Kindlin-1 Promotes Pulmonary Breast Cancer Metastasis.

In breast cancer, increased expression of the cytoskeletal adaptor protein Kindlin-1 has been linked to increased risks of lung metastasis, but the functional basis is unknown. Here, we show that in a mouse model of polyomavirus middle T antigen-induced mammary tumorigenesis, loss of Kindlin-1 reduced early pulmonary arrest and later development of lung metastasis. This phenotype relied on the ability of Kindlin-1 to bind and activate ß integrin heterodimers. Kindlin-1 loss reduced α4 integrin-mediated adhesion of mammary tumor cells to the adhesion molecule VCAM-1 on endothelial cells. Treating mice with an anti-VCAM-1 blocking antibody prevented early pulmonary arrest. Kindlin-1 loss also resulted in reduced secretion of several factors linked to metastatic spread, including the lung metastasis regulator tenascin-C, showing that Kindlin-1 regulated metastatic dissemination by an additional mechanism in the tumor microenvironment. Overall, our results show that Kindlin-1 contributes functionally to early pulmonary metastasis of breast cancer.Significance: These findings provide a mechanistic proof in mice that Kindin-1, an integrin-binding adaptor protein, is a critical mediator of early lung metastasis of breast cancer. Cancer Res; 78(6); 1484-96. ©2018 AACR.

Application of SV40 T-transformed human corneal epithelial cells to evaluate potential irritant chemicals for in vitro alternative eye toxicity.

Assessment of eye irritation potential is important to human safety, and it is necessary for various cosmetics and chemicals that may contact the human eye. Until recently, the Draize test was considered the standard method for estimating eye irritation, despite its disadvantages such as the need to sacrifice many rabbits for subjective scoring. Thus, we investigated the cytotoxicity and inflammatory response to standard eye irritants using SV40 T-transformed human corneal epithelial (SHCE) cells as a step toward development of an animal-free alternative eye irritation test. MTT and NRU assays of cell viability were performed to investigate the optimal experimental conditions for SHCE cell viability when cells were exposed to sodium dodecyl sulfate (SDS) as a standard eye irritant at 6.25×10(-3) to 1×10(-1)%. Additionally, cell viability of SHCE cells was examined in response to six potential eye irritants, benzalkonium chloride, dimethyl sulfoxide, isopropanol, SDS, Triton X-100 and Tween 20 at 5×10(-3) to 1×10(-1)%. Finally, we estimated the secretion level of cytokines in response to stimulation by eye irritants in SHCE cells. SHCE cells showed a good response to potential eye irritants when the cells were exposed to potential irritants for 10min at room temperature (RT), and cytokine production increased in a concentration-dependent manner, indicating that cytotoxicity and cytokine secretion from SHCE cells may be well correlated with the concentrations of irritants. Taken together, these results suggest that SHCE cells could be an excellent alternative in vitro model to replace in vivo animal models for eye irritation tests.

Long-term exposure of mesothelial cells to SV40 and asbestos leads to malignant transformation and chemotherapy resistance.

Simian virus 40 (SV40) has been implicated in the development of several cancers including malignant mesothelioma. A definitive role for the virus in human mesothelioma has not been unequivocally demonstrated but has been rigorously debated. The virus clearly has oncogenic potential: the TAg is one of the most potent transforming proteins known and acts synergistically with crocidolite asbestos to transform mesothelial cells. In this study, we show that SV40 oncogenes alone can cause malignant transformation and that asbestos-induced DNA damage and apoptosis occurs principally in cycling cells. After long-term exposure (up to 100 days) to both SV40 and asbestos, cells become resistant to stress-induced senescence. Significantly, these cells demonstrate resistance to chemotherapy-induced apoptosis. This finding has implications for the development of effective treatment options for patients with mesothelioma.

Ras- and PI3K-dependent breast tumorigenesis in mice and humans requires focal adhesion kinase signaling.

Cancer cells require sustained oncogenic signaling in order to maintain their malignant properties. It is, however, unclear whether they possess other dependencies that can be exploited therapeutically. We report here that in a large fraction of human breast cancers, the gene encoding focal adhesion kinase (FAK), a core component of integrin signaling, was amplified and FAK mRNA was overexpressed. A mammary gland-specific deletion of Fak in mice did not seem to affect normal mammary epithelial cells, and these mice were protected from tumors initiated by the polyoma middle T oncoprotein (PyMT), which activates Ras and PI3K. FAK-deficient PyMT-transformed cells displayed both growth arrest and apoptosis, as well as diminished invasive and metastatic capacity. Upon silencing of Fak, mouse mammary tumor cells transformed by activated Ras became senescent and lost their invasive ability. Further, Neu-transformed cells also underwent growth arrest and apoptosis if integrin beta4-dependent signaling was simultaneously inactivated. Human breast cancer cells carrying oncogenic mutations that activate Ras or PI3K signaling displayed similar responses upon silencing of FAK. Mechanistic studies indicated that FAK sustains tumorigenesis by promoting Src-mediated phosphorylation of p130Cas. These results suggest that FAK supports Ras- and PI3K-dependent mammary tumor initiation, maintenance, and progression to metastasis by orchestrating multiple core cellular functions, including proliferation, survival, and avoidance of senescence.

Constitutive achaete-scute homologue-1 promotes airway dysplasia and lung neuroendocrine tumors in transgenic mice.

