Comparative Studies of the
Proteome, Glycoproteome, and N-Glycome of Clear Cell Renal
Cell Carcinoma Plasma before and after Curative Nephrectomy

Gbormittah, Francisca
O.; Lee, Ling Y.; Taylor, KyOnese; Hancock, William S.; Iliopoulos, Othon

doi:10.1021/pr500591e

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Comparative Studies of the Proteome, Glycoproteome, and N-Glycome of Clear Cell Renal Cell Carcinoma Plasma before and after Curative Nephrectomy

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Author(s): Francisca O. Gbormittah ^† , Ling Y. Lee ^‡ , KyOnese Taylor ^† , William S. Hancock ^† ^, , Othon Iliopoulos ^§ ^, ^∥ ^,

Publication date (Electronic): 03 September 2014

Journal: Journal of Proteome Research

Publisher: American Chemical Society

Keywords: Glycoproteomics, glycomics, N-glycans, lectins, multi-lectin affinity chromatography

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Abstract

Clear cell renal cell carcinoma is the most prevalent of all reported kidney cancer cases, and currently there are no markers for early diagnosis. This has stimulated great research interest recently because early detection of the disease can significantly improve the low survival rate. Combining the proteome, glycoproteome, and N-glycome data from clear cell renal cell carcinoma plasma has the potential of identifying candidate markers for early diagnosis and prognosis and/or to monitor disease recurrence. Here, we report on the utilization of a multi-dimensional fractionation approach (12P-M-LAC) and LC–MS/MS to comprehensively investigate clear cell renal cell carcinoma plasma collected before (disease) and after (non-disease) curative nephrectomy ( n = 40). Proteins detected in the subproteomes were investigated via label-free quantification. Protein abundance analysis revealed a number of low-level proteins with significant differential expression levels in disease samples, including HSPG2, CD146, ECM1, SELL, SYNE1, and VCAM1. Importantly, we observed a strong correlation between differentially expressed proteins and clinical status of the patient. Investigation of the glycoproteome returned 13 candidate glycoproteins with significant differential M-LAC column binding. Qualitative analysis indicated that 62% of selected candidate glycoproteins showed higher levels (upregulation) in M-LAC bound fraction of disease samples. This observation was further confirmed by released N-glycans data in which 53% of identified N-glycans were present at different levels in plasma in the disease vs non-disease samples. This striking result demonstrates the potential for significant protein glycosylation alterations in clear cell renal cell carcinoma cancer plasma. With future validation in a larger cohort, information derived from this study may lead to the development of clear cell renal cell carcinoma candidate biomarkers.

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The changing natural history of renal cell carcinoma.

A Pantuck, A Zisman, A Belldegrun (2001)

Our understanding of the natural history of renal cell carcinoma, the role of nephrectomy, the benefits of immunotherapy and the possibilities of new technologies are evolving and being integrated with advances in classification and staging. We reviewed the relevant literature to clarify these pertinent questions and provide a current review of the changes in the epidemiology, treatment and prognosis of patients with renal cell carcinoma. We comprehensively reviewed the peer reviewed literature on the current management of and results of treatment for renal cell carcinoma. The incidence of and mortality from renal cell carcinoma have continuously increased during the last 50 years. Despite this increase in the number of new patients and consequently the number of deaths yearly the percent of those surviving for 5 years has notably improved. Factors related to improved survival include advances in renal imaging, earlier diagnosis, improved staging, better understanding of prognostic indicators, refinement in surgical technique and the introduction of immunotherapy approaches for advanced disease. Currently patients with localized and metastatic renal cell carcinoma have had improvements in outlook and the therapeutic options available have expanded.

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Structural analysis of N- and O-glycans released from glycoproteins.

Trine Jensen, Daniel Kolarich, Niclas Karlsson … (2012)

This protocol shows how to obtain a detailed glycan compositional and structural profile from purified glycoproteins or protein mixtures, and it can be used to distinguish different isobaric glycan isomers. Glycoproteins are immobilized on PVDF membranes before the N-glycans are enzymatically released by PNGase F, isolated and reduced. Subsequently, O-glycans are chemically released from the same protein spot by reductive β-elimination. After desalting with cation exchange microcolumns, the glycans are separated and analyzed by porous graphitized carbon liquid chromatography-electrospray ionization tandem mass spectrometry (LC-ESI-MS/MS). Optionally, the glycans can be treated with sialidases or other specific exoglycosidases to yield more detailed structural information. The sample preparation takes approximately 4 d, with a heavier workload on days 2 and 3, and a lighter load on days 1 and 4. The time for data interpretation depends on the complexity of the samples analyzed. This method can be used in conjunction with the analysis of enriched glycopeptides by capillary/nanoLC-ESI-MS/MS, which together provide detailed information regarding the site heterogeneity of glycosylation.

