieved by rest. UAP pain persists at rest and is often due to formation of a clot which can lead to major or fatal damage (ischemia, myocardial infarct). The ability to distinguish the two would be a boon to hospital emergency care facilities because admission and intensive care are not required for SAP. Brown et al. report here the use of anti‐leukocyte antibody arrays to analyze circulating cells by surface CD antigen type. Starting with 82 antibodies, they could readily distinguish healthy from SAP and UAP cases from 8 and 19 spot intensity differences, respectively. SAP and UAP could be separated with seven markers using spot intensity and cluster analysis, but not as cleanly, possibly because SAP has a tendency to convert to UAP. Brown, A. et al., Proteomics Clin. Appl. 2008, 2, 90–98.     

Cover Picture: Proteomics – Clinical Applications 1/2008

In this issue of Proteomics you will find the following highlighted articles: Colon Cancer Complements to 2‐DE from 2‐D‐LC “When you have a good thing going, run with it” – Quote from paleolithic philosopher and hunting consultant. In this case, Thierolf et al. took a colon cancer sample set well‐characterized by 2‐DE‐MALDI PMF and ran it through a 2‐D‐LC‐ESI‐MS protocol. The samples of malignant and normal tissues from the same patient, analyzed by 2‐DE‐MALDI and mass fingerprinting (reported elsewhere) yielded 734 unique proteins. When the same tissue specimens were analyzed by 2‐D‐LC‐ESI‐MS, 484 proteins were identified, 232 of them new and 252 that had been ID’d in the earlier work. The two unique sets exhibited similar functional and ontological profiles, confirming the complementarity of the two methods. Using the data to select up‐regulated proteins for evaluation of potential for serving as biomarkers, they chose S100A12 as particularly interesting. An ELISA found that it was more sensitive but less discriminating than carcinoembryonic antigen. S100A12 is also an inflammation marker. Thierolf, M. et al., Proteomics Clin. Appl. 2008, 2, 11–22 Urinary bladder cancer: A proteomic approach Standing at number five on the US cancer frequency list, urinary bladder cancer costs almost $3 billion a year. No acceptable early detection tests have been developed – it seems no one will volunteer for a “routine” annual cystoscopy, so the 5‐year survival rate has stayed below 50% for many years. Several urinary biomarkers have been developed but fall short in their frequency of false positives or false negatives. Using 2‐DE/MALDI‐TOF MS and Ingenuity Systems’ Pathway Analysis software, Li et al. surveyed invasive urothelial carcinomas for up‐regulated proteins and settled on Choro­ideremia‐like protein (CHML) out of 21 candidates. Immunohistochemistry and Western blotting verified the specificity. The functional pathways found are part of the lipid metabolism, inflammation and molecular transport machinery and CHML is part of the Rab geranylgeranylation pathway. More work is needed to understand the diagnostic potential of CHML. Li, J. et al., Proteomics Clin. Appl. 2008, 2, 78–89. Angina: Looking for markers in all the right places Angina, the chest pain associated with heart attacks, has two forms: stable (SAP) and unstable (UAP). SAP is relieved by rest. UAP pain persists at rest and is often due to formation of a clot which can lead to major or fatal damage (ischemia, myocardial infarct). The ability to distinguish the two would be a boon to hospital emergency care facilities because admission and intensive care are not required for SAP. Brown et al. report here the use of anti‐leukocyte antibody arrays to analyze circulating cells by surface CD antigen type. Starting with 82 antibodies, they could readily distinguish healthy from SAP and UAP cases from 8 and 19 spot intensity differences, respectively. SAP and UAP could be separated with seven markers using spot intensity and cluster analysis, but not as cleanly, possibly because SAP has a tendency to convert to UAP. Brown, A. et al., Proteomics Clin. Appl. 2008, 2, 90–98.     

