Long interspersed nuclear elements (LINE-1) is now considered as the only active autonomous mobile DNA in humans, LINE-1 retrotransposition activities are associated with and fluctuate during cancer initiation and progression; however, the mechanism underlying the increased LINE-1 activity in cancer is poorly understood. SAMHD1 has been reported to be a potent inhibitor of LINE-1 retrotransposition, and SAMHD1 mutations are frequently associated with cancer development. To gain insights on whether cancer-related SAMHD1 mutants affect LINE-1 activity, we explored the biochemical and cellular properties of some human mutants known correlate with the development of cancer. Most of the tested SAMHD1 cancer-related mutations were defective in LINE-1 inhibition. Interestingly we also found that SAMHD1 mutant K288T was defective for dNTPase activity but showed potent activity against LINE-1 retrotransposition. These findings suggest that LINE-1 inhibition does not depend solely on the dNTPase activity of SAMHD1. In contrast, SAMHD1's ability to inhibit ORF2p-mediated LINE-1 RNP reverse transcription was correlated with SAMHD1-mediated LINE-1 inhibition. Together, our data could also facilitate the deeper understanding for the inhibition of endogenous LINE-1 elements by SAMHD1.
Keywords: Cancer; LINE-1; SAMHD1; dNTPase.
Copyright © 2019 Elsevier Inc. All rights reserved.