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The genetic basis of cancer of the kidney.

W Linehan, McClellan Walther, Berton Zbar (2003)

The types of epithelial renal tumors are clear cell, types I and II papillary, chromophobe and oncocytoma. We identified the genetic basis of these different types of kidney cancer to provide better methods for early diagnosis of this disease as well as provide the foundation for the development of molecular therapeutic approaches. To identify the genetic basis of kidney cancer we studied families with an inherited predisposition to kidney cancer. Families in which 2 or more individuals had kidney cancer underwent a comprehensive evaluation to determine whether they were affected with a hereditary form of renal carcinoma. Genetic linkage analysis was performed to identify the gene for inherited forms of renal carcinoma. The gene for the inherited form of clear cell renal carcinoma associated with von Hippel-Lindau gene was identified. This gene has been found to be a tumor suppressor gene. A new form of inherited renal carcinoma, hereditary papillary renal carcinoma, was identified. The gene for this condition was identified and found to be the proto-oncogene c-Met. A previously unidentified form of familial renal oncocytoma was found. A familial form of chromophobe renal carcinoma and oncocytoma associated with Birt Hogg Dubé syndrome was found. The gene for this condition was localized on the short arm of chromosome 17 and it has been identified. We studied families with cutaneous leiomyomas, uterine leiomyomas and papillary renal carcinoma. We identified mutations in the fumarate hydratase gene in patients affected with this disorder, namely hereditary leiomyoma renal cell carcinoma. Kidney cancer used to be considered a single disease. It is now known that there are a number of different types of cancers of the kidney with different histological patterns and different clinical courses that appear to respond differently to therapy. These different types of kidney cancer are caused by different genes, ie they each have a distinct genetic basis. Understanding the molecular pathways of these cancer genes should provide insight into their varying clinical courses and responses to treatment as well as provide the foundation for the development of disease specific molecular therapeutic strategies.

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Author and article information

Journal

Journal ID (nlm-ta): J Proteome Res

Journal ID (iso-abbrev): J. Proteome Res

Journal ID (publisher-id): pr

Journal ID (coden): jprobs

Title: Journal of Proteome Research

Publisher: American Chemical Society

ISSN (Print): 1535-3893

ISSN (Electronic): 1535-3907

Publication date PMC-release: 03 September 2015

Publication date (Electronic): 03 September 2014

Publication date (Print): 07 November 2014

Volume: 13

Issue: 11 , Proteomics of Human Diseases: Pathogenesis, Diagnosis, Prognosis, and Treatment

Pages: 4889-4900

Affiliations

[† ]Barnett Institute and Department of Chemistry and Chemical Biology, Northeastern University , 360 Huntington Avenue, Boston, Massachusetts 02115, United States

[‡ ]Departments of Chemistry and Biomolecular Sciences, Macquarie University , Sydney, New South Wales 2109, Australia

[§ ]Center for Cancer Research at Massachusetts General Hospital Cancer Center , Charlestown, Massachusetts 02129, United States

[∥ ]Division of Hematology−Oncology, Department of Medicine, Massachusetts General Hospital , Boston, Massachusetts 02114, United States

Author notes

[* ](W.S.H.) E-mail: wi.hancock@ 123456neu.edu . Tel.: (617) 373-4881. Fax: (617) 373-8795.

[* ](O.I.) E-mail: oiliopoulos@ 123456partners.org . Tel.: (617) 724-3404. Fax: (617) 726-8623.

Article

DOI: 10.1021/pr500591e

PMC ID: 4227548

PubMed ID: 25184692

SO-VID: ec691de5-ee35-4f1d-8f56-9bea729e415a

License:

This is an open access article published under an ACS AuthorChoice License, which permits copying and redistribution of the article or any adaptations for non-commercial purposes.

History

Date received : 12 June 2014

Funding

National Institutes of Health, United States

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document-id-old-9 pr500591e

document-id-new-14 pr-2014-00591e

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ScienceOpen disciplines: Molecular biology

Keywords: glycoproteomics,glycomics,n-glycans,lectins,multi-lectin affinity chromatography

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ScienceOpen disciplines: Molecular biology

Keywords: glycoproteomics, glycomics, n-glycans, lectins, multi-lectin affinity chromatography

Comparative Studies of the Proteome, Glycoproteome, and N-Glycome of Clear Cell Renal Cell Carcinoma Plasma before and after Curative Nephrectomy

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Abstract

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Most cited references 50

The changing natural history of renal cell carcinoma.

Structural analysis of N- and O-glycans released from glycoproteins.

The genetic basis of cancer of the kidney.

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