Efectos nucleares del receptor Tirosina Quinasa ErbB-2 en cáncer de mama / NUCLEAR EFFECTS OF THE ErbB-2 RECEPTOR TYROSINE KINASE IN BREAST CANCER

Aproximadamente 15-20% de los cánceres de mama (CM) presentan sobre- expresión en la membrana citoplasmática de ErbB-2 (MErbB-2), un miembro de la familia ErbBs de receptores con actividad de tirosina quinasa, o bien presentan amplificación del gen. Antes del desarrollo de terapias dirigidas contra el MErbB-2, este subtipo de CM, denominado ErbB-2-positivo, estaba asociado con un aumento en el potencial metastásico del tumor y un mal pronóstico. Estas terapias han aumentado significativamente la sobrevida global y el porcentaje de enfermos curados. Sin embargo, la resistencia a las terapias disponibles actualmente es todavía un importante problema en la clínica. Actuando por su mecanismo clásico, el MErbB-2 activa cascadas de señalización que transducen sus efectos en el cáncer de mama. La presencia del ErbB-2 en el núcleo fue descubierta hace más de veinte años. Evidencias experimentales proporcionadas por varios grupos de investigación, incluyendo el nuestro, revelaron una función no canónica del ErbB-2 en el núcleo celular donde actúa como un regulador de transcripción. Nuestros hallazgos demostraron que el ErbB-2 nuclear estimula el crecimiento del CM, el desarrollo de metástasis y la resistencia a las terapias utilizadas actualmente

Membrane overexpression of ErbB-2 (MErbB-2), a member of the ErbBs family of receptor tyrosine kinases, or ErbB-2 gene amplification, occurs in 15-20% of breast cancers (BC). Until the development of MErbB-2-targeted therapies, this BC subtype, called ErbB-2-positive, was associated with increased metastatic potential and poor prognosis. Although the overall survival and cure rates have improved significantly with such therapies, resistance to available drugs is still a major clinical issue. In its classical mechanism, MErbB-2 activates downstream signal cascades, which transduce its effects in BC. The fact that ErbB-2 is also present at the nucleus of BC cells was discovered over twenty years ago. Also, compelling evidence revealed a non-canonical function of nuclear ErbB-2 as a transcriptional regulator. Since deeper understanding of nuclear ErbB-2 actions would be critical to disclose its role as a biomarker and a target of therapy in BC, we will here review its function in BC, focusing on its role in growth, metastatic spreading, and response to currently available MErbB-2 positive BC therapies.

Factores de crecimiento y oncogenes en adenocarcinomas mamarios inducidos por acetato de medroxyprogesterona en ratones BALB/c / Growth hormones and oncogenes in mammary adenocarcinomas induced by medroxyprogesterone acetate in BALB/c mice

We have studied the involvement of growth factors (GF), their receptors (GF-R) and oncogenes in modulating tumor growth in the medroxyprogesterone acetate (MPA)-induced mammary tumor model in BALB/c mice. We demonstrated the presence of both ligands of the insulin-like growth factor family (IGF-I, IGF-II) and the two types of receptors (IGF-RI, IGF-RII). MPA upregulated IGF-II mRNA and protein levels in hormone-dependent lines (MPA-D). The progression to a hormone-independent phenotype was accompanied by a high constitutive expression of IGF-II and by a significant decrease in IGF-IIR number. An antisense strategy used to evaluate the role of IGF in the MPA-induced growth of epithelial MPA-D cells showed that IGF mediate progestin-induced mammary tumor growth by autocrine/intracrine pathways. We also studied the role of heregulins (HRG), the recently identified ligands for the c-erbB3 and c-erbB4 oncogenes. HRG mRNA expression was restricted to tumors of ductal origin. MPA induced an in vivo up-regulation of HRG expression. Finally, we also found that MPA may be exerting its proliferative effect on MPA-D lines by inhibiting the expression of transforming growth factor beta 1, (TGF-beta 1) and the lack of expression of TGF-beta 1 in hormone-independent tumors may be related to the acquisition of autonomous growth.