Loading...
3 results
Search Results
Now showing 1 - 3 of 3
- Evaluation of MGP gene expression in colorectal cancerPublication . Caiado, Helena; Conceição, Natércia; Tiago, Daniel; Marreiros, Ana; Vicente, Susana; Enriquez, Jose Luis; Vaz, Ana Margarida; Antunes, Artur; Guerreiro, Horacio; Caldeira, Paulo; Leonor Cancela, M.Purpose: Matrix Gla protein (MGP) is a vitamin K-dependent, gamma-carboxylated protein that was initially found to be a physiological inhibitor of ectopic calcifications affecting mainly cartilage and the vascular system. Mutations in the MGP gene were found to be responsible for a human pathology, the Keutel syndrome, characterized by abnormal calcifications in cartilage, lungs, brain and vascular system. MGP was recently implicated in tumorigenic processes such as angiogenesis and shown to be abnormally regulated in several tumors, including cervical, ovarian, urogenital and breast. This fact has triggered our interest in analyzing the expression of MGP and of its regulator, the transcription factor runt related transcription factor 2 (RUNX2), in colorectal cancer (CRC). Methods: MGP and RUNX2 expression were analyzed in cancer and non-tumor biopsies samples from 33 CRC patients and 9 healthy controls by RT-qPCR. Consequently, statistical analyses were performed to evaluate the clinical-pathological significance of MGP and RUNX2 in CRC. MGP protein was also detected by immunohistochemical analysis. Results: Showed an overall overexpression of MGP in the tumor mucosa of patients at mRNA level when compared to adjacent normal mucosa and healthy control tissues. In addition, analysis of the expression of RUNX2 mRNA demonstrated an overexpression in CRC tissue samples and a positive correlation with MGP expression (Pearson correlation coefficient 0.636; p <= 0.01) in tumor mucosa. However correlations between MGP gene expression and clinical-pathological characteristics, such as gender, age and pathology classification did not provide relevant information that may shed light towards the differences of MGP expression observed between normal and malignant tissue. Conclusions: We were able to associate the high levels of MGP mRNA expression with a worse prognosis and survival rate lower than five years. These results contributed to improve our understanding of the molecular mechanism underlying MGP deregulation in cancer.
- Expression of DUSP4 transcript variants as a potential biomarker for colorectal cancerPublication . Varela, Tatiana; Laizé, Vincent; Conceição, Natércia; Caldeira, Paulo; Marreiros, Ana; Guerreiro, Horacio; Cancela, M. LeonorAim: To provide novel data on the expression of DUSP4 transcripts in colorectal cancer (CRC) tissues and to explore their potential as biomarkers. Materials & methods:DUSP4 transcripts expression was determined by quantitative real-time PCR in tissues from 28 CRC patients. Their association with clinicopathological factors and survival analysis was performed. Data from 380 CRC patients available at The Cancer Genome Atlas project were also analyzed. Results: All transcripts were overexpressed in CRC tissues. Variant X1 was the most upregulated and associated with KRAS mutations and poorly differentiated tumor. Overexpression of DUSP4 transcripts could distinguish all tumor stages from normal tissues. Similar results were found in The Cancer Genome Atlas cohort. Conclusion:DUSP4 transcripts have the potential to serve as diagnostic biomarkers for CRC, particularly variant X1.
- Data on the evaluation of FGF2 gene expression in Colorectal CancerPublication . Caiado, Helena; Conceição, Natércia; Tiago, Daniel; Marreiros, Ana; Vicente, Susana; Enriquez, Jose Luis; Vaz, Ana Margarida; Antunes, Artur; Guerreiro, Horacio; Caldeira, Paulo; Cancela, M. LeonorThe data presented in this article is related with the research paper entitled "Evaluation of MGP gene expression in colorectal cancer", available on Gene journal [1]. From all the transcription factors known to regulate MGP, FGF2 is the most described in colon adenocarcinoma and colon tumor cell lines, where it was shown to: i) contribute for the invasiveness potential; and ii) promote proliferation and survival of colorectal cancer cells. These in vitro studies pose the hypothesis that FGF2 associated signaling pathways could be promoting the regulation of others genes, such as MGP, that may lead to tumor progression which ultimately could result in poor prognosis in colon adenocarcinoma.