El hexaclorobenceno como factor de riesgo en el cáncer de mama / Hexachlorobenzene as a risk factor in breast cancer

Hexachlorobenzene (HCB) is a widespread environmental pollutant and an endocrine disruptor. Chronic exposure of humans to HCB elicits porphyria, neurologic symptoms, immune disorders and thyroid dysfunctions. It is a dioxin-like compound and a weak ligand of the AhR (aryl hydrocarbon receptor), a transcription factor that modulates genes related to detoxification, proliferation, migration and invasion. This study was carried out to revise the results of HCB action on mammary gland and breast cancer, summarizing the main ideas of its mechanism of action. HCB increases tumor development and active c-Src/EGFR (epidermal growth factor receptor) signaling pathways, while reducing tyrosine537-ER-alpha (estrogen receptor-alpha) phosphorylation, and promoting a phenotype with enhanced malignancy and lung metastasis in different animal models. In a rat mammary gland, HCB promotes an estrogenic microenvironment by activation of ER-alpha and Insulin/IGFs (insulin growth factors) pathways. HCB induces cell proliferation, promoting cell cycle progression and enhancing cyclin D1 expression and c-Src/p27 interaction in (ER-alpha) MCF-7 human breast cancer cell line. In (ER-alpha)(-) MDA-MB-231 breast cancer cells, the pesticide enhances cell migration and invasion as well as metalloproteases and TGF-beta1 (transformig growth factor-beta1) expression. In conclusion our current study suggests that alterations in the estrogenic microenvironment may influence the biological behavior of mammary gland or breast tumors, leading to preneoplastic lesions or enhanced malignancy, respectively. Our findings suggest that HCB may be a risk factor for human breast cancer progression.

El hexaclorobenceno (HCB) es un contaminante ambiental ampliamente distribuido y un desorganizador endocrino. Su exposición crónica en seres humanos produce porfiria, síntomas neurológicos, trastornos inmunitarios y disfunciones tiroideas. Es un agonista débil del receptor de hidrocarburos aromáticos (AhR), un factor de transcripción que modula genes relacionados con el metabolismo de xenobióticos, la proliferación, la migración y la invasión. Nuestro objetivo es revisar los efectos del HCB en la glándula mamaria y el cáncer mamario, resumiendo los principales mecanismos de acción. El HCB aumenta el desarrollo tumoral y activa vías de señalización de c-Src/receptor del factor de crecimiento epidérmico (EGFR), mientras que disminuye la fosforilación de tirosina 537/receptor de estrógenos alfa (RE-alfa), promoviendo un fenotipo de mayor malignidad y metástasis pulmonar en diferentes modelos con animales. En la glándula mamaria de rata genera un microambiente estrogénico por activación del RE-alfa y las vías de insulina/factores de crecimiento similares a la insulina (IGF). En células de cáncer mamario humanas MCF-7 (RE-alfa) induce proliferación celular, promoviendo la progresión del ciclo, aumentando la ciclina D1 y la interacción p27/c-Src. En MDA-MB-231 (-RE-alfa) estimula la migración e invasión, así como la expresión de metaloproteasas y factor de crecimiento transformante beta 1 (TGF-beta 1). Estos estudios indican que las alteraciones en el microambiente estrogénico podrían influir el comportamiento biológico de la glándula mamaria y los tumores, lo que provoca lesiones preneoplásicas o aumento en la malignidad tumoral mamaria. Nuestros hallazgos sugieren que el HCB podría ser un factor de riesgo para la progresión del cáncer de mama humano.

Hexachlorobenzene triggers AhR translocation to the nucleus, c-Src activation and EGFR transactivation in rat liver.

Hexachlorobenzene (HCB) is a widespread environmental pollutant. It has some properties that are typical for dioxin-like compounds that act mainly through the aryl hydrocarbon receptor (AhR) protein. Upon dioxin binding, the AhR translocates to the nucleus and modulates gene expression. At the same time, c-Src kinase frees from the AhR complex and thereby activates its own kinase activity, which acts as a trigger for the growth factor receptor signal transduction pathway. HCB is a weak agonist of the AhR, and the evidence that HCB toxicity is mediated via the AhR complex is limited and inconclusive. In the present study, female Wistar rats were administered HCB (1, 10 and 100mg/kg) for 30 days. Liver cytosolic AhR was translocated to the nucleus. The activity of liver microsomal c-Src increased at all assayed doses. HCB induced the association of the EGFR with c-Src and increased the phosphorylation of EGFR at tyrosine 845 (Tyr845), a known c-Src phosphorylation site. c-Src from WB-F344 cells treated with HCB exhibited increased protein levels and c-Src-pTyr416 phosphorylation than the control cells. Again HCB induced EGFR phosphorylation at Tyr845. Such an effect of HCB could not be detected when c-Src activity was blocked by PP2. All together, our data demonstrates that HCB may induce EGFR transactivation through an c-Src-dependent pathway.