Abstract
Malignant gliomas are characterized by neurodegenerative actions leading to the destruction of surrounding brain parenchyma. The disturbance in glutamate homeostasis caused by increased expression of the glutamate transporter xCT plays a key role in glioma progression. We demonstrate that the HDAC-inhibitor SAHA specifically inhibits the xCT-transporter expression. Thereby, tumor cell stress is engendered, marked by increase in ROS. Moreover, SAHA dependent xCT-reduction correlates with the inhibition of ATF4-expression, a factor known to foster xCT expression. Since xCT/system Xc- is pivotal for the brain tumor microenvironment, normalization of this system is a key in the management of malignant gliomas. To date, the problem lay in the inability to specifically target xCT due to the ubiquitous expression of the xCT-transporter—i.e. in non-cancerously transformed cells too—as well as its essential role in physiological CNS processes. Here, we show xCT-transporter equilibration through SAHA is specific for malignant brain tumors whereas SAHA does not affect the physiological xCT levels in healthy brain parenchyma. Our data indicate that SAHA operates on gliomas specifically via normalizing xCT expression which in consequence leads to reduced extracellular glutamate levels. This in turn causes a marked reduction in neuronal cell death and normalized tumor microenvironment.
Highlights
Malignant gliomas are characterized by neurodegenerative actions leading to the destruction of surrounding brain parenchyma
We investigated the extent to which this pan histone deacetylases (HDAC) inhibitor affects the expression of various target genes playing a decisive role in shaping the tumor microenvironment
The secretion of the two amino-acids glutamate and ornithine were uniformly reduced in all 3 cell lines, with significant reduction in glutamate levels already seen at the low concentration of 4 mM SAHA (Fig. 1)
Summary
Malignant gliomas are characterized by neurodegenerative actions leading to the destruction of surrounding brain parenchyma. Our data indicate that SAHA operates on gliomas via normalizing xCT expression which in consequence leads to reduced extracellular glutamate levels. This in turn causes a marked reduction in neuronal cell death and normalized tumor microenvironment. A possible growth-inhibiting mode of action in glioblastomas is the specific up-regulation of the cell cycle control protein p21/WAF23 In this manner, tumor cells are lead to a G0-G1 cell cycle arrest and consecutively to apoptotic cell death[26]. We assume that HDAC-inhibitors can act in a regulatory manner on the decompensated glutamate metabolism in malignant gliomas, which we demonstrate in this study for the first time
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