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Expression of activating transcription factor 5 (ATF5) is increased in astrocytomas of different WHO grades and correlates with survival of glioblastoma patients.

Background: ATF5 suppresses differentiation of neuroprogenitor cells and is overexpressed in glioblastoma (GBM). A reduction of its expression leads to apoptotic GBM cell death. Data on ATF5 expression in astrocytoma WHO grade II (low-grade astrocytoma [LGA]) are scarce and lacking on recurrent GBM.

Patients and methods: ATF5 mRNA was extracted from frozen samples of patients' GBM (n=79), LGA (n=40), and normal brain (NB, n=10), quantified by duplex qPCR and correlated with retrospectively collected clinical data. ATF5 protein expression was evaluated by measuring staining intensity on immunohistochemistry.

Results: ATF5 mRNA was overexpressed in LGA (sevenfold, P <0.001) and GBM (tenfold, P <0.001) compared to NB, which was confirmed on protein level. Although ATF5 mRNA expression in GBM showed a considerable fluctuation range, groups of varying biological behavior, that is, local/multifocal growth or primary tumor/relapse and the tumor localization at diagnosis, were not significantly different. ATF5 mRNA correlated with the patients' age ( r =0.339, P =0.028) and inversely with Ki67-staining ( r =-0.421, P =0.007). GBM patients were allocated to a low and a high ATF5 expression group by the median ATF5 overexpression compared to NB. Kaplan-Meier analysis and Cox regression indicated that ATF5 mRNA expression significantly correlated with short-term survival ( t ,12 months, median survival 18 vs 13 months, P =0.022, HR 2.827) and progression-free survival (PFS) (12 vs 6 months, P =0.024). This advantage vanished after 24 months ( P =0.084).

Conclusion: ATF5 mRNA expression could be identified as an additional, though not independent factor correlating with overall survival and PFS. Since its inhibition might lead to the selective death of glioma cells, it might serve as a potential ubiquitous therapeutic target in astrocytic tumors.

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