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Query: UMLS:C0598934 (
tumor growth
)
58,965
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Deregulation of the receptor tyrosine kinase
c-Met
has been implicated in several human cancers and is an attractive target for small molecule drug discovery. We previously showed that O-linked triazolopyridazines can be potent inhibitors of
c-Met
. Herein, we report the discovery of a related series of N-linked triazolopyridazines which demonstrate nanomolar inhibition of
c-Met
kinase activity and display improved pharmacodynamic profiles. Specifically, the potent time-dependent inhibition of cytochrome P450 associated with the O-linked triazolopyridazines has been eliminated within this novel series of inhibitors. N-linked triazolopyridazine 24 exhibited favorable pharmacokinetics and displayed potent inhibition of HGF-mediated
c-Met
phosphorylation in a mouse liver PD model. Once-daily oral administration of 24 for 22days showed significant
tumor growth
inhibition in an NIH-3T3/TPR-Met xenograft mouse efficacy model.
...
PMID:Discovery and optimization of potent and selective triazolopyridazine series of c-Met inhibitors. 1981 93
Hepatocyte growth factor/scatter factor (HGF/SF) and its receptor,
c-Met
, have been implicated in the growth and progression of a variety of solid human tumors. Thus, inhibiting HGF/SF:
c-Met
signaling may provide a novel therapeutic approach for treating human tumors. We have generated and characterized fully human monoclonal antibodies that bind to and neutralize human HGF/SF. In this study, we tested the effects of the investigational, human anti-human HGF/SF monoclonal antibody, AMG 102, and a mixture of mouse anti-human HGF/SF monoclonal antibodies (Amix) on HGF/SF-mediated cell migration, proliferation, and invasion in vitro. Both agents had high HGF/SF-neutralizing activity in these cell-based assays. The HGF/SF:
c-Met
pathway has been implicated in the growth of sarcomas; thus, we also investigated the effect of AMG 102 on the growth of human leiomyosarcoma (SK-LMS-1) in HGF/SF transgenic C3H severe combined immunodeficient mice engineered to express high levels of human HGF/SF, as well as
tumor growth
of an autocrine variant of the SK-LMS-1 cell line (SK-LMS-1TO) in nude mice. The results indicate that interrupting autocrine and/or paracrine HGF/SF:
c-Met
signaling with AMG 102 has profound antitumor effects. These findings suggest that blocking HGF/SF:
c-Met
signaling may provide a potent intervention strategy to treat patients with HGF/SF:
c-Met
-dependent tumors.
...
PMID:Therapeutic potential of hepatocyte growth factor/scatter factor neutralizing antibodies: inhibition of tumor growth in both autocrine and paracrine hepatocyte growth factor/scatter factor:c-Met-driven models of leiomyosarcoma. 1982
c-Met
is the cellular receptor for hepatocyte growth factor (HGF) and is known to be dysregulated in various types of human cancers. Activation of the HGF/
c-Met
pathway causes tumor progression, invasion, and metastasis. Vascular endothelial growth factor (VEGF) is also known as a key molecule in tumor progression through the induction of tumor angiogenesis. Because of their key roles in tumor progression, these pathways provide attractive targets for therapeutic intervention. We have generated a novel, orally active, small molecule compound, E7050, which inhibits both
c-Met
and vascular endothelial growth factor receptor (VEGFR)-2. In vitro studies indicate that E7050 potently inhibits phosphorylation of both
c-Met
and VEGFR-2. E7050 also potently represses the growth of both c-met amplified tumor cells and endothelial cells stimulated with either HGF or VEGF. In vivo studies using E7050 showed inhibition of the phosphorylation of
c-Met
and VEGFR-2 in tumors, and strong inhibition of
tumor growth
and tumor angiogenesis in xenograft models. Treatment of some tumor lines containing c-met amplifications with high doses of E7050 (50-200 mg/kg) induced tumor regression and disappearance. In a peritoneal dissemination model, E7050 showed an antitumor effect against peritoneal tumors as well as a significant prolongation of lifespan in treated mice. Our results indicate that E7050 is a potent inhibitor of
c-Met
and VEGFR-2 and has therapeutic potential for the treatment of cancer.