The transcription factor achaete-scute homologue-1 (ASH1) is essential for neural differentiation during fetal development and is a cardinal feature of neuroendocrine (NE) tumors such as small cell lung cancer. To explore the potential of ASH1 to promote NE differentiation and tumorigenesis in the lung, we constitutively expressed the factor in nonendocrine airway epithelial cells using transgenic mice. Progressive airway hyperplasia and metaplasia developed beginning at 3 weeks of life. ASH1 potently enhanced the tumorigenic effect of SV40 large T antigen in airway epithelium. These doubly transgenic animals developed massive NE lung tumors, implying that ASH1 may cooperate with defects in p53, pRb, or related pathways in promoting NE lung carcinogenesis.

Human HE2 (microB) and microA motifs show the same function as whole IgH intronic enhancer in transgenic mice.

In the murine IgH gene intronic enhancer (ENHiH), two major functional domains were reported. One is the E4/octomer region and another includes the microA and microB motifs. In the human ENHiH, it was reported that the HE2, which corresponds to the murine microB, and E6 motifs play an important role in an enhancer activity and a tissue-specificity at cellular level. Here we examined the in vivo function of the E6, microA and HE2 motifs within the human ENHiH by using the transgenic mice technique. The microA and HE2 motifs together revealed almost the same enhancer function as the whole human ENHiH, but the E6 motif had lesser enhancer activity and tissue-specificity.

PEA3 is overexpressed in mouse metastatic mammary adenocarcinomas.

Transgenic mice bearing the rat neu proto-oncogene under the transcriptional control of the mouse mammary tumor virus (MMTV) promoter develop focal mammary adenocarcinomas after long latency that are metastatic to the lung in a high percentage of the tumor-bearing animals. Because expression of the neu gene in the mammary epithelium precedes the occurrence of tumors, it appears that another genetic event in addition to neu transgene expression is required for tumorigenesis. We have investigated the expression of PEA3, a new member of the ets oncogene family of transcriptional regulatory factors, in neu-induced mammary tumors to learn whether PEA3 plays a role in tumor progression in this organ. We observed high levels of PEA3 RNA in neu-induced tumors, but little, if any, PEA3 RNA in the surrounding mammary epithelium. Moreover, mammary tumors that had metastasized to the lung also overexpressed the PEA3 gene, whereas normal lung tissue did not. Similar results were obtained after analyses of other transgenic mouse lines bearing metastatic mammary tumors induced by polyomavirus middle T antigen. These findings suggest that enhanced expression of PEA3 may be required to facilitate mammary tumor progression and metastasis.

Reversion of middle T antigen-transformed Rat-2 cells by Krev-1: implications for the role of p21c-ras in polyomavirus-mediated transformation.

Polyomavirus middle T antigen mediates transformation of cells, at least in part, by its association with and activation of the intrinsic protein tyrosine kinase activity of pp60c-src. pp60c-src, by analogy with pp60v-src, elicits cell proliferation through a signal transduction pathway that includes p21c-ras. Therefore, we tested the possibility that middle T antigen acts upstream of and in the same proliferative signaling pathway as p21c-ras. Co-transfection of Rat-2 cells with plasmids expressing human Krev-1, a dominant suppressor of Ki-ras transformation, and mT antigen resulted in a dose-dependent reduction of mT antigen-induced foci. Krev-1 did not affect the transforming activity of SV40 large T antigen, demonstrating that the transformation-suppressing activity of Krev-1 is specific. To determine the effect of Krev-1 on stably transformed cell lines, Krev-1 DNA was introduced into middle T antigen-transformed Rat-2 cells along with a G418 resistance marker. Of the G418-resistant colonies examined, 1% were morphologically untransformed. Characterization of several morphological revertants revealed that, with the exception of one cell line, all of the cell lines expressed middle T antigen, which was associated with pp60c-src, whose tyrosine kinase activity was similar to that found in the parental transformed cell lines. To determine whether other phenotypic traits associated with transformation were altered in these cell lines, their growth rates and ability to form colonies in agar suspension were examined. The majority of the revertants had longer doubling times, and grew less efficiently in agar suspension compared with their transformed parents. A direct correlation was observed between Krev-1 RNA and protein expression and the efficiency with which the revertants formed colonies in suspension. These results suggest that p21c-ras lies downstream of middle T antigen and pp60c-src in the same proliferative signal transduction pathway.

Cell lines of the pituitary gonadotrope lineage derived by targeted oncogenesis in transgenic mice.

Study of the molecular and cellular biology of the gonadotropin hormones would be greatly facilitated by the availability of immortalized anterior pituitary gonadotrope cell lines. We directed expression of the simian virus-40 (SV40) T-antigen (Tag) oncogene to specific cells in the anterior pituitary of transgenic mice using the promoter/enhancer region from the human glycoprotein hormone alpha-subunit gene. Transgenic mice carrying this fusion gene developed anterior pituitary tumors. Clonal cell lines established from these tumors express the endogenous mouse alpha-subunit gene and synthesize and secrete alpha-subunit protein. However, they do not express beta-subunit genes. Alpha-subunit mRNA is induced by GnRH in a dose- and time-dependent manner, but is not regulated by TRH. Thus, we have targeted tumorigenesis in transgenic mice to anterior pituitary cells of the gonadotrope lineage to immortalize this specific endocrine cell while maintaining several highly differentiated functions unique to gonadotropes.