Unfortunately, both of these studies were mainly discovery effort

Unfortunately, both of these studies were mainly discovery efforts to establish a reliable and reproducible workflow for the analysis of carrier protein-bound peptides and have yet to validate their putative OvCa markers in independent cohorts. The identification of autoantibody signatures in serum has also been investigated for OvCa biomarker discovery. OvCa is often characterized by the complex network of inflammatory cytokines present in find more the microenvironment and the involvement of immune-related cells such as tumour-associated macrophages. As such, populations of anti-tumour antibodies may be present and

detection of said immunological responses to tumorigenesis may help to detect early stage disease. In a laying hen model of human

OvCa, Barua et al. identified 11 proteins as immunoreactive ovarian antigens through LC MS [52]. Although this was the first study to identify immunoreactive ovarian antigens by serum anti-tumour antibodies, the authors recognized the fact that the ovarian antigens could MK0683 ic50 not discriminate laying hens with non-malignant ovarian conditions from those with OvCa. Philip et al. investigated the immunoproteome of OvCa and healthy control sera, as well as that of the conditioned media of the OVCAR3 and SKOV3-A2 cell lines [53]. Overall, 8 autoantibody-reactive autoantigens were identified that were present in all five cancer serum composites and in both cell lines: A-kinase anchor protein 9, eukaryotic translation initiation factor 4, midasin, RAD50, talin 1, vinculin, vimentin, and centrosome-associated protein 350. Furthermore, the authors identified a subset of the MS-generated autoantigens that were implicated in both

humoral (B-cell) and cell-mediated (T-cell) immunity. However, the suggested novel autoantibody biomarkers for OvCa diagnosis were not validated in an independent cohort. Future studies will thus need to address how well such putative autoantibody-based markers perform in independent, blinded validation. A final approach that has been gaining popularity is MALDI MS imaging of cancer tissues to identify markers that may be shed into the extracellular space. In this technique, tissues are directly subjected to ionization and mass analysis to generate an array of mass spectra for all positions across the tissue specimen. Resminostat As a result, the protein content of specific regions of interest can be determined, as well as the spatial distribution of specific proteins across the tissue [54]. El Ayed et al. was able to identify the reg-alpha fragment of the 11S proteasome activator complex as a putative biomarker through correlative analyses between MALDI MS imaging and immunohistochemical analysis with an anti-reg-alpha C-terminal antibody [55]. Expression of this protein was validated using Western blot and PCR on the SKOV-3 OvCa cell line. However, the authors did not validate overexpression of the marker in clinical samples. Liu et al.

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