...
PMID:E7050: a dual c-Met and VEGFR-2 tyrosine kinase inhibitor promotes tumor regression and prolongs survival in mouse xenograft models. 1983 44
The nonsteroidal anti-inflammatory drug (NSAID), tolfenamic acid (TA) is emerging as a new anti-cancer agent. TA induces the degradation of specific Specificity protein (Sp) transcription factors, Sp1, Sp3 and Sp4 which are associated with
tumor growth
and metastasis. In this study we have evaluated the effect of TA on lung cancer using both in vitro and in vivo models. TA in a dose dependent manner inhibited proliferation and cell viability of two different lung cancer cells, A549 and CRL5803. TA treatment for 48 h significantly decreased the expression of Sp1, Sp3 and Sp4. The hepatocyte growth factor receptor,
c-Met
is overexpressed in a variety of cancers including lung cancer and Sp proteins mediate the regulation of
c-Met
. TA diminished the expression of
c-Met
protein and modulates its downstream signaling pathway. Furthermore, TA treatment significantly increased the number of apoptotic cells and pro-apoptotic markers c-PARP and Bax confirming the activation of apoptotic pathways. In vivo studies using the orthotopic mice model for lung cancer showed that TA (25 mg/kg/2 days and 50 mg/kg/2 days) resulted in a dose dependent decrease in tumor formation. The immunohistochemical staining of lung tissue showed high expression of Sp1, Sp3, Sp4,
c-Met
and phospho Met in control group and a dose dependent decrease in TA treated groups. The crucial findings of this study support that targeting
c-Met
with a potent inhibitor of Sp proteins is a robust strategy for the implications in lung cancer treatment and TA can serve as a therapeutic agent for this devastating disease.
...
PMID:Tolfenamic acid decreases c-Met expression through Sp proteins degradation and inhibits lung cancer cells growth and tumor formation in orthotopic mice. 1985 11
The
c-Met
signaling pathway is one of the main regulators of cell proliferation, differentiation, apoptosis, and other cellular processes. As aberrant expression of
c-Met
has been implicated in
tumor growth
, invasion, and metastasis,
c-Met
is recognized as a promising target for cancer therapeutics. In continuation of our search for small molecules with anticancer properties, we investigated the binding of bis-benzimidazole derivative Hoechst-33258 to the promoter region 24RY, -142 to -119 (5'-GGGGCAGAGGCGGGAGGAAACGCG-3', 24R and its complement 5'-CGCGTTTCCTCCCGCCTCTGCCCC-3', 24Y), upstream to the transcriptional start site of the c-met gene. Strong complexation of duplex 24RY-Hoechst is revealed by a high binding constant K, 3.25 x 10(5) M(-1), with significant changes of Delta DeltaG (-10 kcal/mol), Delta DeltaH (-83 kcal/mol), Delta DeltaS (-241 cal/[mol K]), and melting temperature (DeltaT(m) = +8 degrees C). This is accompanied by bathochromic shift of 10 nm, 50% hypochromism at 340 nm, isobestic points at 302 and 369 nm in absorption spectra, and induced emission band at 465 nm in the fluorescence spectra of Hoechst. Molecular modeling data demonstrated that Hoechst binds to consecutive GGs in the minor groove of 24RY containing residues 12-17. Therefore, Hoechst-33258 can be a potential anticancer agent against malignancies associated with
c-Met
upregulation.
...
