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Proteomic Patterns of Nipple Aspirate Fluids Obtained by SELDI-TOF: Potential for New Biomarkers to Aid in the Diagnosis of Breast Cancer (2001)

Paweletz, Cloud P. ; Trock, Bruce ; Pennanen, Marie ; [et al.]

Hindawi

In: Disease Markers. 2001; 17(4): 301-307. Published 2001 Jan 01. doi: 10.1155/2001/674959.

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Publication Date: 2001-01-01

Description: Nipple aspirate fluid (NAF) has been used for many years as a potential non-invasive method to identify markers for breast cancer risk or early detection. Because individual markers have not been optimal, we are exploring the use of surface enhanced laser desorption and ionization time of flight (SELDI-TOF) mass spectrometry to identify patterns of proteins that might define a proteomic signature for breast cancer. SELDI-TOF was used to analyze a study set of NAF samples that included 12 women with breast cancer and 15 healthy controls (the latter included three women with an abnormal mammogram but subsequent normal biopsy). In this preliminary report, we present data showing that SELDI analysis of NAF is rapid, reproducible, and capable of identifying protein signatures that appear to differentiate NAF samples from breast cancer patients and healthy controls, including those with an abnormal mammogram who were later proven to be biopsy normal.

Print ISSN: 0278-0240

Electronic ISSN: 1875-8630

Topics: Biology , Chemistry and Pharmacology

Published by Hindawi

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Novel Approaches to Visualization and Data Mining Reveals Diagnostic Information in the Low Amplitude Region of Serum Mass Spectra from Ovarian Cancer Patients (2004)

Johann, Donald J. ; McGuigan, Michael D. ; Tomov, Stanimire ; [et al.]

Hindawi

In: Disease Markers. 2004; 19(4-5): 197-207. Published 2004 Jan 01. doi: 10.1155/2004/549372.

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Publication Date: 2004-01-01

Description: The ability to identify patterns of diagnostic signatures in proteomic data generated by high throughput mass spectrometry (MS) based serum analysis has recently generated much excitement and interest from the scientific community. These data sets can be very large, with high-resolution MS instrumentation producing 1–2 million data points per sample. Approaches to analyze mass spectral data using unsupervised and supervised data mining operations would greatly benefit from tools that effectively allow for data reduction without losing important diagnostic information. In the past, investigators have proposed approaches where data reduction is performed bya priori“peak picking” and alignment/warping/smoothing components using rule-based signal-to-noise measurements. Unfortunately, while this type of system has been employed for gene microarray analysis, it is unclear whether it will be effective in the analysis of mass spectral data, which unlike microarray data, is comprised of continuous measurement operations. Moreover, it is unclear where true signal begins and noise ends. Therefore, we have developed an approach to MS data analysis using new types of data visualization and mining operations in which data reduction is accomplished by culling via the intensity of the peaks themselves instead of by location. Applying this new analysis method on a large study set of high resolution mass spectra from healthy and ovarian cancer patients, shows that all of the diagnostic information is contained within the very lowest amplitude regions of the mass spectra. This region can then be selected and studied to identify the exact location and amplitude of the diagnostic biomarkers.

Print ISSN: 0278-0240

Electronic ISSN: 1875-8630

Topics: Biology , Chemistry and Pharmacology

Published by Hindawi

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Cancer Proteomics: The State of the Art (2001)

Herrmann, Paul C. ; Liotta, Lance A. ; Petricoin III, Emanuel F.

Hindawi

In: Disease Markers. 2001; 17(2): 49-57. Published 2001 Jan 01. doi: 10.1155/2001/327047.

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Publication Date: 2001-01-01

Description: Now that the human genome has been determined, the field of proteomics is ramping up to tackle the vast protein networks that both control and are controlled by the information encoded by the genome. The study of proteomics should yield an unparalleled understanding of cancer as well as an invaluable new target for therapeutic intervention and markers for early detection. This rapidly expanding field attempts to track the protein interactions responsible for all cellular processes. By careful analysis of these systems, a detailed understanding of the molecular causes and consequences of cancer should emerge. A brief overview of some of the cutting edge technologies employed by this rapidly expanding field is given, along with specific examples of how these technologies are employed. Soon cellular protein networks will be understood at a level that will permit a totally new paradigm of diagnosis and will allow therapy tailored to individual patients and situations.

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Electronic ISSN: 1875-8630

Topics: Biology , Chemistry and Pharmacology

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Monitoring Proteins and Protein Networks Using Reverse Phase Protein Arrays (2010)

Wilson, Bridget ; Liotta, Lance A. ; Petricoin III, Emanuel

Hindawi

In: Disease Markers. 2010; 28(4): 225-232. Published 2010 Jan 01. doi: 10.1155/2010/240248.

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Publication Date: 2010-01-01

Description: Recent advances in high throughput, high content “omic” technologies coupled with clinical information has lead to the expectation that the complexity of the molecular information generated will lead to more robust scientific research as well as the expectation that overarching therapeutic approaches will be patient-tailored to the underlying specific molecular defects of the disease. As disease understanding progresses and more therapeutics, which predominately target proteins, are developed there is a need to more confidently determine the protein signaling events that can be correlated with drug response since the deranged protein signaling networks are often the drug target itself. In this environment, the Reverse Phase Protein Microarray (RPMA) can be utilized to address the needs of both clinical screening and disease understanding through its ability to provide an unmatched functional and highly multiplexed signaling network level mapping of ongoing signaling activation, coupled with the ability of the platform to provide this information reproducibly from a tiny needle biopsy specimen or fine needle aspirate. This platform has now been utilized for biomarker discovery/validation and advancements in disease understanding both in the clinic and at the bench in the fields of cancer, liver disease, immunological disorders, and bacterial infection.

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Electronic ISSN: 1875-8630

Topics: Biology , Chemistry and Pharmacology

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Biomarker Amplification by Serum Carrier Protein Binding (2003)

Mehta, Arpita I. ; Ross, Sally ; Lowenthal, Mark S. ; [et al.]

Hindawi

In: Disease Markers. 2003; 19(1): 1-10. Published 2003 Jan 01. doi: 10.1155/2003/104879.

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Publication Date: 2003-01-01

Description: Mass spectroscopic analysis of the low molecular mass (LMM) range of the serum/plasma proteome is a rapidly emerging frontier for biomarker discovery. This study examined the proportion of LMM biomarkers, which are bound to circulating carrier proteins. Mass spectroscopic analysis of human serum following molecular mass fractionation, demonstrated that the majority of LMM biomarkers exist bound to carrier proteins. Moreover, the pattern of LMM biomarkers bound specifically to albumin is distinct from those bound to non-albumin carriers. Prominent SELDI-TOF ionic species (m/z 6631.7043) identified to correlate with the presence of ovarian cancer were amplified by albumin capture. Several insights emerged: a) Accumulation of LMM biomarkers on circulating carrier proteins greatly amplifies the total serum/plasma concentration of the measurable biomarker, b) The total serum/plasma biomarker concentration is largely determined by the carrier protein clearance rate, not the unbound biomarker clearance rate itself, and c) Examination of the LMM species bound to a specific carrier protein may contain important diagnostic information. These findings shift the focus of biomarker detection to the carrier protein and its biomarker content.

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Electronic ISSN: 1875-8630

Topics: Biology , Chemistry and Pharmacology

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