Oscar Aguilera

The Wnt antagonist DICKKOPF-1 gene is a downstream target of β -catenin/TCF and is downregulated in human colon cancer

Wnt glycoproteins regulate homeostasis and development by binding to membrane Frizzled-LRP5/6 receptor complexes. Wnt signaling includes a canonical pathway involving cytosolic β-catenin stabilization, nuclear translocation and gene regulation, acting as a co-activator of T-cell factor (TCF) proteins, and noncanonical pathways that activate Rho, Rac, JNK and PKC, or modulate Ca2+ levels. DICKKOPF-1 (DKK-1) encodes a secreted Wnt antagonist that binds to LRP5/6 and induces its endocytosis, leading to inhibition of the canonical pathway. We show that activation of canonical signaling by Wnt1 or ectopic expression of active β-catenin, TCF4 or LRP6 mutants induces transcription of the human DKK-1 gene. Multiple β-catenin/TCF4 sites in the DKK-1 gene promoter contribute to this activation. In contrast, Wnt5a, which signals through noncanonical pathways, does not activate DKK-1. Northern and Western blot studies show that activation of the Wnt/β-catenin pathway by treatment with lithium or Wnt3a-conditioned medium, or by stable expression of either Wnt1 or β-catenin, increases DKK-1 RNA and protein, thus initiating a negative feedback loop. However, we found that DKK-1 expression decreases in human colon tumors, which suggests that DKK-1 acts as a tumor suppressor gene in this neoplasia. Our data indicate that the Wnt/β-catenin pathway is downregulated by the induction of DKK-1 expression, a mechanism that is lost in colon cancer.

Epigenetic inactivation of the Wnt antagonist DICKKOPF-1 ( DKK-1 ) gene in human colorectal cancer

Colorectal cancer is a major cause of cancer death worldwide. A number of key oncogenes and tumor suppressor genes have been proposed to drive progression from healthy colonic epithelia to malignant tumors, including members of the Wnt/β-catenin pathway. Recently, CpG island promoter hypermethylation was shown to cause inactivation of two extracellular Wnt inhibitors in colon cancer: secreted frizzled-related proteins (sFRPs) and Wnt inhibitory factor-1 (WIF-1). Here, we show for the first time that another extracellular Wnt inhibitor, the DICKKOPF-1 (DKK-1) gene, is transcriptionally silenced by CpG island promoter hypermethylation in colon cancer cell lines (n=9), whereas treatment with the DNA-demethylating agent 5-aza-2-deoxycytidine restored DKK-1 expression. Restoration of DKK-1 function in non-expressing cells bearing a truncated APC (Adenomatous Polyposis Coli) gene had no effect on β-catenin/T-cell factor-dependent transcription, but induced tumor suppressor-like features such as reduced colony formation density and tumor growth inhibition in nude mice. These results suggest additional functions for DKK-1 other than inhibiting canonical Wnt signaling. In primary colorectal tumors, DKK-1 was found hypermethylated in 17% (nine of 54) of cases. Furthermore, while for both SFRP-1 and WIF-1 methylation-associated silencing occurred across the whole spectrum of colorectal tumorigenesis, DKK-1 promoter was selectively hypermethylated in advanced colorectal neoplasms (Dukes C and D tumors).

Epigenetics and environment: a complex relationship.

The epigenomes of higher organisms constantly change over time. Many of these epigenetic changes are necessary to direct normal cellular development and differentiation in the developing organism. However, developmental abnormalities may occur in response to inappropriate epigenetic signaling that occurs secondarily to still poorly understood causes. In addition to genetic and stochastic influences on epigenetic processes, epigenetic variation can arise as a consequence of environmental factors. Here we review the effects of such environmental factors on the epigenomes of higher organisms. We discuss the possible impact of epigenetic changes on physiological and pathophysiological processes, depending in part on whether these changes occur during embryonic development or adulthood.

