HER-2/neu oncogene is over-expressed and amplified in patients associated with metastatic breast cancer. An increased level (>15 ng/mL) in the shed extracellular domain (sECD-HER 2/neu) is indicative of the potential presence and associated progression of this disease. A fluorescent ELISA incorporating the newly developed ALYGNSA antibody-orientation system revealed a 10-fold increase in sensitivity (≤0.63 ng/mL) of sECD-HER 2/neu when compared to a control standard ELISA kit (≤7.5 ng/mL). This enhanced mode of detection has the potential to not only address breast and other cancers per se but also permit an in depth evaluation of "shed extracellular domains", in general, and the role of these "proteolytic derived factors" in physiological signalling at normal levels.
Breast cancer is the second leading cause of cancerrelated deaths in women worldwide; a prime cancer biomarker to aid in the diagnosis, directed treatment, clinical management, and reoccurrence of this cancer is a MUC1 peptide fragment: cancer antigen 15-3 (CA 15-3). Herein, an immuno-fluorescence assay for CA 15-3 was developed; this ALYGNSA system consists of a protein biolinker (Protein G’) adsorbed onto Poly (methyl methacrylate) (PMMA). The unique interaction of Protein G’ with PMMA, a thermo-plastic polymer has been demonstrated to improve human IgG capture antibody alignment/ orientation and result in greater assay sensitivity. Indeed a previous report (HEALTH 1 325 - 329, 2009) on the shed extracellular domain of HER-2/neu revealed a 10-fold increase in sensitivity of the ALYGSNA assay over a control ELISA assay. Results from this ALYGNSA assay study revealed that a 16-fold increase in detection (≤0.94 U/mL) of CA 15-3 was found in comparison to a commercial control ELISA kit (≤15 U/mL). In conclusion, this enhanced sensitivity of the ALYGNSA assay for CA 15-3, may provide insights into the role/function of this biomarker in normal, as well as, breast cancer and other epithelial cancers
Prostate-specific antigen (PSA) is a serum glycoprotein overproduced in prostate cancer, the total of which is comprised of two major forms, free and complexed. The common method for measuring of PSA is an Enzyme-linked immunosorbent assay (ELISA). Limits of detection using commercial PSA ELISA kits for free and total PSA were determined in our laboratory to be 1 and 10 ng/mL, respectively. A value of 0.10 was obtained for the free to total PSA ratio, a ratio of 0.25 being indicative of prostate cancer. A possible improvement in the sensitivity and detection limits of free and total PSA may be achieved by the ALYGNSA system (Clarizia et al., Anal Bioanal Chem 393:1531-1538, 2009). This fluorescent assay system employed a selective polymer biolinker system proven to enhance primary antibody orientation. Using this system, free and total PSA detection limits of 0.13 and 0.63 ng/mL, respectively, were realized. This amounted to an 8- and 15-fold improvement in detection limits for free and total PSA, respectively. A free to total PSA ratio of 0.20 was maintained in this study and may be useful for definitive diagnosis of prostate, as well as, other cancers.
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