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Query: UMLS:C0035412 (
rhabdomyosarcoma
)
6,156
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The ability of cells to undergo shape changes is essential for diverse cellular functions including cell growth, differentiation, and movement. The present study examines how an integration of the function of alpha2beta1 integrin with that of the receptor for epidermal growth factor (EGFR) modulates EGF-stimulated morphological changes in human
rhabdomyosarcoma
RD transfectant cells. Upon EGF stimulation, RD transfectant cells that lacked alpha2beta1 integrin expression (RDpF) underwent contraction; in contrast, expression of alpha2beta1 on RD cells (RDX2C2) resulted in transient cell spreading. Integrin alpha2 cytoplasmic domain played a critical role in the observed alpha2beta1-mediated conversion from a cell rounding to a cell spreading phenotype. Thus, the expression of an alpha2 cytoplasmic domain deletion variant (X2C0) or a chimeric alpha2beta1 containing the cytoplasmic domain of alpha4 (X2C4) or alpha5 (X2C5), instead of alpha2, failed to mediate spreading upon EGF stimulation. Using dominant negative (DN) mutants of RhoGTPases, results revealed that RhoA activation was required for both EGF-stimulated responses of cell rounding and spreading, Cdc42 functioned in the re-spreading of cells after undergoing EGF-stimulated contraction, and Rac1 was required in alpha2beta1-mediated RD cell spreading. Therefore, alpha2beta1 integrin function can switch the Rho
GTPase
-dependent cell shape changes in RD cells from an EGF-stimulated cell contraction to a spreading morphology. Together, results show that integrin alpha2 cytoplasmic domain plays an indispensable role in the ability of integrin alpha2beta1 to modulate EGF stimulation of Rho-
GTPase
-dependent morphological changes in RD cells.
...
PMID:Integrin alpha2beta1 modulates EGF stimulation of Rho GTPase-dependent morphological changes in adherent human rhabdomyosarcoma RD cells. 1548 Oct 63
Elevated expression of the Eph receptor tyrosine kinase EphA3 is associated with lymphocytic leukaemia, but little is known about its expression or function in solid tumours. Out of a panel of cancer cell lines, we found that EphA3 was expressed only on two
rhabdomyosarcoma
(RMS) cell lines of the embryonal histological subtype and on one of the alveolar RMS subtype, whereas it was not detected on two other cell lines of the alveolar subtype. Other EphA receptors (1-7) were, either not expressed in any, or expressed in all five RMS cell lines. Stimulation of EphA3-expressing TE671 and RD RMS cells with ephrinA5 resulted in loss of adhesion to fibronectin, decreased migration towards the stromal cell-derived growth factor-I (SDF-I), increased EphA3 phosphorylation, and increased Rho
GTPase
activity. In contrast, ectopic expression of EphA3 in the EphA3 negative CRL2061 cell line resulted in decreased cell adhesion. Finally, suppression of EphA3 expression by siRNA in RD cells results in increased SDF-I-mediated motility. These data indicate that EphA3 expression may define subsets of RMS tumours, and that EphA3 suppresses motility through regulation of Rho GTPases in RMS cells.
...
PMID:The EphA3 receptor is expressed in a subset of rhabdomyosarcoma cell lines and suppresses cell adhesion and migration. 1881 79
Rhabdomyosarcoma
(RMS) is the most common soft tissue sarcoma of skeletal muscle origin in children and adolescents. Among RMS subtypes, alveolar
rhabdomyosarcoma
(ARMS), which is characterized by the presence of the PAX3-FOXO1A or PAX7-FOXO1A chimeric oncogenic transcription factor, is associated with poor prognosis and a strong risk of metastasis compared with the embryonal subtype (ERMS). To identify molecular pathways involved in ARMS aggressiveness, we first characterized the migratory behavior of cell lines derived from ARMS and ERMS biopsies using a three-dimensional spheroid cell invasion assay. ARMS cells were more invasive than ERMS cells and adopted an ellipsoidal morphology to efficiently invade the extracellular matrix. Moreover, the invasive potential of ARMS cells depended on ROCK activity, which is regulated by the
GTPase
RhoE. Specifically, RhoE expression was low in ARMS biopsies, and its overexpression in ARMS cells reduced their invasion potential. Conversely, ARHGAP25, a GTPase-activating protein for Rac, was up-regulated in ARMS biopsies. Moreover, we found that ARHGAP25 inhibits Rac activity downstream of ROCKII and is required for ARMS cell invasion. Our results indicate that the RhoE/ROCK/ARHGAP25 signaling pathway promotes ARMS invasive potential and identify these proteins as potential therapeutic targets for ARMS treatment.
...
PMID:The RhoE/ROCK/ARHGAP25 signaling pathway controls cell invasion by inhibition of Rac activity. 2741 8
Rhabdomyosarcoma
(RMS) is the most prevalent pediatric soft tissue sarcoma. Multimodal treatment including surgery and traditional chemotherapy with radiotherapy have contributed to improvements in overall survival rates. However, patients with recurrent or metastatic disease have 5-year survival rates of less than 30%. One reason for the lack of therapeutic advancement is identification and targeting of critical signaling nodes. p21-activated kinases (PAK) are a family of serine/threonine kinases downstream of multiple critical tumorigenic receptor tyrosine kinase (RTK) receptors and oncogenic regulators, including IGFR and RAS signaling, that significantly contribute to aggressive malignant phenotypes. Here we report that RMS cell lines and tumors exhibit enhanced PAK4 expression levels and activity, which are further activated by growth factors involved in RMS development. Molecular perturbation of PAK4 in multiple RMS models in vitro and in vivo resulted in inhibition of RMS development and progression. Fusion-positive and -negative RMS models were sensitive to two PAK4 small molecule inhibitors, PF-3758309 and KPT-9274, which elicited significant anti-tumor and anti-metastatic potential in several primary and metastatic in vivo models, including a relapsed RMS PDX model. Transcriptomic analysis of PAK4 targeted tumors revealed inhibition of the RAS-
GTPase
, Hedgehog, and Notch pathways, along with evidence of activation of anti-tumor immune response signatures. This PAK4 targeting gene signature showed prognostic significance for sarcoma patients. Overall, our results show for the first time that PAK4 is a novel and viable therapeutic target for the treatment of high-risk RMS.
...
PMID:Targeting PAK4 inhibits Ras-mediated signaling and multiple oncogenic pathways in high-risk Rhabdomyosarcoma. 3316 46
Rhabdomyosarcoma
(RMS) is a devastating pediatric sarcoma. The survival outcomes remain poor for patients with relapsed or metastatic disease. Effective targeted therapy is lacking due to our limited knowledge of the underlying cellular and molecular mechanisms leading to disease progression. In this study, we used functional assays in vitro and in vivo (zebrafish and xenograft mouse models) to demonstrate the crucial role of HDAC6, a cytoplasmic histone deacetylase, in driving RMS tumor growth, self-renewal, and migration/invasion. Treatment with HDAC6-selective inhibitors recapitulates the HDAC6 loss-of-function phenotypes. HDAC6 regulates cytoskeletal dynamics to promote tumor cell migration and invasion. RAC1, a Rho family
GTPase
, is an essential mediator of HDAC6 function, and is necessary and sufficient for RMS cell migration and invasion. High expression of RAC1 correlates with poor clinical prognosis in RMS patients. Targeting the HDAC6-RAC1 axis represents a promising therapeutic option for improving survival outcomes of RMS patients.
...
PMID:HDAC6 promotes growth, migration/invasion, and self-renewal of rhabdomyosarcoma. 3319 27
