Cadherins and catenins in breast cancer.

Recent studies show that cadherins and catenins are hormonally regulated and carry out physiological roles during mammary development but have pathological effects when deregulated. E-cadherin expression is irreversibly lost in invasive lobular breast cancer (ILC). Animal models of ILC provide mechanistic insight, confirming that E-cadherin serves as both a tumor suppressor and an invasion suppressor in ILC.

Beta-catenin and cyclin D1: connecting development to breast cancer.

Beta-catenin and cyclin D1 have attracted considerable attention due to their proto-oncogenic roles in human cancer. The finding of cyclin D1 as a direct target gene of beta-catenin in colon cancer cells led to the assumption that cyclin D1 upregulation is pivotal to beta-catenin's oncogenicity. Our recent paper shows that this is not the case; cyclin D1 dampens the oncogenicity of activated beta-catenin (MMTV-DN89beta-catenin).

Dissecting the roles of beta-catenin and cyclin D1 during mammary development and neoplasia.

A considerable body of circumstantial data suggests that cyclin D1 is an attractive candidate to mediate the effects of beta-catenin in mammary tissue. To test the functional significance of these correlative findings, we investigated the genetic interaction between transcriptionally active beta-catenin (DeltaN89beta-catenin) and its target gene cyclin D1 in the mouse mammary gland during pubertal development, pregnancy, and tumorigenesis. Our data demonstrate that cyclin D1 is dispensable for the DeltaN89beta-catenin-stimulated initiation of alveologenesis in virgin females, for the de novo induction of alveoli in males, and for the formation of tumors.

Plasma membrane components of adherens junctions (Review).

This review focuses on the three known plasma membrane components of adherens junctions: E-cadherin, nectin-2 and vezatin. The structures of these three components are discussed, with particular emphasis on the molecular mechanisms by which E-cadherin and nectin-2 promote cell adhesion.