Towards defining the whole salivary peptidome

We report the identification of 2294 peptides/proteins in whole saliva in the mass range between 700 and 16 000 Da by LC‐MS and MS/MS using a MALDI‐TOF/TOF mass spectrometer. Most of the identified peptides/proteins are originated from cellular debris or plasma components while only 26% (n = 607) correspond to salivary peptides/proteins species. In spite of the presence of the major salivary peptides in all samples from the six subjects analyzed, each individual presents a different pattern of fragments, many deriving from the same protein sequence. All our data, in particular the large number of fragments found, suggest high proteolytic activity insight the oral cavity. The analysis of samples by gelatin zymography showed that all saliva donors displayed multiple proteolytic bands, two identified as cathepsin D and G by MS. Analysis of the cleavage site distribution on the main peptide sequences based on contingency tables shows that the predominant cleavages occur between Gln‐Gly or Tyr‐Gly. These cleavages are largely associated with proline‐rich proteins peptides and with histatin 1 and P‐B peptide, respectively. However, depending on the peptide class, different cleavage hits were observed suggesting the presence of a set of proteases acting in different ways according to different peptide sequences. Comparing the number of cleavages involving all residues, it is possible to observe that 44% (±10%) of the observed cleavages in histatin, statherin and P‐B peptide in all individuals may be explained by cathepsin D, suggesting a major role for this enzyme in oral cavity proteolysis.     

Immunoproteomics: From biomarker discovery to diagnostic applications

Circulating antibodies reflect a molecular imprint of antigens that are related to autoimmune diseases, cancer or infection. Importantly, serum antibodies are useful clinical markers as they carry diagnostic information from all around the human body. Moreover, the amplification cascade governed by the humoral immune system causes a surplus of circulating antibodies after appearance of the corresponding (low abundance) antigen. In combination with the fact that antibodies are highly stable compared to many other serum proteins, they seem ideal to be implemented in clinical diagnostic assays for the detection of antigen-associated diseases. This review summarises advances in immunoproteomics with respect to technologies for biomarker discovery, with special emphasis on recently developed gel-free MS-based approaches, and looks forward to potential immunoproteomic applications in diagnostic medicine.     

Detection of colorectal adenoma and cancer based on transthyretin and C3a-desArg serum levels

Colorectal cancer is the second leading cause of cancer death, and it develops from benign colorectal adenomas in over 95% of patients. Early detection of these cancer precursors by screening tests and their removal can potentially eradicate more than 95% of colorectal cancers before they develop. To discover sensitive and specific biomarkers for improvement of pre‐clinical diagnosis of colorectal adenoma and cancer, we analysed in two independent studies (n = 87 and n = 83 patients) serum samples from colorectal cancer (stage III), colorectal adenoma and control patients using SELDI‐TOF‐MS. Extensive statistical analysis was performed to establish homogeneous patient groups based on their clinical data. Two biomarkers that were each able to distinguish control patients from either colorectal adenoma or colorectal cancer patients (p<0.001) were identified as transthyretin (pre‐albumin) and C3a‐desArg by MS/MS and were further validated by antibody‐based assays (radial immunodiffusion, ELISA). A combination of both proteins clearly indicated the presence of colorectal adenoma or carcinoma. Using a cut‐off of <0.225 g/L for transthyretin and >1974 ng/mL for C3a‐desArg, we found a sensitivity and specificity for colorectal adenoma of 96% and 70%, respectively.     

Evaluation of human antibody responses to keyhole limpet hemocyanin on a carbohydrate microarray

Purpose : Keyhole limpet hemocyanin (KLH) is used as a vaccine adjuvant, as a carrier protein for small haptens, and as a treatment for bladder cancer. Immunization with KLH produces antibodies to tumor‐associated carbohydrate antigens (TACAs) in animals, and these antibodies have been postulated as the basis of efficacy for bladder cancer treatment. The purpose of this study was to evaluate antibody responses to KLH in humans. Experimental design : A carbohydrate microarray was used to profile antibody responses in 14 individuals immunized with KLH plus alum adjuvant. Results : Eight out of fourteen individuals produced antibodies to at least one TACA. Increases to Lewis X, Lewis Y, GA1di, GM3, and sialyl Lewis A were observed in certain individuals, but, in general, antibody profiles were highly variable. Pre‐immunization antibody levels to a subset of array antigens had a statistically significant correlation with the magnitude of the antibody response to KLH. Conclusions and clinical relevance : Antibodies to TACAs can be produced in humans, but antibody profiles differ considerably from person to person, which may contribute to variable clinical responses with KLH. Pre‐treatment antibody levels to certain antigens may be useful for predicting which patients will respond favorably to KLH.     

