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Query: UMLS:C0017636 (
glioblastoma
)
18,345
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We recently reported that
CMPD1
, originally developed as an inhibitor of MK2 activation, primarily inhibits tubulin polymerisation and induces apoptosis in
glioblastoma
cells. In the present study we provide detailed pharmacological investigation of
CMPD1
analogues with improved molecular properties. We determined their anti-cancer efficacy in
glioblastoma
cells with enhanced EGFR signalling, as deregulated EGFR often leads to chemoresistance. Eight analogues of
CMPD1
with varying lipophilicity and basicity were synthesised and tested for efficacy in the cell viability assay using established
glioblastoma
cell lines and patient-derived primary
glioblastoma
cells. The mechanism of action for the most potent analogue 15 was determined using MK2 activation and tubulin polymerisation assays, together with the immunofluorescence analysis of the mitotic spindle formation. Apoptosis was analysed by Annexin V staining, immunoblotting analysis of bcl-2 proteins and PARP cleavage. The apoptotic activity of
CMPD1
and analogue 15 was comparable across
glioblastoma
cell lines regardless of the EGFR status. Primary
glioblastoma
cells of the classical subtype that are characterized by enhanced EGFR activity were most sensitive to the treatment with
CMPD1
and 15. In summary, we present mechanism of action for a novel small molecule tubulin inhibitor, compound 15 that inhibits tubulin polymerisation and mitotic spindle formation, induces degradation of anti-apoptotic bcl-2 proteins and leads to apoptosis of
glioblastoma
cells. We also demonstrate that the enhanced EGFR activity does not decrease the efficacy of tubulin inhibitors developed in this study.
...
PMID:Pharmacology of novel small-molecule tubulin inhibitors in glioblastoma cells with enhanced EGFR signalling. 2651 52
MAPK-activated protein kinase 2 (MK2) is a checkpoint kinase involved in the DNA damage response. MK2 inhibition enhances the efficacy of chemotherapeutic agents; however, whether MK2 inhibition alone, without concurrent chemotherapy, would attenuate survival of cancer cells has not been investigated.
CMPD1
is a widely used non-ATP competitive inhibitor that prevents MK2 phosphorylation. We employed
CMPD1
together with MK2 knock-down and ATP-competitive MK2 inhibitor III (MK2i) in a panel of
glioblastoma
cells to assess whether MK2 inhibition could induce cancer cell death. While
CMPD1
was effective at selective killing of cancer cells, MK2i and MK2 knock-down had no effect on viability of
glioblastoma
cells.
CMPD1
treatment induced a significant G2/M arrest but MK2i-treated cells were only minimally arrested at G1 phase. Intriguingly, at doses that were cytotoxic to
glioblastoma
cells,
CMPD1
did not inhibit phosphorylation of MK2 and of its downstream substrate Hsp27. These results suggest that
CMPD1
exhibits cytotoxic activity independently of MK2 inhibition. Indeed, we identified tubulin as a primary target of the
CMPD1
cytotoxic activity. This study demonstrates how functional and mechanistic studies with appropriate selection of test compounds, combining genetic knock-down and pharmacological inhibition, coordinating timing and dose levels enabled us to uncover the primary target of an MK2 inhibitor commonly used in the research community. Tubulin is emerging as one of the most common non-kinase targets for kinase inhibitors and we propose that potential tubulin-targeting activity should be assessed in preclinical pharmacology studies of all novel kinase inhibitors.
...
PMID:Cytotoxic activity of the MK2 inhibitor CMPD1 in glioblastoma cells is independent of MK2. 2755 60
