Sheng Pan scite author profile

The recent advance in technology for mass spectrometry-based targeted protein quantification has opened new avenues for a broad range of proteomic applications in clinical research. The major breakthroughs are highlighted by the capability of using a "universal" approach to perform quantitative assays for a wide spectrum of proteins with minimum restrictions, and the ease of assembling multiplex detections in a single measurement. The quantitative approach relies on the use of synthetic stable isotope labeled peptides or proteins, which precisely mimic their endogenous counterparts and act as internal standards to quantify the corresponding candidate proteins. This report reviews recently developed platform technologies for emerging applications of clinical proteomics and biomarker development.

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Mass Spectrometry Based Glycoproteomics—From a Proteomics Perspective

Pan

Chen

Aebersold

et al. 2011

Molecular & Cellular Proteomics

253

239

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Glycosylation is one of the most important and common forms of protein post-translational modification that is involved in many physiological functions and biological pathways. Altered glycosylation has been associated with a variety of diseases, including cancer, inflammatory and degenerative diseases. Glycoproteins are becoming important targets for the development of biomarkers for disease diagnosis, prognosis, and therapeutic response to drugs. The emerging technology of glycoproteomics, which focuses on glycoproteome analysis, is increasingly becoming an important tool for biomarker discovery. An in-depth, comprehensive identification of aberrant glycoproteins, and further, quantitative detection of specific glycosylation abnormalities in a complex environment require a concerted approach drawing from a variety of techniques. This report provides an overview of the recent advances in mass spectrometry based glycoproteomic methods and technology, in the context of biomarker discovery and clinical application. Molecular & Cellular

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Pancreatic Cancer Proteome: The Proteins That Underlie Invasion, Metastasis, and Immunologic Escape

et al. 2005

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Quantitative Proteomics Analysis Reveals That Proteins Differentially Expressed in Chronic Pancreatitis Are Also Frequently Involved in Pancreatic Cancer

Chen

Brentnall

Pan

et al. 2007

Molecular & Cellular Proteomics

134

121

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The effective treatment of pancreatic cancer relies on the diagnosis of the disease at an early stage, a difficult challenge. One major obstacle in the development of diagnostic biomarkers of early pancreatic cancer has been the dual expression of potential biomarkers in both chronic pancreatitis and cancer. To better understand the limitations of potential protein biomarkers, we used ICAT technology and tandem mass spectrometry-based proteomics to systematically study protein expression in chronic pancreatitis. Among the 116 differentially expressed proteins identified in chronic pancreatitis, most biological processes were responses to wounding and inflammation, a finding consistent with the underlining inflammation and tissue repair associated with chronic pancreatitis. Furthermore 40% of the differentially expressed proteins identified in chronic pancreatitis have been implicated previously in pancreatic cancer, suggesting some commonality in protein expression between these two diseases. Biological network analysis further identified c-MYC as a common prominent regulatory protein in pancreatic cancer and chronic pancreatitis. Lastly five proteins were selected for validation by Western blot and immunohistochemistry. Annexin A2 and insulin-like growth factor-binding protein 2 were overexpressed in cancer but not in chronic pancreatitis, making them promising biomarker candidates for pancreatic cancer. In addition, our study validated that cathepsin D, integrin ␤1, and plasminogen were overexpressed in both pancreatic cancer and chronic pancreatitis. The positive involvement of these proteins in chronic pancreatitis and pancreatic cancer will potentially lower the specificity of these proteins as biomarker candidates for pancreatic cancer. Altogether our study provides some insights into the molecular events in chronic pancreatitis that may lead to diverse strategies for diagnosis and treatment of these diseases. Molecular & Cellular Proteomics 6:1331-1342, 2007.Pancreatitis is an inflammatory condition of the pancreas that shares many molecular features with pancreatic cancer. Many of the abnormally expressed proteins present in the setting of pancreatic cancer are also abnormally expressed in chronic pancreatitis, providing an unacceptably low level of specificity for use as protein biomarkers and cancer screening. Thus, a major obstacle for the development of biomarkers for early diagnosis of pancreatic cancer has been the dual expression of potential biomarkers in the neoplastic and non-neoplastic setting. It is therefore important to understand the proteins expressed in pancreatitis because they could be a source of false positive biomarkers for pancreatic cancer. Moreover chronic pancreatitis is a risk factor for eventual neoplastic progression. Patients with chronic pancreatitis have a 2-fold increased risk of pancreatic cancer. Understanding the molecular events involved in both diseases may lead to a better understanding of the mechanisms that link them.The DNA and gene expression profile of pancreat...

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Sheng Pan

Mass Spectrometry Based Targeted Protein Quantification: Methods and Applications

Mass Spectrometry Based Glycoproteomics—From a Proteomics Perspective

Pancreatic Cancer Proteome: The Proteins That Underlie Invasion, Metastasis, and Immunologic Escape

Quantitative Proteomics Analysis Reveals That Proteins Differentially Expressed in Chronic Pancreatitis Are Also Frequently Involved in Pancreatic Cancer

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