DNA-incorporated thioguanine to detect potential non-adherence to maintenance therapy in acute lymphoblastic leukemia

Mathilde Rønne Koch; Anna Sofie Buhl Rasmussen; Bodil Als-Nielsen; Ximo Duarte; Gabriele Escherich; Mats Heyman; Kristi Lepik; Johan Malmros; Jacob Nersting; Inga Johannsdottir; Riitta Niinimäki; Malene Johanne Petersen; Heidi Segers; Inge Margriet van der Sluis; Maria Thastrup; Goda Elizabeta Vaitkevičienė; Kjeld Schmiegelow; Linea Natalie Toksvang

doi:10.1007/s00280-025-04784-7

Title	DNA-incorporated thioguanine to detect potential non-adherence to maintenance therapy in acute lymphoblastic leukemia
Authors	Koch, Mathilde Rønne ; Buhl Rasmussen, Anna Sofie ; Als-Nielsen, Bodil ; Duarte, Ximo ; Escherich, Gabriele ; Heyman, Mats ; Lepik, Kristi ; Malmros, Johan ; Nersting, Jacob ; Johannsdottir, Inga ; Niinimäki, Riitta ; Petersen, Malene Johanne ; Segers, Heidi ; van der Sluis, Inge Margriet ; Thastrup, Maria ; Vaitkevičienė, Goda Elizabeta ; Schmiegelow, Kjeld ; Toksvang, Linea Natalie
DOI	10.1007/s00280-025-04784-7
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Is Part of	Cancer chemotherapy and pharmacology.. New York : Springer Nature. 2025, vol. 95, iss. 1, art. no. 76, p. [1-12].. ISSN 0344-5704. eISSN 1432-0843
Keywords [eng]	acute lymphoblastic leukemia ; adherence ; DNA thioguanine ; maintenance therapy ; mercaptopurine ; therapeutic drug monitoring
Abstract [eng]	Purpose: Adherence to 6-mercaptopurine (6-MP)/methotrexate maintenance treatment for acute lymphoblastic leukemia (ALL) is pivotal to preventing relapse, and the 6-MP metabolite DNA-incorporated thioguanine (DNA-TG) is associated with relapse risk. In the ALLTogether-1 (A2G1) Maintenance sub-study (EU CT nr 2022-501050-11-01), DNA-TG, thioguanine nucleotides (TGN), and methylated mercaptopurine metabolites (MeMP) are analyzed regularly. Upon levels below preset limits (TGN < 50, or MeMP < 200 or < 100 nmol/mmol hemoglobin for thiopurine S-methyltransferase (TPMT) wild type and heterozygous patients, respectively), the treating physician is informed of potential non-adherence. We investigated the feasibility of using DNA-TG as the primary flagging of potential non-adherence. Methods: We analyzed 6-MP metabolites in 3,074 blood samples from 368 children enrolled in the A2G1 Maintenance sub-study. Results: In 6% of samples, TGN (median 212, 95% range 40–642), MeMP (median 4,959, 95% range 135–23,880) or both were below the flagging potential non-adherence limits. DNA-TG was associated with TGN (estimate = 1.72, p < 0.0001), MeMP (estimate = 1.10, p < 0.0001), and prescribed 6-MP dose (estimate = 1.083 and 1.132, p < 0.0001, for TPMT wild type and heterozygous patients) in linear effects models, and the predicted probability of treatment interruption in logistic regression models. DNA-TG was below 200 fmol TG/µg DNA (13th percentile of all measurements, median 569, 95% range 73–1,823) in all samples with both TGN and MeMP below the flagging potential non-adherence limits. Conclusion: DNA-TG can provide a cost-effective guidance on when to measure TGN and MeMP to determine whether non-adherence should be suspected, which is an additional benefit to monitoring DNA-TG during maintenance therapy.
Published	New York : Springer Nature
Type	Journal article
Language	English
Publication date	2025
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„DNA-incorporated thioguanine to detect potential non-adherence to maintenance therapy in acute lymphoblastic leukemia“