In this issue: Proteomics – Clinical Applications 4/2008

In this issue of Proteomics you will find the following highlighted articles: MALDI and methyl groups take on lysosomal storage disease diagnosis Lysosomal storage disorders (LSD) result from the absence or loss of any of a wide variety of glycan‐processing enzymes that lead to accumulation of incompletely processed glyco‐molecules in lysosomes. Diagnosis of the particular type of LSD requires identification of the accumulated species, usually from urine. LSD diagnosis has been a target for many years, including use of GC/MS, TLC, NMR, HPLC, FACE and other techniques. Faid et al. take a simple approach that is quite successful and much less time consuming. After permethylating crude urine, a sample is first run on GC/MS to look for free sialic acid, an indicator of one set of diseases, then a cleaned up sample (C_1–8) is analyzed by MALDI/TOF to characterize glycoproteins and glycopeptides present. The glycans were further analyzed by sequential exoglucosidase digestion on the MALDI target. Sulfated glycocompound analysis requires a desulfation step prior to permethylation. Faid, V. et al., Proteomics Clin. Appl. 2008, 2, 528–542. Popular prostate problem receives piercing look Prostate cancer (PCa) is one of the most frequent male cancers. It is also one of the most frequently misdiagnosed cancers. Prostate specific antigen (PSA) has improved the accuracy somewhat but still generates 700 000 false positives requiring biopsies per year in the US. And very low PSA levels don’t assure freedom from PCa. In short, there is no good biomarker for PCa. Theodorescu et al. recognized that anything recovered from blood had a good chance of being at least partially degraded so they looked at first void urine as a more likely source of stable material. Applying capillary electrophoresis coupled to TOF‐MS, the authors developed an “informative” panel of eight peptides that distinguished between first void and mid‐stream samples and a PCa‐specific panel of 12 proteins that detected the disease. Incorporating the 12 proteins with age and free PSA, sensitivity was 91%, specificity 69%. Theodorescu, D. et al., Proteomics Clin. Appl. 2008, 2, 556–570. No candy in candidiasis Candida albicans is a unicellular yeast that is the third most common nosocomial agent in ICU’s, costing ～US$ 40 000 per incident. Early diagnosis of systemic candidiasis (SC) is crucial for successful control of the infection by antifungal therapies. Blood cultures are not fast and tissue biopsies are not sensitive but are the current “gold standards.” Pitarch et al. report here a serum protein marker for SC: anti‐Candida enolase (Eno1p) IgG. Comparing healthy with SC patients for antibodies against Candida cytoplasmic antigens, 15 antigens were recognized by the SC patients. The strongest response was to Eno1p which was the only antigen to produce a response in all 12 patients. The IgG was tested for its suitability as an antigen in Western and capture ELISA tests. Although the tests appear reliable for detecting SC, they were not good for prognosis. A considerable amount of work remains for full qualification of the test. Pitarch, A. et al., Proteomics Clin. Appl. 2008, 2, 596–618.     

