This result is consistent with no major effects of MEK/ERK inhibition on prolifer ation status of muscle and non muscle untransformed cell lines. All together these data are in line with the notion that c Myc is a downstream target of MEK/ERK pathway and suggest that aberrant growth of different tumor cell lines can be halted inhibitor U0126 by targeting c Myc following MEK/ERK inhibition. Although c Myc has previously been reported to be a downstream target of MEKs/ERKs the correla tion between ERK mediated c Myc stability and aberrant growth, though inferable from recent studies in the litera ture, has so far received little attention. Besides inducing growth arrest, U0126 also abolished, in the cell lines used here, anchorage independent growth, as demonstrated by the lack of clones in the soft agar assay.
In addition, in RD cells the comparison of Inhibitors,Modulators,Libraries growth in soft agar in the presence of U0126 or TPA demonstrates that while TPA only reduces the growth potential of RD offer, while a number of papers reporting that c Myc inactivation results in tumor inhibition Inhibitors,Modulators,Libraries and regression. Our data attempt to demonstrate a possible link between these two major targets in a cascade in which MEK/ERK kinases lie upstream of the oncogenic molecule c Myc which, in turn, induces neoplastic transformation. In fact, we here show that ERKs and particularly ERK2, are upstream kinases of c Myc in RD cells as demonstrated by siRNA results. These results are in line with data reported by others that c Myc stability and accumulation is regu lated by ERK mediated phosphorylation of ser62.
Moreover, it is evident the relationship between MEK/ERK inhibition, c Myc down regulation and blockade of cell Inhibitors,Modulators,Libraries transformation in the cell lines Inhibitors,Modulators,Libraries here used. This functional correlation is highly relevant in the field of possible new therapeutic approaches for some human tumor, including rhabdomyosarcoma. In an attempt to determine the specific role of c Myc in sustaining aberrant growth as well as cell transformation and inhibition of differentiation, we used RD cells on account of their ability to undergo growth arrest and myo genic differentiation upon MEK/ERK inhibition. Our data show that MEK/ERK inhibition down regulates cyclin E2, A and B and CDK2, all of which are known to be transcriptional targets of c Myc. It can, con sequently, be hypothesized that the disruption of the c Myc network by ERK depletion is responsible for the failed expression of the relevant cell cycle proteins.
Hypothesising that c Myc expression alone sustains the program for deregulated growth as well as transformation and inhibition of differentiation, we stably Inhibitors,Modulators,Libraries over expressed MadMyc chimera in RD cells to specifically block c Myc activity. We found that growth of MadMyc over expressing RD cells is arrested, as demonstrated by p21WAF1 enhanced expression http://www.selleckchem.com/products/AG-014699.html and cyclin D1, A and B and CDK2 down regulation, as also observed in U0126 treated cells.