Apurinic/apyrimidinic endonuclease (Ap endo) is a key DNA repair activity that confers resistance to ionizing radiation and alkylating agents in human cell lines. The major Ap endo in human cells is Ape1, an abundant multi-functional protein also known as Ref-1, Hap-1, and Apex. In this work, we assayed Ap endo activity in human adult gliomas to establish correlates with tumor characteristics, and in histologically normal brain adjacent to tumors to characterize changes in activity accompanying neurocarcinogenesis. To our knowledge, this is the first available analysis of Ap endo activity in human brain tumors. Mean activity in 84 gliomas of different diagnostic types and grades was 0.072 +/- 0.095 fmol abasic sites incised/cell/min, ranging approximately 550-fold from 0.00077 to 0.42. The mean for high-grade gliomas was 3.5-fold greater than for low-grade tumors (P < or = 4.0 x 10(-5)), a difference observed within all diagnostic types. Activity was correlated with the fraction of S-phase cells in diploid gliomas (P < or = 0.02), suggesting that proliferation could be a determinant of activity in these tumors. Activity was also correlated with S-phase fraction in the majority of aneuploid gliomas (P < or = 0.03). Moreover, within the aneuploid tumors, there was a significant relationship between activity and the fraction of aneuploid cells (P < or = 4.0 x 10(-4)). In the 58 cases analyzed, mean activity was 7.3-fold higher in gliomas than in adjacent histologically normal brain (0.070 +/- 0.10 versus 0.0096 +/- 0.012 fmol/cell/min; P < or = 3.0 x 10(-5)). Increased tumor activity was observed in 93% of tumor/normal pairs, indicating that elevation of Ap endo activity is characteristic of human gliomagenesis. The elevation was large within most pairs, being 13-fold on average and > or = 10-fold in 43% of cases. A concomitant increase in Ape1 protein was observed by Western blotting in the subset of tumor/normal pairs examined. A clinically important consequence of the increase in Ap endo activity that accompanies neurocarcinogenesis may be enhanced resistance to the radiotherapy and alkylating agent-based chemotherapy that are mainstays of adjuvant therapy for malignant gliomas.