Cover Picture: Proteomics – Clinical Applications 4/2008

In this issue of Proteomics you will find the following highlighted articles: MALDI and methyl groups take on lysosomal storage disease diagnosis Lysosomal storage disorders (LSD) result from the absence or loss of any of a wide variety of glycan‐processing enzymes that lead to accumulation of incompletely processed glyco‐molecules in lysosomes. Diagnosis of the particular type of LSD requires identification of the accumulated species, usually from urine. LSD diagnosis has been a target for many years, including use of GC/MS, TLC, NMR, HPLC, FACE and other techniques. Faid et al. take a simple approach that is quite successful and much less time consuming. After permethylating crude urine, a sample is first run on GC/MS to look for free sialic acid, an indicator of one set of diseases, then a cleaned up sample (C_1–8) is analyzed by MALDI/TOF to characterize glycoproteins and glycopeptides present. The glycans were further analyzed by sequential exoglucosidase digestion on the MALDI target. Sulfated glycocompound analysis requires a desulfation step prior to permethylation. Faid, V. et al., Proteomics Clin. Appl. 2008, 2, 528–542. Popular prostate problem receives piercing look Prostate cancer (PCa) is one of the most frequent male cancers. It is also one of the most frequently misdiagnosed cancers. Prostate specific antigen (PSA) has improved the accuracy somewhat but still generates 700 000 false positives requiring biopsies per year in the US. And very low PSA levels don’t assure freedom from PCa. In short, there is no good biomarker for PCa. Theodorescu et al. recognized that anything recovered from blood had a good chance of being at least partially degraded so they looked at first void urine as a more likely source of stable material. Applying capillary electrophoresis coupled to TOF‐MS, the authors developed an “informative” panel of eight peptides that distinguished between first void and mid‐stream samples and a PCa‐specific panel of 12 proteins that detected the disease. Incorporating the 12 proteins with age and free PSA, sensitivity was 91%, specificity 69%. Theodorescu, D. et al., Proteomics Clin. Appl. 2008, 2, 556–570. No candy in candidiasis Candida albicans is a unicellular yeast that is the third most common nosocomial agent in ICU’s, costing ～US$ 40 000 per incident. Early diagnosis of systemic candidiasis (SC) is crucial for successful control of the infection by antifungal therapies. Blood cultures are not fast and tissue biopsies are not sensitive but are the current “gold standards.” Pitarch et al. report here a serum protein marker for SC: anti‐Candida enolase (Eno1p) IgG. Comparing healthy with SC patients for antibodies against Candida cytoplasmic antigens, 15 antigens were recognized by the SC patients. The strongest response was to Eno1p which was the only antigen to produce a response in all 12 patients. The IgG was tested for its suitability as an antigen in Western and capture ELISA tests. Although the tests appear reliable for detecting SC, they were not good for prognosis. A considerable amount of work remains for full qualification of the test. Pitarch, A. et al., Proteomics Clin. Appl. 2008, 2, 596–618.     

SEREX, Proteomex, AMIDA, and beyond: Serological screening technologies for target identification

Despite the great body of knowledge about the aetiology, pathogenesis, risk factors, and associated molecular processes, cancer remains a prime health concern. Over the past decades scientific and medical research focused on the identification of biomarkers and target molecules for the diagnosis and therapy of cancer. Such markers may allow for improved and early diagnosis, as well as for immunotherapeutic approaches for cancer treatment. A plethora of technologies dedicated to the identification of target molecules was developed including those relying on a humoral response against tumour-associated antigens (TAA) in diseased individuals. As for other diseases, cancers elicit immune responses that result in the induction of T and B lymphocytes specific for tumour-associated proteins, largely self-antigens, but also those comprising viral and bacterial proteins. Cancer-specific serum antibodies are of great use for the isolation and subsequent identification of their cognate antigens. The present review will concentrate on three major serological target identification methods, i.e. SEREX, Proteomex, and AMIDA, concluding with a summary of the milestones in the clinical advancement and applications of serological TAA.     

Human pathogenic streptococcal proteomics and vaccine development

Gram-positive streptococci are non-motile, chain-forming bacteria commonly found in the normal oral and bowel flora of warm-blooded animals. Over the past decade, a proteomic approach combining 2-DE and MS has been used to systematically map the cellular, surface-associated and secreted proteins of human pathogenic streptococcal species. The public availability of complete streptococcal genomic sequences and the amalgamation of proteomic, genomic and bioinformatic technologies have recently facilitated the identification of novel streptococcal vaccine candidate antigens and therapeutic agents. The objective of this review is to examine the constituents of the streptococcal cell wall and secreted proteome, the mechanisms of transport of surface and secreted proteins, and describe the current methodologies employed for the identification of novel surface-displayed proteins and potential vaccine antigens.     

