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Abstract
BackgroundMalignant glioma is the most common primary brain tumor in adults and has a poor prognosis. However, there are no effective targeted therapies for glioma patients. Thus, the development of novel targeted therapeutics for glioma is urgently needed.MethodsIn this study, we examined the prognostic significance BTK expression in patients with glioma. Furthermore, we investigated the mechanism and therapeutic potential of ibrutinib in the treatment of human glioma in vitro and in vivo.ResultsOur data demonstrate that high expression of BTK is a novel prognostic marker for poor survival in patients with glioma. BTK-specific inhibitor ibrutinib effectively inhibits the proliferation, migration and invasion ability of glioma cells. Furthermore, ibrutinib can induce G1 cell-cycle arrest by regulating multiple cell cycle-associated proteins. More importantly, we found that BTK inhibition significantly blocks the degradation of IκBα and prevents the nuclear accumulation of NF-κB p65 subunit induced by EGF in glioma cells.ConclusionsTaken together, our study suggests that BTK is a novel prognostic marker and molecular therapeutic target for glioma. BTK is required for EGFR-induced NF-κB activation in glioma cells. These findings provide the basis for future clinical studies of ibrutinib for the treatment of glioma.
Highlights
Malignant glioma is the most common primary brain tumor in adults and has a poor prognosis
We found that high Bruton’s tyrosine kinase (BTK) expression levels were associated with poor prognosis in patients with lower grade glioma using TCGA LGG dataset (Fig. 1D)
These results suggest that high expression of BTK is a poor prognostic marker for glioma patients
Summary
Malignant glioma is the most common primary brain tumor in adults and has a poor prognosis. There are no effective targeted therapies for glioma patients. The development of novel targeted therapeutics for glioma is urgently needed. Glioma is the most common form of malignant brain cancer in humans. Understanding the molecular mechanism involved in the oncogenesis of glioma is essential for developing more effective treatment and improving patient survival. The NF-κB pathway plays an important role in promoting tumor pathobiology and confers a negative prognosis in patients with glioma [6, 7]. Constitutive activation of NF-κB has been shown to promote tumor cell growth and survival [8, 9]. The precise role of NF-κB activation in the pathogenesis of glioma has not been fully characterized
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