Integrin α3ß1 as a breast cancer target.

INTRODUCTION: Integrin receptors for cell adhesion to the extracellular matrix have important roles in all stages of cancer progression and metastasis. Since the integrin family was discovered in the early 1980's, many studies have identified critical adhesion and signaling functions for integrins expressed on tumor cells, endothelial cells and other cell types of the tumor microenvironment, in controlling proliferation, survival, migration and angiogenesis. In recent years, the laminin-binding integrin α3ß1 has emerged as a potentially promising anti-cancer target on breast cancer cells. AREAS COVERED: Studies from the past decade that implicate integrins as promising anti-cancer targets and the development of integrin antagonists as anti-cancer therapeutics. Recent preclinical studies that have identified the laminin-binding integrin α3ß1 as an appealing anti-cancer target and the knowledge gaps that must be closed to fully exploit this integrin as a therapeutic target for breast cancer. EXPERT OPINION: Although the tumor-promoting functions of α3ß1 implicate this integrin as a promising therapeutic target on breast cancer cells, successful exploitation of this integrin as an anti-cancer target will require a better understanding of the molecular mechanisms whereby it regulates specific tumor cell behaviors and the identification of the most appropriate α3ß1 functions to antagonize on breast cancer cells.

alpha3beta1 integrin promotes cell survival via multiple interactions between 14-3-3 isoforms and proapoptotic proteins.

Laminin-5 and alpha3beta1 integrin promote keratinocyte survival; however, the downstream signaling pathways for laminin-5/alpha3beta1 integrin-mediated cell survival had not been fully established. We report the unexpected finding of multiple interactions between 14-3-3 isoforms and proapoptotic proteins in the survival signaling pathway. Ln5-P4 motif within human laminin-5 alpha3 chain promotes cell survival and anti-apoptosis by inactivating Bad and YAP. This effect is achieved through the formation of 14-3-3zeta/p-Bad and 14-3-3sigma/p-YAP complexes, which is initiated by alpha3beta1 integrin and FAK/PI3K/Akt signaling. These complexes result in cytoplasmic sequestration of Bad and YAP and their subsequent inactivation. An increase in Akt1 activity in cells induces 14-3-3zeta and sigma, p-Bad, and p-YAP, promoting cell survival, whereas decreasing Akt activity suppresses the same proteins and inhibits cell survival. Suppression of 14-3-3zeta with RNA-interference inhibits cell viability and promotes apoptosis. These results reveal a new mechanism of cell survival whereby the formation of 14-3-3zeta/p-Bad and 14-3-3sigma/p-YAP complexes is initiated by laminin-5 stimulation via the alpha3beta1 integrin and FAK/PI3K/Akt signaling pathways, thereby resulting in cell survival and anti-apoptosis.

Vipera lebetina venom contains two disintegrins inhibiting laminin-binding beta1 integrins.

To explain the myotoxic effects of snake venoms, we searched for inhibitors of alpha7beta1 integrin, the major laminin-binding integrin in skeletal muscle. We discovered two inhibitors in the venom of Vipera lebetina. One of them, lebein-1 (known as lebein), has already been proposed to be a disintegrin because of its RGD-containing primary sequence. The other, lebein-2, is a novel protein that also interacts firmly with alpha3beta1, alpha6beta1, and alpha7beta1 integrins, but not with the collagen-binding alpha1beta1 and alpha2beta1 integrins. Ligand binding of laminin-recognizing beta1 integrins was efficiently blocked by both lebein-1 and lebein-2. In cell attachment assays, lebein-1 and lebein-2 inhibited myoblast attachment not only to laminin, but also to fibronectin. However, neither lebein-1 nor lebein-2 interacted with alpha7beta1 integrin in an RGD-dependent manner, similar to the interaction of the laminin with alpha7beta1 integrin. Identical divalent cation dependence of integrin binding to laminin and to either of the two inhibitors and their mutually exclusive binding suggest that both lebein-1 and lebein-2 interact with the ligand-binding site of laminin-binding beta1 integrins by mimicking the yet unknown integrin-binding structure of laminins. Like lebein-1, lebein-2 is a soluble heterodimeric disintegrin of low molecular mass. Together with membrane-bound ADAM-2 and ADAM-9, the two inhibitors seem to form a small group of disintegrins that can bind to laminin-binding beta1 integrins. Because of their inhibitory capability both in vitro and in vivo, lebein-1 and lebein-2 may be valuable tools in influencing laminin-induced, integrin-mediated cell functions such as cell anchorage, migration, and mechanical force transduction on laminin-rich basement membranes.

Keratinocyte motility induced by TGF-beta1 is accompanied by dramatic changes in cellular interactions with laminin 5.

Transforming growth factor-beta1 (TGF-beta1) has the ability to induce epithelial cell migration while stopping proliferation. In this study, we show that, concomitant to promoting migration of normal human keratinocytes in vitro, TGF-beta1 induced a marked decrease in their adhesion capacity to processed alpha3-containing laminin 5-coated surfaces. Indeed, the expression levels of alpha3 and alpha6 integrin subunit mRNA and protein, as well as the cell surface alpha3beta1 and alpha6beta4 integrins, were down-regulated. Recent studies showed that keratinocytes over express and deposit laminin 5 during migration and we have shown that laminin 5 found in the matrix of TGF-beta1 induced migrating keratinocytes is present in its unprocessed form [Décline and Rousselle, 2001: J. Cell Sci. 114:811-823]. We show here that TGF-beta1 treatment of the cells promoted a significant increase in their adhesion to the alpha3 chain carboxy-terminal LG4/5 subdomain and that this interaction is likely to be mediated by a heparan sulfate proteoglycan type of receptor. Our results indicate that alpha6beta4 and alpha3beta1 integrin interactions with laminin 5 are diminished during migration while a specific interaction occurs between an additional cellular receptor and the alpha3 LG4/5 module present on unprocessed laminin 5.

Modulation in vitro of keratinocyte integrins by interferon-alpha and interferon-gamma.

BACKGROUND: Interferon-alpha and -gamma are glycoproteins with antiviral and immunoregulatory properties. In vitro studies have shown a role for these cytokines in the regulation of epidermal keratinocyte growth and differentiation. In the same way, integrins are adhesion molecules which regulate keratinocyte proliferation and differentiation. AIM: To determine whether the regulatory activity of interferons on keratinocyte proliferation and differentiation is related to a modulation of keratinocyte integrins. METHODS: Two different methods were used: monolayers and reconstituted skin, incubated either with 1,200 U/mL interferon-alpha or 500 U/mL interferon-gamma or control medium for 48 h. The integrin expression was assessed by flow cytometry and immunohistochemistry. RESULTS: In monolayers, only the alpha3 subunit was significantly inhibited by interferon-gamma. In reconstituted skin, where keratinocytes are differentiated, both interferons had an inductive effect on beta1 expression and interferon-alpha had an inhibitory effect on alpha6 expression. CONCLUSION: Interferon-alpha and -gamma induce a modulatory effect on alpha3, alpha6 and beta1 which appears to be related to the state of differentiation. Moreover, the decreased expression of alpha6 and alpha3 could be one of the mechanisms involved in the formation of bullous lesions during long-term interferon therapy.