Proteins that underlie neoplastic progression of ulcerative colitis

Patients with ulcerative colitis (UC) have an increased risk for developing colorectal cancer. Because UC tumorigenesis is associated with genomic field defects that can extend throughout the entire colon, including the non‐dysplastic mucosa, we hypothesized that the same field defects will include abnormally expressed proteins. Here, we applied proteomics to study the protein expression of UC neoplastic progression. The protein profiles of colonic epithelium were compared with (i) UC patients without dysplasia (non‐progressors), (ii) non‐dysplastic colonic tissue from UC patient with high‐grade dysplasia or cancer (progressors), (iii) high‐grade dysplastic tissue from UC progressors, and (iv) normal colon. We identified differential protein expression associated with UC neoplastic progression. Proteins relating to mitochondria, oxidative activity, and calcium‐binding proteins were some of the interesting classes of these proteins. Network analysis discovered that Sp1 and c‐myc proteins may play roles in UC early and late stages of neoplastic progression, respectively. Two over‐expressed proteins in the non‐dysplastic tissue of UC progressors, carbamoyl‐phosphate synthase 1 and S100P, were further confirmed by immunohistochemistry analysis. Our study provides insight into the molecular events associated with UC neoplastic progression, which could be exploited for the development of protein biomarkers in fields of non‐dysplastic mucosa that identify a patient's risk for UC dysplasia.     

Proteomics integrated with Escherichia coli vector-based vaccines and antigen microarrays reveals the immunogenicity of a surface sialidase-like protein of Propionibacterium acnes

Proteomics is a powerful tool for the identification of proteins, which provides a basis for rational vaccine design. However, it is still a highly technical and time‐consuming task to examine a protein's immunogenicity utilizing traditional approaches. Here, we present a platform for effectively evaluating protein immunogenicity and antibody detection. A tetanus toxin C fragment (Tet‐c) was used as a representative antigen to establish this platform. A cell wall‐anchoring sialidase‐like protein (SLP) of Propionibacterium acnes was utilized to assess the efficacy of this platform. We constructed an Escherichia coli vector‐based vaccine by overexpressing Tet‐c or SLP in E. coli and utilized an intact particle of E. coli itself as a vaccine (E. coli Tet‐c or SLP vector). After ultraviolet (UV) irradiation, the E. coli vector‐based vaccines were administered intranasally into imprinting control region mice without adding exogenous adjuvants. For antibody detection, we fabricated antigen microarrays by printing with purified recombinant proteins including Tet‐c and SLP. Our results demonstrated that detectable antibodies were elicited in mice 6 weeks after intranasal administration of UV‐irradiated E. coli vector‐based vaccines. The antibody production of Tet‐c and SLP was significantly elevated after boosting. Notably, the platform with main benefits of using E. coli itself as a vaccine carrier provides a critical template for applied proteomics aimed at screening novel vaccine targets. In addition, the novel immunogenic SLP potentially serves as an antigen candidate for the development of vaccines targeting P. acnes‐associated diseases.     

Heavy hitting: Using water to label humans

Monitoring protein dynamics, compared to measuring static protein expression profiles taken with snapshot evaluations, have recently been the focus of proteomics studies examining tissue or blood samples where time course changes occur. Using deuterium oxide (²H₂O) to label amino acids is a useful method to monitor protein turnover rates. The synthesis rate for individual proteins is calculated from the rate of ²H incorporation into specific proteins analyzed by high resolution MS. In this issue, Wang and colleagues measured the plasma protein turnover dynamics in healthy humans by in vivo ²H₂O labeling [Wang, D. et al., Proteomics Clin. Appl. 2014, 8, 610–619]. The authors developed and validated a safe and accessible ²H₂O administration protocol to record the turnover dynamics of 542 plasma proteins using MS. Their study demonstrates a promising new way to evaluate plasma protein dynamics in clinical trials where such knowledge could help for prognosis and evaluating treatment efficacy.     