PMID:Molecular aspects of the interaction of Hoechst-33258 with GC-rich promoter region of c-met. 1989 36
The contribution of lipid metabolic pathways to malignancy is poorly understood. Expression of the fatty acyl-CoA synthetase ACSVL3 was found to be markedly elevated in clinical malignant glioma specimens but nearly undetectable in normal glia. ACSVL3 levels correlated with the malignant behavior of human glioma cell lines and glioma cells propagated as xenografts. ACSVL3 expression was induced by the activation of oncogenic receptor tyrosine kinases (RTK)
c-Met
and epidermal growth factor receptor. Inhibiting
c-Met
activation with neutralizing anti-hepatocyte growth factor monoclonal antibodies reduced ACSVL3 expression concurrent with
tumor growth
inhibition in vivo. ACSVL3 expression knockdown using RNA interference, which decreased long-chain fatty acid activation, inhibited anchorage-dependent and anchorage-independent glioma cell growth by approximately 70% and approximately 90%, respectively. ACSVL3-depleted cells were less tumorigenic than control cells, and subcutaneous xenografts grew approximately 60% slower than control tumors. Orthotopic xenografts produced by ACSVL3-depleted cells were 82% to 86% smaller than control xenografts. ACSVL3 knockdown disrupted Akt function as evidenced by RTK-induced transient decreases in total and phosphorylated Akt, as well as glycogen synthase kinase 3beta, via a caspase-dependent mechanism. Expressing constitutively active myr-Akt rescued cells from the anchorage-dependent and anchorage-independent growth inhibitory effects of ACSVL3 depletion. These studies show that ACSVL3 maintains oncogenic properties of malignant glioma cells via a mechanism that involves, in part, the regulation of Akt function.
...
PMID:Acyl-CoA synthetase VL3 knockdown inhibits human glioma cell proliferation and tumorigenicity. 1992 Jan 85
We identified NK4, the N-terminal and four kringle domains of hepatocyte growth factor (HGF), as a specific inhibitor of HGF. NK4 binds to the Met/
HGF receptor
, but does not activate the Met receptor, thereby competitively inhibiting the HGF-Met pathway. Independent of its inhibition of HGF-Met, NK4 acts as an angiogenesis inhibitor. The angioinhibitory action of NK4 is mediated by perlecan, a multidomain proteoglycan involved in vascular basement membrane assembly. The extracellular binding of NK4 to perlecan inhibits cell-associated assembly of fibronectin, and the impaired fibronectin assembly suppresses integrin-dependent angiogenic responses, i.e., endothelial cell proliferation, migration and tube formation. NK4 or an NK4-like fragment is generated by proteases expressed in inflammatory cells, suggesting regulation of physiological or pathological processes by NK4 or NK4-like fragments. In a variety of cancer models, NK4 exhibited anti-cancer effects due to its bifunctional characteristics, including inhibition of invasion and metastasis, inhibition of angiogenesis-dependent
tumor growth
, and promotion of survival. Several lines of strategies and different molecules that inhibit the HGF-Met pathway have been developed, including small molecular inhibiters of Met tyrosine kinase. The biological action of NK4 as an angiogenesis inhibitor has definite advantages over other molecules. In addition to the well-acknowledged role of HGF-Met in cancer invasion and metastasis, recent studies indicate that activation of the HGF-Met pathway makes tumor-initiating cells invasive and resistant to chemical and radiation therapy. Treatment with NK4 could offer a new therapeutic option for the inhibition of cancer metastasis and growth, and better outcomes for cancer patients.
...
PMID:Anti-cancer approach with NK4: Bivalent action and mechanisms. 2001 5
The receptor tyrosine kinase,
c-Met
and its ligand hepatocyte growth factor (HGF) are important regulators of malignancy in human cancer including brain tumors.
c-Met
is frequently activated in brain tumors and has emerged as a promising target for molecular therapies. Recently, an orally bioavailable small molecule kinase inhibitor of
c-Met
(SGX523) was developed by SGX Pharmaceuticals. We tested the effects of this inhibitor on
c-Met
brain tumor cell activation,
c-Met
-dependent malignancy, and in vivo glioma xenograft growth. SGX523 potently inhibited
c-Met
activation and
c-Met
-dependent signaling at nanomolar concentrations in glioma cells, primary gliomas, glioma stem cells and medulloblastoma cells. SGX523 treatment inhibited
c-Met
-dependent brain tumor cell proliferation and G1/S cell cycle progression. SGX523 also inhibited brain tumor cell migration and invasion. Furthermore, systemic delivery of SGX523 via oral gavage to mice bearing orthotopic human glioblastoma xenografts led to a significant decrease of in vivo
tumor growth
. These studies show that
c-Met
activation and
c-Met
-dependent brain tumor cell and stem cell malignancy can be inhibited by small molecules. The study also shows for the first time that oral delivery of a small molecule kinase inhibitor of
c-Met
inhibits intracranial
tumor growth
. These findings suggest that targeting
c-Met
with small molecule kinase inhibitors is a promising approach for brain tumor therapy.
