Cover Picture: Proteomics – Clinical Applications 9/2008

Abstract

AbstractIn this issue of Proteomics – Clinical Applications you will find the following highlighted articles:Always probing for more: prostate biomarkersIt feels a bit like the late nineteenth century, but instead of a gold rush every two to five years, it's a new favorite target in the biomarker rushes. (Actually, gold rushes go back to ancient Egypt. Biomarkers don't go that far but medical research does.) Here, Burgess et al. take a walk outside the box when they encounter the asymmetry of protein abundance. Rather than synthetically trapping compounds to expose or capture low abundance compounds, they use nature's own: in particular, alpha‐2‐macroglobulin (A2M). A2Ms normal function is to bind proteins that are to be protected from proteolysis, a universal protease inhibitor. Using immunoprecipitation of A2M and comparing cases vs. controls, enhanced levels of heat shock protein 90 in serum was their most interesting candidate for this year's marker rush.Burgess, E. F. et al., Proteomics Clin. Appl. 2008, 2, 1223–1233.Brainwashing samplesNo, we are not suggesting 1984‐style re‐education to improve proteome productivity. Rather, Dean et al. are reporting on the efficiency of fractionation of brain tissue proteins by graduated detergent extraction prior to 2‐DE. Another anticipated benefit is increased relative concentration of the less abundant proteins. Samples from two areas of the human brain (Brodmann's Area 9 (BA9) and caudate nucleus and putamen CP) were prepared with a sequential extraction kit and compared by 1‐DE and Western blots, 2‐DE and MALDI‐TOF. The conclusion was that no detergent conditions were found that resolved proteins completely but that each detergent point gave a different 2‐D pattern, a benefit for those looking for distinguishing marks.Dean, B. et al., Proteomics Clin. Appl. 2008, 2, 1281–1289.Liver and kidney pieIn orthotopic (“full replacement”) liver transplants, one of the most common complications is chronic kidney (yes, kidney) disease. Currently, kidney complications are tracked by functional tests, like serum urea and creatinine levels. If things look suspicious, glomerular filtration rates can be checked. O'Riordan et al. applied SELDI TOF‐MS techniques to serum samples to look for easier, more accurate targets. Serum samples were collected repeatedly over a 6‐month period. Each was divided into six fractions by elution pH or by organic solvent, then examined on weak cation exchange (CM10), hydrophobic (H50) and immobilized metal affinity surfaces (IMAC30). CM10 was best at distinguishing case from control using three proteins and reporting a sensitivity of ∼87–94%. On the basis of peptide LC‐MS and 1‐D SDS‐PAGE and confirmed by ELISA, the best single indicator was APO‐AI. Most cases of kidney disease appeared to be linked to the use of calcineurin inhibitors for immune suppression.O'Riordan, A. et al., Proteomics Clin. Appl. 2008, 2, 1338–1348.