MS characterization of apheresis samples from rheumatoid arthritis patients for the improvement of immunoadsorption therapy - a pilot study

Identification of proteins from apheresis samples was performed by both SDS-PAGE and 2-D gel separation of eluted proteins from staphylococcal protein A-based immunoadsorption columns (Prosorba^®) followed by MS peptide mass fingerprinting and MS/MS peptide sequencing on a MALDI QIT TOF mass spectrometer. MS/MS peptide sequencing was performed in conjunction with a micro reversed phase HPLC configured with an online MALDI plate-spotting device. Apheresis treatment had been performed in three patients with longstanding therapy refractory rheumatoid arthritis. 2-D gels displayed ca. 500 spots representing proteins that were eluted from the Prosorba^® columns. From 54 gels, a total of 1256 protein spots had been picked and yielded in the identification of 56 non-redundant proteins without counting isoforms. Proteins from the eluates belong to five major groups comprising (i) immunoglobulins (IgG, IgA, IgM heavy and light chains; about 40% of the spots), (ii) proteins involved in coagulation, (iii) HDL/LDL-associated proteins, (iv) proteins from the complement system, and (v) acute phase proteins. MS analysis showed that the full-length C3 complement protein had been cleaved upon complement activation, presumably on the column, such that the anaphylatoxin C3a was produced and released during therapy. Our results are consistent with clinical observations on both patient responses to therapy and reported adverse events. For the first time, direct molecular information has become available to support mechanistic reasoning for the principle of function of staphylococcal protein A-based immunoadsorption therapy and for the explanation of adverse events. According to our results, removal and/or modulation of immune complexes together with complement activation can be regarded as the major events that are taking place during Prosorba^® therapy. In order to avoid complement activation and induction of an inflammatory cascade, we suggest the prevention of C3a anaphylatoxin-related reactions during immunoadsorption therapy.     

Identification of circulating endorepellin LG3 fragment: Potential use as a serological biomarker for breast cancer

Comparative proteome analysis was performed on the cultured media of human nontumor and malignant breast cell lines, Hs578Bst and Hs578T, respectively, in search of a serological biomarker(s) for breast cancer. Proteins in the conditioned media were separated by 2‐D PAGE and then visualized by silver‐staining. Eight proteins changed differentially by more than two‐fold were identified by MALDI‐TOF/TOF MS. Among the proteins identified, the terminal laminin‐like globular (LG3) domain of endorepellin, which was recently reported as an antiangiogenesis factor, was decreased in the cancer cell line. We confirmed the bone morphogenic protein‐1 (BMP‐1) mediated cleavage site on the N‐terminus of endorepellin LG3 fragment. This finding suggests that the LG3 fragment is specifically released by a BMP‐1 driven limited proteolytic process. The protein was also detected in plasma by Western blot analysis and selected reaction monitoring (SRM). The plasma level of the endorepellin LG3 fragment was significantly lower in breast cancer patients compared to healthy donors (p = 0.017; n = 12). The LG3 protein concentration in the control plasma was measured at approximately 3.7 pmol/mL compared to 1.8 pmol/mL in plasma from the cancer patients. We suggest that these results support the potential use of the endorepellin LG3 fragment as a new serological biomarker for breast cancer.     

Protein-induced changes during the maturation process of human dendritic cells: A 2-D DIGE approach

Dendritic cells (DCs) are unique antigen presenting cells, which upon maturation change from a specialized antigen‐capturing cell towards a professional antigen presenting cells. In this study, a 2‐D DIGE analysis of immature and mature DCs was performed, to identify proteins changing in expression upon maturation. The protein expression profile of immature and mature DCs, derived from CD14⁺ peripheral blood monocytes was investigated using two pH ranges (pH 4–7 and 6–9) (n = 4). Ninety one differentially expressed spots (p<0.01) were detected, from which we identified 74 spots (81.32%) corresponding to 41 different proteins. The proteins identified play a role in diverse processes, such as antigen processing/presentation, vesicle transport and cytoskeleton remodeling. In addition, a protein interaction network contained 29 (out of 41) proteins, suggesting that, although they functionally originate from distinct classes, these proteins are acting as a protein‐interactome. In conclusion, the proteins shown here to be altered in expression upon maturation are in line with the morphological and functional changes observed during the maturation process, providing a better understanding of the processes involved. This will open new avenues for investigating treatment regimens for immune‐associated disorders.     

