Your search keyword '"Galkin, Anna"' showing total 4 results

1. A genomic screen identifies TYRO3 as a MITF regulator in melanoma

Author

Zhu, Shoutian, Wurdak, Heiko, Wang, Yan, Galkin, Anna, Tao, Haiyan, Li, Jie, Lyssiotis, Costas A., Yan, Feng, Tu, Buu P., Miraglia, Loren, Walker, John, Sun, Fanxiang, Orth, Anthony, Schultz, Peter G., and Wu, Xu

Subjects

Melanoma -- Genetic aspects, Genetic screening -- Methods, Science and technology

Abstract

Malignant melanoma is the most aggressive form of cutaneous carcinoma, accounting for 75% of all deaths caused by skin cancers. Microphthalmia-associated transcription factor (MITF) is a master gene regulating melanocyte development and functions as a 'lineage addiction' oncogene in malignant melanoma. We have identified the receptor protein tyrosine kinase TYRO3 as an upstream regulator of MITF expression by a genome-wide gain-of-function cDNA screen and show that TYRO3 induces MITF-M expression in a SOX10-dependent manner in melanoma cells. Expression of TYRO3 is significantly elevated in human primary melanoma tissue samples and melanoma cell lines and correlates with MITF-M mRNA levels. TYRO3 overexpression bypasses BRAF(V600E)-induced senescence in primary melanocytes, inducing transformation of non-tumorigenic cell lines. Furthermore, TYRO3 knockdown represses cellular proliferation and colony formation in melanoma cells, and sensitizes them to chemotherapeutic agent-induced apoptosis; TYRO3 knockdown in melanoma cells also inhibits tumorigenesis in vivo. Taken together, these data indicate that TYRO3 may serve as a target for the development of therapeutic agents for melanoma.

Published

2009

2. Identification of NVP-TAE684, a potent, selective, and efficacious inhibitor of NPM-ALK

Author

Galkin, Anna V., Melnick, Jonathan S., Kim, Sungjoon, Hood, Tami L., Li, Nanxin, Li, Lintong, Xia, Gang, Steensma, Ruo, Chopiuk, Greg, Jiang, Jiqing, Wan, Yongqin, Ding, Peter, Liu, Yi, Sun, Fangxian, Schultz, Peter G., Gray, Nathanael S., and Warmuth, Markus

Subjects

Lymphomas -- Research, Enzyme inhibitors -- Research, Science and technology

Abstract

Constitutive overexpression and activation of NPM-ALK fusion protein [t(2:5)(p23;q35)] is a key oncogenic event that drives the survival and proliferation of anaplastic large-cell lymphomas (ALCLs). We have identified a highly potent and selective small-molecule ALK inhibitor, NVP-TAE684, which blocked the growth of ALCL-derived and ALK-dependent cell lines with [IC.sub.50] values between 2 and 10 nM. NVP-TAE684 treatment resulted in a rapid and sustained inhibition of phosphorylation of NPM-ALK and its downstream effectors and subsequent induction of apoptosis and cell cycle arrest. In vivo, NVP-TAE684 suppressed lymphomagenesis in two independent models of ALK-positive ALCL and induced regression of established Karpas-299 lymphomas. NVP-TAE684 also induced down-regulation of CD30 expression, suggesting that CD30 may be used as a biomarker of therapeutic NPM-ALK kinase activity inhibition. anaplastic large-cell lymphoma | CD30 | kinase inhibitor

Published

2007

3. Epithelial membrane protein-1 is a biomarker of gefitinib resistance

Author

Jain, Anjali, Tindell, Charles A., Laux, Isett, Hunter, Jacob B., Curran, John, Galkin, Anna, Afar, Daniel E., Aronson, Nina, Shak, Steven, Natale, Ronald B., and Agus, David B.

Subjects

Lung cancer -- Care and treatment, Lung cancer -- Research, Science and technology

Abstract

We describe a molecular resistance biomarker to gefitinib, epithelial membrane protein-1 (EMP-1). Gefitinib is a small-molecule inhibitor that competes for the ATP-binding site on EGF receptor (EGFR) and has been approved for patients with advanced lung cancers. Treatment with gefitinib has resulted in clinical benefit in patients, and, recently, heterozygous somatic mutations within the EGFR catalytic domain have been identified as a clinical correlate to objective response to gefitinib. However, clinical resistance to gefitinib limits the utility of this therapeutic to a fraction of patients, and objective clinical responses are rare. We aimed to assess the molecular phenotype and mechanism of in vivo gefitinib resistance in xenograft models and in patient samples. We generated in vivo gefitinib-resistance models in an adenocarcinoma xenograft model by serially passaging tumors in nude mice in presence of gefitinib until resistance was acquired. EMP-1 was identified as a surface biomarker whose expression correlated with acquisition of gefitinib resistance. EMP-1 expression was further correlated with lack of complete or partial response to gefitinib in lung cancer patient samples as well as clinical progression to secondary gefitinib resistance. EMP-1 expression and acquisition of gefitinib clinical resistance was independent of gefitinib-sensitizing EGFR somatic mutations. This report suggests the role of the adhesion molecule, EMP-1, as a biomarker of gefitinib clinical resistance, and further suggests a probable cross-talk between this molecule and the EGFR signaling pathway. EGF receptor | HER-kinase axis | tyrosine kinase inhibitor | non-small cell lung cancer

Published

2005

4. Effects of the herbal extract PC-SPES on microtubule dynamics and paclitaxel-mediated prostate tumor growth inhibition

Author

Bonham, Michael J., Galkin, Anna, Montgomery, Bruce, Stahl, William L., Agus, David, and Nelson, Peter S.

Subjects

Medicine, Botanic -- Physiological aspects, Medicine, Herbal, Prostate cancer -- Care and treatment, Microtubules, Health

Abstract

Background: PC-SPES is a botanical preparation shown to have efficacy in patients with androgen-dependent and androgen-independent prostate carcinoma. Several herbal constituents in PC-SPES inhibit tumor growth through cell cycle arrest and apoptosis, although the mechanisms of these activities are poorly defined. We sought to identify PC-SPES-induced changes in gene expression, specifically in those genes encoding cytoskeletal proteins that could be associated with PC-SPES-induced cytoxicity. Methods: LNCaP prostate carcinoma cells were treated with PC-SPES, and changes in gene expression were determined by complementary DNA (cDNA) microarray hybridization and northern blot analyses. PC-SPES and paclitaxel, a microtubulestabilizing drug, effects on microtubules were assessed by immunofluorescence of treated cells and by in vitro tubulin polymerization assays. In vivo effects of PC-SPES and paclitaxel were assessed using CWR22R androgen-independent prostate cancer xenografts. All statistical tests were two-sided. Results: PC-SPES treatment of LNCaP cells for 24 hours altered the expression of 17 cytoskeletal genes, mRNA levels of [alpha]-tubulin decreased sevenfold. Although paclitaxel stabilized and PC-SPES treatment disrupted microtubule architecture in LNCaP cells, the combination of both agents had an intermediate effect. PC-SPES inhibited tubulin polymerization in vitro, even in the presence of paclitaxel. Compared with tumors in control mice (mean tumor volume = 2983 [mm.sup.3], 95% confidence interval [CI] = 2380 to 3586 [mm.sup.3]), tumors were statistically significantly smaller in mice that received PC-SPES (mean tumor volume = 2018 [mm.sup.3], 95% CI = 1450 to 2568 [mm.sup.3]; P = .028), paclitaxel (mean tumor volume = 1340 [mm.sup.3], 95% CI = 697 to 1983 [mm.sup.3]; P

Published

2002