Abstract
BackgroundThe CD133(+) stem cell population in recurrent gliomas is associated with clinical features such as therapy resistance, blood-brain barrier disruption and, hence, tumor infiltration. Screening of a large panel of glioma samples increasing histological grade demonstrated frequencies of CD133(+) cells which correlated with high expression of cyclooxygenase (COX)-2 and of membrane type-1 matrix metalloproteinase (MT1-MMP).MethodsWe used qRT-PCR and immunoblotting to examine the molecular interplay between MT1-MMP and COX-2 gene and protein expression in parental, CD133(+), and neurospheres U87 glioma cell cultures.ResultsWe found that CD133, COX-2 and MT1-MMP expression were enhanced when glioma cells were cultured in neurosphere conditions. A CD133(+)-enriched U87 glioma cell population, isolated from parental U87 cells with magnetic cell sorting technology, also grew as neurospheres and showed enhanced COX-2 expression. MT1-MMP gene silencing antagonized COX-2 expression in neurospheres, while overexpression of recombinant MT1-MMP directly triggered COX-2 expression in U87 cells independent from MT1-MMP's catalytic function. COX-2 induction by MT1-MMP was also validated in wild-type and in NF-κB p65-/- mutant mouse embryonic fibroblasts, but was abrogated in NF-κB1 (p50-/-) mutant cells.ConclusionWe provide evidence for enhanced COX-2 expression in CD133(+) glioma cells, and direct cell-based evidence of NF-κB-mediated COX-2 regulation by MT1-MMP. The biological significance of such checkpoint control may account for COX-2-dependent mechanisms of inflammatory balance responsible of therapy resistance phenotype of cancer stem cells.
Highlights
The CD133(+) stem cell population in recurrent gliomas is associated with clinical features such as therapy resistance, blood-brain barrier disruption and, tumor infiltration
We examined whether CD133(+) U87 glioma cells are characterized by increased COX-2 and membrane type-1 matrix metalloproteinase (MT1-MMP) expression, and whether a potential membrane type-1 matrix metalloproteinase (MT1MMP)/COX-2 signalling axis might be important with respect to the therapy-resistant phenotype of cancer stem cells (CSC)
CD133, COX-2 and MT1-MMP expression is increased in neurosphere-like U87 glioma cultures Neurosphere-like brain CSC are thought to contribute to a sub-population of CD133(+) brain CSC [32]
Summary
The CD133(+) stem cell population in recurrent gliomas is associated with clinical features such as therapy resistance, blood-brain barrier disruption and, tumor infiltration. Journal of Neuroinflammation 2009, 6:8 http://www.jneuroinflammation.com/content/6/1/8 lated from tumor tissues, formed neurospheres when cultured in vitro [2,3] Based upon their high expression of the neural precursor cell surface marker CD133 (prominin-1), these CSC have been further hypothesized to bear properties such as resistance to apoptosis and resistance to both drugs and ionizing radiation [4,5]. The effectiveness of COX-2 inhibitors on glioma cell proliferation and radioresponse enhancement was found to be independent of COX-2 protein expression [18] This evidence suggests that alternate signaling molecules are associated to therapy resistance and involved in regulating COX-2 expression. These alternate molecules may possibly become attractive therapeutic targets
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