Changes on the Caco-2 secretome through differentiation analyzed by 2-D differential in-gel electrophoresis (DIGE).

Colorectal cancer is still a major health burden worldwide, and its diagnosis has not improved in recent years due to a lack of appropriate diagnostic serum markers. Aiming to find new diagnostic proteins, we applied the proteomic DIGE technology to analyze changes in the secretome before/after differentiation of the colon adenocarcinoma Caco-2 cell line, an accepted in vitro model to study colorectal tumorigenesis. When the secretomes from undifferentiated (tumor-like) and differentiated cells (resembling healthy enterocytes) were compared, we found 96 spots differentially expressed. After MS/MS analysis, 22 spots corresponding to 15 different proteins were identified. Principal component analysis demonstrated these 22 spots could serve as a discriminatory panel between the tumor-like and normal-like cells. Among the identified proteins, the translationally-controlled tumor protein (TCTP), the transforming growth factor-beta-induced protein ig-h3 (TGFßIp), and the Niemann-Pick disease type C2 protein (NPC2) are interesting candidates for future studies focused on their utility as serum biomarkers of colorectal cancer.

Magnetic silica nanoparticle cellular uptake and cytotoxicity regulated by electrostatic polyelectrolytes-DNA loading at their surface.

Magnetic silica nanoparticles show great promise for drug delivery. The major advantages correspond to their magnetic nature and ease of biofunctionalization, which favors their ability to interact with cells and tissues. We have prepared magnetic silica nanoparticles with DNA fragments attached on their previously polyelectrolyte-primed surface. The remarkable feature of these materials is the compromise between the positive charges of the polyelectrolytes and the negative charges of the DNA. This dual-agent formulation dramatically changes the overall cytotoxicity and chemical degradation of the nanoparticles, revealing the key role that surface functionalization plays in regulating the mechanisms involved.

Selection of putative colorectal cancer markers by applying PCA on the soluble proteome of tumors: NDK A as a promising candidate.

Aiming to find new tumor markers for colorectal cancer (CRC), we applied proteomic methodologies to compare the soluble sub-proteome of healthy and tumoral colorectal mucosa. Out of 91 differentially expressed proteins, 23 were selected by principal component analysis (PCA) as the major contributors to the overall difference detected. After MS/MS analysis, 16 proteins were identified. From those, we chose 14-3-3-zeta/delta, retinoblastoma-binding protein 4 (RBBP-4), DJ-1, and nucleoside diphosphate kinase A (NDK A) for further studies, on the basis of their levels and known implication in cancer. Specific immunodetection demonstrated only the NDK A levels allowed to differentiate healthy mucosa from tumor tissue in all the patients. Hence, we used the colon cancer cell line Caco-2 to study the relationship between NDK A and colon cell tumorigenesis, finding it over-expressed in undifferentiated (tumor-like) cells regarding the differentiated ones. Noticeably, we also found increased levels of the NDK A in the secretome of tumor-like cells and, as expected, indications of higher levels of NDK A in the serum of CRC patients. In conclusion, the four validated proteins could constitute a panel of tissue markers for CRC, being the NDK A the most interesting candidate for further serum biomarker studies.