...
PMID:An orally bioavailable c-Met kinase inhibitor potently inhibits brain tumor malignancy and growth. 2001 6
Clear cell sarcoma (CCS), a childhood tumor of the tendons and aponeuroses, is uniformly fatal once it has metastasized because of its profound therapeutic resistance. CCS is characterized by production of a chimeric transcription factor, EWS-ATF1, which is formed as the result of a disease-specific chromosomal translocation. EWS-ATF1 activates the melanocyte transcription factor MITF, which in turn activates transcription of
c-Met
, an oncogenic receptor tyrosine kinase recently shown to be activated in CCS. Based on this connection, we hypothesized that
c-Met
inhibition may offer a strategy to treat CCS, as an indirect tactic to defeat a transforming pathway downstream of EWS-ATF1. Here, we show that primary CCS and CCS-derived cell lines express
c-Met
, which is activated in an autocrine fashion by its ligand hepatocyte growth factor (HGF)/scatter factor in some CCS cell lines.
c-Met
expression is critical for CCS invasion, chemotaxis, and survival. Blocking
c-Met
activity with a small-molecule inhibitor (SU11274) or a neutralizing antibody to its ligand HGF (AMG 102) significantly reduced CCS cell growth in culture. Similarly, AMG 102 significantly suppressed in vivo
tumor growth
in an autocrine xenograft model of CCS. Collectively, these findings suggest the HGF:
c-Met
signaling axis as a candidate therapeutic target to improve clinical management of CCS.
...
PMID:Identification of the receptor tyrosine kinase c-Met and its ligand, hepatocyte growth factor, as therapeutic targets in clear cell sarcoma. 2006 47
NK4 exhibits two distinct biological actions: antagonistic inhibition of hepatocyte growth factor (HGF) through binding to the Met/
HGF receptor
, and antiangiogenic action through binding to perlecan. Here, the anti-tumor effect of NK4 on malignant pleural mesothelioma was investigated. Of the 7 human malignant mesothelioma cell lines (ACC-Meso-1, ACC-Meso-4, EHMES-1, EHMES-10, H28, H2052 and JMN-1B), only EHMES-10 cells formed subcutaneous tumors when implanted into mice. For EHMES-10 cells, HGF facilitated invasion of the cells in collagen gel, whereas NK4 and neutralizing anti-HGF antibody suppressed the HGF-induced invasion. In addition, NK4 but not anti-HGF antibody suppressed proliferation of EHMES-10 cells in collagen, suggesting that the suppression by NK4 was independent of the HGF-Met pathway. In the subcutaneous tumor model, recombinant adenovirus-mediated intratumoral expression of NK4 inhibited
tumor growth
, while the invasive characteristic of tumor cells was not observed. Analysis of Met receptor tyrosine phosphorylation, proliferation, apoptosis and blood vessels in the tumor tissues indicated that the inhibitory effect of NK4 expression might be primarily caused by the inhibition of tumor angiogenesis. In all the 7 mesothelioma lines, HGF stimulated Met tyrosine phosphorylation, and this was associated with enhanced cell migration. HGF-dependent Met activation and migration were inhibited by NK4. Since malignant pleural mesothelioma represents an aggressive neoplasm characterized by extensive invasive growth, suppression of invasive growth has therapeutic value. Thus, the simultaneous inhibition of the HGF-Met pathway and angiogenesis by NK4 for treatment of malignant pleural mesothelioma is significant, particularly to attenuate migration and invasive growth.
...
PMID:Inhibition of Met/HGF receptor and angiogenesis by NK4 leads to suppression of tumor growth and migration in malignant pleural mesothelioma. 2010 19
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