Elizabeth Álvarez-Ríos scite author profile

Ether-à-go-go-1 (Eag1) potassium channels are potential tools for detection and therapy of numerous cancers. Here, we show human Eag1 (hEag1) regulation by cancer-associated factors. We studied hEag1 gene expression and its regulation by estradiol, antiestrogens, and human papillomavirus (HPV) oncogenes (E6/E7). Primary cultures from normal placentas and cervical cancer tissues; tumor cell lines from cervix, choriocarcinoma, keratinocytes, and lung; and normal cell lines from vascular endothelium, keratinocytes, and lung were used. Reverse transcription-PCR (RT-PCR) experiments and Southern blot analysis showed Eag1 expression in all of the cancer cell types, normal trophoblasts, and vascular endothelium, in contrast to normal keratinocytes and lung cells. Estradiol and antiestrogens regulated Eag1 in a cell type-dependent manner. Real-time RT-PCR experiments in HeLa cells showed that Eag1 estrogenic regulation was strongly associated with the expression of estrogen receptor-A. Eag1 protein was detected by monoclonal antibodies in normal placenta and placental blood vessels. Patch-clamp recordings in normal trophoblasts treated with estradiol exhibited potassium currents resembling Eag1 channel activity. Eag1 gene expression in keratinocytes depended either on cellular immortalization or the presence of HPV oncogenes. Eag1 protein was found in keratinocytes transfected with E6/E7 HPV oncogenes. Cell proliferation of E6/E7 keratinocytes was decreased by Eag1 antibodies inhibiting channel activity and by the nonspecific Eag1 inhibitors imipramine and astemizole; the latter also increased apoptosis. Our results propose novel oncogenic mechanisms of estrogen/ antiestrogen use and HPV infection. We also suggest Eag1 as an early indicator of cell proliferation leading to malignancies and a therapeutic target at early stages of cellular hyperproliferation. [Cancer Res 2009;69(8):3300-7]

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Dual regulation of energy metabolism by p53 in human cervix and breast cancer cells

Hernández‐Reséndiz

Román-Rosales

García‐Villa

et al. 2015

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

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The role of p53 as modulator of OxPhos and glycolysis was analyzed in HeLa-L (cells containing negligible p53 protein levels) and HeLa-H (p53-overexpressing) human cervix cancer cells under normoxia and hypoxia. In normoxia, functional p53, mitochondrial enzyme contents, mitochondrial electrical potential (ΔΨm) and OxPhos flux increased in HeLa-H vs. HeLa-L cells; whereas their glycolytic enzyme contents and glycolysis flux were unchanged. OxPhos provided more than 70% of the cellular ATP and proliferation was abolished by anti-mitochondrial drugs in HeLa-H cells. In hypoxia, both cell proliferations were suppressed, but HeLa-H cells exhibited a significant decrease in OxPhos protein contents, ΔΨm and OxPhos flux. Although glycolytic function was also diminished vs. HeLa-L cells in hypoxia, glycolysis provided more than 60% of cellular ATP in HeLa-H cells. The energy metabolism phenotype of HeLa-H cells was reverted to that of HeLa-L cells by incubating with pifithrin-α, a p53-inhibitor. In normoxia, the energy metabolism phenotype of breast cancer MCF-7 cells was similar to that of HeLa-H cells, whereas p53shRNAMCF-7 cells resembled the HeLa-L cell phenotype. In hypoxia, autophagy proteins and lysosomes contents increased 2-5 times in HeLa-H cells suggesting mitophagy activation. These results indicated that under normoxia p53 up-regulated OxPhos without affecting glycolysis, whereas under hypoxia, p53 down-regulated both OxPhos (severely) and glycolysis (weakly). These p53 effects appeared mediated by the formation of p53-HIF-1α complexes. Therefore, p53 exerts a dual and contrasting regulatory role on cancer energy metabolism, depending on the O₂level.

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Resveratrol induces downregulation of DNA repair genes in MCF-7 human breast cancer cells

León-Galicia¹,

Díaz‐Chávez

García‐Villa³

et al. 2013

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To gain insights into the antitumor mechanisms of resveratrol (RES), we carried out a DNA microarray analysis in the breast cancer cell line MCF-7 to study the global gene expression profile induced by RES treatment. The mRNA expression level of 19 734 well-characterized human genes from MCF-7 cells was determined using Affymetrix microarrays under two different RES treatments: 150 μmol/l (IC(50)) and 250 μmol/l during 48 h. A total of 1211 genes were found to have altered mRNA expression levels of two-fold or more in the 150 μmol/l RES-treated group (518 upregulated and 693 downregulated genes). However, 2412 genes were found to have altered expression levels of two-fold or more in the 250 μmol/l RES-treated group (651 genes upregulated and 1761 downregulated). Under both conditions of RES treatment, several genes of mismatch repair, DNA replication, homologous recombination (HR), and cell cycle were strongly inhibited. Consistently, we found decreased protein levels of the MRN complex (MRE11-NBS1-RAD50), an important complex of the HR DNA repair pathway. The ability to inhibit the expression of DNA repair genes by RES could help to overcome drug resistance commonly shown by transformed cells and to provide a solid basis for carrying out clinical trials with RES, alone or in combination with other agents, to enhance treatment efficacy, reduce toxicity, and overcome chemoresistance. Remarkably, after RES treatment, we found a decrease in NBS1 and MRE11 protein levels, two major proteins involved in HR, which suggests that RES could be used to sensitize cancer cells to cell death in combination with anticancer drugs.

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Circulating miR‐15b, miR‐34a and miR‐218 as promising novel early low‐invasive biomarkers of cervical carcinogenesis

Ocadiz-Delgado

Lizcano-Meneses

Trejo‐Vazquez

et al. 2020

APMIS

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Circulating biological markers, such as miRNAs, hold the greatest possibilities to complement tissue biopsy and clinical diagnostic tests. The objective of this study was to evaluate the relative abundance of three circulating miRNAs in serum from 17 HPV16‐positive patients with early cervical lesions known as Low‐Grade Squamous Intraepithelial Lesions (LSILs). The expression of circulating microRNAs miR‐15b, miR‐34a and miR‐218 in patients with LSILs was compared to 23 HPV‐negative individuals showing normal cervical epithelium (healthy women) and 23 Squamous Cell Carcinoma (SCC) samples. The expression levels of miR‐15b remained unchanged while those of miRNAs 34a and 218 were relatively high in serum obtained from LSIL patients in comparison with healthy women (results were statistically significant with a p of < 0.01 or < 0.001). According to previous findings, miR‐15b was overexpressed and miRNAs 34a and 218 were underexpressed in serum from SCC patients. Additionally, the mRNA expression levels of some selected gene targets were determined [Cyclin D1 (CCND1), Cyclin E1 (CCNE1), B‐cell lymphoma 2 (Bcl‐2) and MutS homolog 2 (MSH‐2)]. All serum results correlated with tissue samples from the same patients. We propose that circulating microRNAs can be valuable as molecular markers for the early follow‐up of cervical carcinogenesis risk.

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