Fludarabine resistance mediated by aminoglycoside-3'-phosphotransferase-IIa and the structurally related eukaryotic cAMP-dependent protein kinase [Research]

We present evidence that NeoR-transfected cells do not incorporate fludarabine, thus avoiding DNA damage caused by the drug, evidenced by a lack of FANCD2 monoubiquitination and impaired apoptosis. A screening of other nucleoside analogs revealed that APH(3')-IIa only protects against ATP purine analogs. Moreover, APH(3')-IIa ATPase activity is inhibited by fludarabine monophosphate, suggesting that APH(3')-IIa blocks fludarabine incorporation into DNA by dephosphorylating its active fludarabine triphosphate form. Furthermore, overexpression of the catalytic subunit of the eukaryotic kinase PKA, which is structurally related to APHs, also provides resistance to fludarabine, anticipating its putative utility as a response marker to the drug. Our results preclude the use of Neo marker plasmids in the study of purine analogs and unveils a new resistance mechanism against these chemotherapeuticals.—Sánchez-Carrera, D., Bravo-Navas, S., Cabezón, E., Arechaga, I., Cabezas, M., Yáñez, L., Pipaón, C. Fludarabine resistance mediated by aminoglycoside-3'-phosphotransferase-IIa and the structurally related eukaryotic cAMP-dependent protein kinase.
Source: FASEB Journal - Category: Biology Authors: Tags: Research Source Type: research