Verónica Castro scite author profile

Summary Identification of bona fide tumor suppressors is often challenging because of the large number of alterations present in most human cancers. To evaluate candidates present within regions recurrently deleted in human cancers we coupled high-resolution genomic analysis with a two-stage genetic study using RNA interference (RNAi). We found that Cyfip1, a subunit of the WAVE complex, which regulates cytoskeletal dynamics, is commonly deleted in human epithelial cancers. Reduced expression of Cyfip1 is commonly observed during invasion of epithelial tumors and it associated with poor prognosis in same tumor types. Silencing of Cyfip1 disturbed normal epithelial morphogenesis in vitro and cooperated with oncogenic Ras to produce invasive carcinomas in vivo. Mechanistically, we have linked alterations in WAVE-regulated actin dynamics with impaired cell-cell adhesion and cell-ECM interactions. Thus, we propose Cyfip1 as an invasion suppressor gene.

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The miR-424(322)/503 cluster orchestrates remodeling of the epithelium in the involuting mammary gland

Llobet‐Navas

Rodríguez-Barrueco

Castro

et al. 2014

Genes Dev.

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The mammary gland is a very dynamic organ that undergoes continuous remodeling. The critical regulators of this process are not fully understood. Here we identify the microRNA cluster miR-424(322)/503 as an important regulator of epithelial involution after pregnancy. Through the generation of a knockout mouse model, we found that regression of the secretory acini of the mammary gland was compromised in the absence of miR-424(322)/503. Mechanistically, we show that miR-424(322)/503 orchestrates cell life and death decisions by targeting BCL-2 and IGF1R (insulin growth factor-1 receptor). Furthermore, we demonstrate that the expression of this microRNA cluster is regulated by TGF-b, a well-characterized regulator of mammary involution. Overall, our data suggest a model in which activation of the TGF-b pathway after weaning induces the transcription of miR-424(322)/503, which in turn down-regulates the expression of key genes. Here, we unveil a previously unknown, multilayered regulation of epithelial tissue remodeling coordinated by the microRNA cluster miR-424(322)/503.

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Verónica Castro

Cyfip1 Is a Putative Invasion Suppressor in Epithelial Cancers

The miR-424(322)/503 cluster orchestrates remodeling of the epithelium in the involuting mammary gland

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