PP2A Inhibition Is a Common Event in Colorectal Cancer and Its Restoration Using FTY720 Shows Promising Therapeutic Potential

Protein phosphatase 2A (PP2A) is a tumor suppressor that regulates many signaling pathways crucial for cell transformation. In fact, decreased activity of PP2A has been reported as a recurrent alteration in many types of cancer. Here, we show that PP2A is frequently inactivated in patients with colorectal cancer, indicating that PP2A represents a potential therapeutic target for this disease. We identified overexpression of the endogenous PP2A inhibitors SET and CIP2A, and downregulation of regulatory PP2A such as PPP2R2A and PPP2R5E, as contributing mechanisms to PP2A inhibition in colorectal cancer. Moreover, we observed that its restoration using FTY720 impairs proliferation and clonogenic potential of colorectal cancer cells, induces caspase-dependent apoptosis, and affects AKT and extracellular signal-regulated kinase-1/2 activation status. Interestingly, treatment with FTY720 showed an additive effect with 5-fluorouracil, SN-38, and oxaliplatin, drugs used in standard chemotherapy in patients with colorectal cancer. These results suggest that PP2A activity is commonly decreased in colorectal cancer cells, and that the use of PP2A activators, such as FTY720, might represent a potential novel therapeutic strategy in colorectal cancer. Mol Cancer Ther; 13(4); 938–47. ©2014 AACR.

Loss of pigment epithelium-derived factor enables migration, invasion and metastatic spread of human melanoma

Pigment epithelium-derived factor (PEDF) is a multifunctional secreted glycoprotein that displays broad anti-tumor activity based on dual targeting of the tumor microenvironment (anti-angiogenic action) and the tumor cells (direct anti-tumor action). Here, we show that PEDF expression is high in melanocytes, but it is lost during malignant progression of human melanoma. Using a high-throughput analysis of the data from microarray studies of molecular profiling of human melanoma, we found that PEDF expression is lost in highly invasive melanomas. In paired cell lines established from the same lesion but representing the high and low extremes of malignant potential, abundant PEDF expression was restricted to the poorly aggressive counterparts. We used RNA interference to directly address the functional consequences of PEDF silencing. PEDF knockdown in poorly aggressive melanoma cell lines augmented migration, invasion and vasculogenic mimicry, which translated into an increased in vivo metastatic potential. PEDF interference also significantly enhanced the migratory and invasive capability of normal melanocytes and moderately increased their proliferative potential. Our results show that loss of PEDF enables melanoma cells to acquire an invasive phenotype and, therefore, modulation of this multifunctional factor could be critical for the malignant progression of human melanoma.

Epigenetic repression of ROR2 has a Wnt-mediated, pro-tumourigenic role in colon cancer

BackgroundWnt factors control cell differentiation through semi-independent molecular cascades known as the β-catenin-dependent (canonical) and -independent (non-canonical) Wnt signalling pathways. Genetic and epigenetic alteration of components of the canonical Wnt signalling pathway is one of the primary mechanisms underlying colon cancer. Despite increasing evidence of the role of the non-canonical pathways in tumourigenesis, however, the underlying molecular mechanisms are poorly understood.ResultsHere we report that the receptor tyrosine kinase-like orphan receptor 2 (ROR2), a transmembrane receptor for Wnt factors that activates non-canonical pathways, is frequently repressed by aberrant promoter hypermethylation in human colon cancer cell lines and primary tumours. By restoring ROR2 activity in colon cancer cells harbouring ROR2 promoter hypermethylation, we show that the role of ROR2 in colon cancer cells is mediated, at least in part, by canonical Wnt and that its epigenetic-dependent loss can be pro-tumourigenic.ConclusionsOur data show the importance of epigenetic alterations of ROR2 in colon cancer, highlighting the close interconnection between canonical and non-canonical Wnt signalling pathways in this type of tumour.

Epigenetic Alterations of the Wnt/β -Catenin Pathway in Human Disease

The Wnt/beta-catenin pathway plays critical roles in cell physiology, including determination, proliferation, migration and differentiation in embryonic development and adult homeostasis. Several components of the Wnt/beta-catenin pathway, such as SFRPs, WIF-1, DKK-1, APC, AXIN2, ICAT, LEF1 and beta-catenin, are the target of mutations or epigenetic inactivation leading to the deregulation or constitutive activation of the Wnt/beta-catenin pathway. Aberrant activation of the Wnt signalling pathway abrogates controlled growth and impairs cell differentiation. Alterations of the Wnt signalling pathway have been found in cancer, osteoporosis, ischemic neuronal death and other human diseases. Here we review the alterations of the Wnt/beta-catenin signalling cascade and discuss the biological significance and relationship between mutation and/or epigenetic silencing within the same pathway.

