Background: Extranodal T/NK cell lymphomas possess distinctive clinico-pathological characteristics: they are angiocentric, exhibit extensive necrosis. Prognosis is poor in the short term. The objective is to explore the expression of different MMPs in the cells and stroma which are around of the blood vessels damaged and their correlation with clinico-pathological parameters.
Infiltrating ductal breast cancer (IDC) is the principal tumor associated-malignancy in Mexican women. In IDC, the development of intermittent hypoxia leads to an adaptive response coordinated by the transcriptional factor HIF-1α. In the present pilot, retrospective/cross-sectional study, the HIF-1α expression was analyzed in 102 tru-cut biopsies from female patients (51 ± 12 years) without previous clinical treatment and compared to 31 normal breast biopsies. The 102 IDC samples corresponded to 56% of HER2-/HR+; 8% of HER2+/HR-; 22% of triple positive (HER2+/HR+); and 14% of triple negative (TN, HER2-/HR-) subtypes. To assess HIF-1α functionality, proteomic and kinetic analysis of glycolytic as well as mitochondrial enzymes, were determined. Validation of HIF-1α as cancer biomarker was assessed by determining the contents of the commonly used biomarkers c-MYC, Ki67, and H- and K-RAS, as well as metastatic and autophagy proteins. Proteomic analysis revealed that HIF-1α, c-MYC, HER2 and COXIV contents were significantly increased in all IDC subtypes vs. normal tissue. The contents and activities of glycolytic proteins were similar between normal and IDC samples, except for HER2-/HR+ where a substantial increase of HKII was observed. Significant increase in 2OGDH and E-cadherin was detected for TN samples vs. other IDC subtypes and for normal samples. These results clearly indicated that HIF-1α + COXIV + c-MYC (+ HER2 for HER2+ subtype) may be useful to depict a breast cancer metabolic marker pattern for diagnosis, whereas the contents of HIF-1α + c-MYC + 2OGDH + E-cadherin may be an alternative useful and reliable signature for TN subtype cancer prognosis.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.