Targeting intrinsic apoptosis and other forms of cell death by BH3-mimetics in glioblastoma.

Novel approaches to treat malignant brain tumors are necessary since these neoplasms still display an unfavorable prognosis. Areas covered: In this review, the authors summarize and analyze recent preclinical data that suggest that targeting intrinsic apoptosis may be a suitable strategy for the treatment of malignant gliomas. They focus on the anti-apoptotic Bcl-2 family members of proteins and the recent drug developments in that field with a special focus on BH3-mimetics.

BH3-mimetics and BET-inhibitors elicit enhanced lethality in malignant glioma.

Drug combination therapies remain pivotal for the treatment of heterogeneous malignancies, such as glioblastomas. Here, we show a novel lethal interaction between Bcl-xL and c-myc inhibition accomplished by bromodomain protein inhibitors. Established, patient-derived xenograft and stem cell-like glioma cells were treated with the novel bromodomain protein inhibitors, JQ1 and OTX015, along with BH3-mimetics, ABT263 or Obatoclax.

Immune phenotypes predict survival in patients with glioblastoma multiforme.

Background: Glioblastoma multiforme (GBM), a common primary malignant brain tumor, rarely disseminates beyond the central nervous system and has a very bad prognosis. The current study aimed at the analysis of immunological control in individual patients with GBM.

Methods: Immune phenotypes and plasma biomarkers of GBM patients were determined at the time of diagnosis using flow cytometry and ELISA, respectively.

Combined inhibition of HER1/EGFR and RAC1 results in a synergistic antiproliferative effect on established and primary cultured human glioblastoma cells.

Glioblastoma is the most frequent brain tumor of glial origin in adults. With the best available standard-of-care, patients with this disease have a life expectancy of only approximately 15 months after diagnosis. Because the EGF receptor (HER1/EGFR) is one of the most commonly dysregulated oncogenes in glioblastoma, HER1/EGFR-targeted agents, such as erlotinib, were expected to provide a therapeutic benefit.

Erlotinib in glioblastoma: lost in translation?

Glioblastoma represents the most common primary brain tumor in adults. Despite improvements of multimodal therapy, the prognosis of this disease remains unfavorable. Thus, great efforts have been made to identify therapeutic agents directed against those specific molecular targets whose presence was shown to be associated with worse clinical outcomes.

Betulinic acid as new activator of NF-kappaB: molecular mechanisms and implications for cancer therapy.

Recent evidence demonstrates that the anticancer activity of betulinic acid (BetA) can be markedly increased by combination protocols, for example with chemotherapy, ionizing radiation or TRAIL. Since nuclear factor-kappaB (NF-kappaB), a key regulator of stress-induced transcriptional activation, has been implicated in mediating apoptosis resistance, we investigated the role of NF-kappaB in BetA-induced apoptosis. Here, we provide for the first time evidence that BetA activates NF-kappaB in a variety of tumor cell lines.

A novel role for FAK as a protease-targeting adaptor protein: regulation by p42 ERK and Src.

Cell migration on extracellular matrix requires the turnover of integrin-dependent adhesions. The nonreceptor tyrosine kinases Src and FAK regulate focal-adhesion turnover by poorly understood mechanisms. ERK/MAP kinase-mediated activation of the protease Calpain 2 also promotes focal-adhesion turnover; however, it is not known if this is linked to the activities of Src and FAK.

Src-induced de-regulation of E-cadherin in colon cancer cells requires integrin signalling.

Although Src expression and activity are often elevated in colon cancer, the precise consequences of overexpression of the non-catalytic Src homology (SH) domains, or enhanced catalytic activity, are unknown. We show that, in KM12C colon cancer cells, elevated Src activity causes the components of adherens junctions, including vinculin, to be redistributed to Src-induced integrin adhesion complexes. Specifically, elevated Src activity blocks proper assembly of cell cell contacts after cells are switched from media containing a low level of calcium to media containing a high level of calcium, and E-cadherin remains internalized.