Vitamin C uncouples the Warburg metabolic switch in KRAS mutant colon cancer

KRAS mutation is often present in many hard-to-treat tumors such as colon and pancreatic cancer and it is tightly linked to serious alterations in the normal cell metabolism and clinical resistance to chemotherapy. In 1931, the winner of the Nobel Prize in Medicine, Otto Warburg, stated that cancer was primarily caused by altered metabolism interfering with energy processing in the normal cell. Increased cell glycolytic rates even in the presence of oxygen is fully recognized as a hallmark in cancer and known as the Warburg effect. In the late 1970′s, Linus Pauling and Ewan Cameron reported that vitamin C may have positive effects in cancer treatment, although deep mechanistic knowledge about this activity is still scarce. We describe a novel antitumoral mechanism of vitamin C in KRAS mutant colorectal cancer that involves the Warburg metabolic disruption through downregulation of key metabolic checkpoints in KRAS mutant cancer cells and tumors without killing human immortalized colonocytes. Vitamin C induces RAS detachment from the cell membrane inhibiting ERK 1/2 and PKM2 phosphorylation. As a consequence of this activity, strong downregulation of the glucose transporter (GLUT-1) and pyruvate kinase M2 (PKM2)-PTB dependent protein expression are observed causing a major blockage of the Warburg effect and therefore energetic stress. We propose a combination of conventional chemotherapy with metabolic strategies, including vitamin C and/or other molecules targeting pivotal key players involved in the Warburg effect which may constitute a new horizon in anti-cancer therapies.

2017 update on the relationship between diabetes and colorectal cancer: epidemiology, potential molecular mechanisms and therapeutic implications

Worldwide deaths from diabetes mellitus (DM) and colorectal cancer increased by 90% and 57%, respectively, over the past 20 years. The risk of colorectal cancer was estimated to be 27% higher in patients with type 2 DM than in non-diabetic controls. However, there are potential confounders, information from lower income countries is scarce, across the globe there is no correlation between DM prevalence and colorectal cancer incidence and the association has evolved over time, suggesting the impact of additional environmental factors. The clinical relevance of these associations depends on understanding the mechanism involved. Although evidence is limited, insulin use has been associated with increased and metformin with decreased incidence of colorectal cancer. In addition, colorectal cancer shares some cellular and molecular pathways with diabetes target organ damage, exemplified by diabetic kidney disease. These include epithelial cell injury, activation of inflammation and Wnt/β-catenin pathways and iron homeostasis defects, among others. Indeed, some drugs have undergone clinical trials for both cancer and diabetic kidney disease. Genome-wide association studies have identified diabetes-associated genes (e.g. TCF7L2) that may also contribute to colorectal cancer. We review the epidemiological evidence, potential pathophysiological mechanisms and therapeutic implications of the association between DM and colorectal cancer. Further studies should clarify the worldwide association between DM and colorectal cancer, strengthen the biological plausibility of a cause-and-effect relationship through characterization of the molecular pathways involved, search for specific molecular signatures of colorectal cancer under diabetic conditions, and eventually explore DM-specific strategies to prevent or treat colorectal cancer.

Deregulation of miR-200b, miR-200c and miR-429 Indicates its Potential Relevant Role in Patients with Colorectal Cancer Liver Metastasis

ION CRISTÓBAL, PhD,* RAÚL RINCÓN, BSc, REBECA MANSO, BSc, CRISTINA CARAMÉS, OSCAR AGUILERA, PhD,* JUAN MADOZ-GURPIDE, PhD, FEDERICO ROJO, MD, PhD, AND JESÚS GARCÍA-FONCILLAS, MD, PhD* Translational Oncology Division, Oncohealth Institute, IIS-Fundacion Jimenez Diaz-UAM, University Hospital “Fundacion Jimenez Diaz”, Madrid, Spain Pathology Department, IIS-Fundacion Jimenez Diaz-UAM, University Hospital “Fundacion Jimenez Diaz”, Madrid, Spain