Profiling the potential biomarkers for cell differentiation of pancreatic cancer using iTRAQ and 2-D LC-MS/MS

Pancreatic cancer is a highly lethal disease that is difficult to diagnose at early stage and even more difficult to cure. SW1990 and PANC-1 represent the two cancer cell lines, which are both derived from pancreatic duct, but at different cell differentiation stages. In this study, we applied the iTRAQ-labeling technology and 2-D strong cation exchange/reversed phase liquid chromatography – LC-MS/MS) to profile the secreted proteins of SW1990 and PANC-1 cells in a conditioned cell culture medium. A total of 401 proteins were identified by MS/MS and protein database searching, the percentages of these proteins predicted in the categories of plasma membrane, intracellular and secreted proteins were 29.2, 32.7 and 38.2%, respectively. Fifty six proteins were identified with unknown functions and 19 proteins were quantified with significant level changes between the two cancer cell lines under the specific cell condition with 12 proteins being up-regulated (>1.3-fold change) in PANC-1 (e.g. FLJ31222 protein, 97 kDa protein, type IV collagenase precursor, 38 kDa protein and centaurin) and seven proteins being up-regulated in SW1990 (e.g. fibroblast growth factor receptor substrate 2, putative p150, hypothetical protein LOC 654463 and LOC 55701). The proteins with significant level changes may provide a baseline to investigate mechanisms underlying the differentiation of two cell lines and can be further screened for better protein biomarkers in pancreatic cancer.     

Proteomic analysis of the response of the human neutrophil-like cell line NB-4 after exposure to anthrax lethal toxin

We used 2‐D DIGE to analyze the early response of NB‐4 cells, a human promyelotic leukemia cell line, exposed to lethal toxin from Bacillus anthracis at the proteome level. After a 2 h exposure, cells were still viable and 43% of spots (n = 1042) showed a significant change in protein level. We identified 59 spots whose expression had changed significantly, and these reflected cytoskeleton damage, mitochondrial lysis and endoplasmic reticulum stress. Actin filament assembly was disrupted as evidenced by an increase in both actin subunits and phosphorylated cofilin, whilst levels of tropomyosin, tropomodulin and actin related protein 2/3 complex subunit decreased. Lower levels of ATP synthase subunits and mitochondrial inner membrane protein were identified as markers of mitochondrial lysis. Levels of various stress response proteins rose and, uniquely, levels of Ca²⁺ binding proteins such as translationally controlled tumor protein rose and hippocalcin‐like protein 1 decreased. This response may have mitigated effects brought about by mitochondrial lysis and endoplasmic reticulum stress, and delayed or prevented apoptosis in NB‐4 cells. These results resemble findings of similar proteomics studies in murine macrophages, although quantitative differences were observed.     

An experimental strategy for quantitative analysis of the humoral immune response to prostate cancer antigens using natural protein microarrays

The identification of human tumor antigens has potential utility in the diagnosis and treatment of cancers. We demonstrate here a complete strategy to profile immunoreactivity and identify tumor antigens from proteins derived from tumor cell lines. Microarrays of proteins produced from 2-D LC fractionation of prostate tumor cell-line lysates were used to profile immunoreactivity in the sera of prostate cancer patients and control subjects. Cancer-associated immunoreactivity to distinct groups of chromatography fractions was present in about 50% of the patients, with greater immunoreactivity present in patients with non-organ-confined cancer than in patients with organ-confined cancer. We grouped the immunoreactive fractions by similarities in elution order and patterns of immunoreactivity to guide and interpret the MS analysis of selected fractions, which was used to identify the proteins that may be responsible for the immunoreactivity. As a complementary method to further characterize and validate the immunoreactivity of the proteins identified by mass spectrometry, we demonstrate the use of focused microarrays of recombinant proteins. Disease-associated immunoreactivity was confirmed for one of the identified proteins, human Kallikrein 11. These results demonstrate a practical approach to screening, identifying, and validating immunoreactive proteins that could be applied to diverse studies on humoral immune responses.