BACKGROUND: High dose methotrexate (HDMTX) induced renal failure is a medical emergency, as methotrexate (MTX) is primarily eliminated by renal excretion. High doses of leucovorin (LV) do not necessarily prevent toxicity in the presence of sustained elevated plasma MTX concentrations. The bacterial enzyme carboxypeptidase-G2 (CPDG2) hydrolyzes MTX into inactive metabolites and has been demonstrated to lower plasma MTX concentrations to nontoxic levels rapidly in the nonhuman primate after HDMTX infusion. Therefore, CPDG2 was evaluated as a rescue agent in a patient with acute renal dysfunction secondary to HDMTX: METHODS: A 16 year old patient with osteosarcoma experienced acute renal dysfunction after HDMTX administration, which resulted in markedly elevated and sustained plasma MTX concentrations. She received three doses of CPDG2 on the fifth day after HDMTX: Plasma MTX concentrations were determined before and after CPDG2 administration. RESULTS: The plasma MTX concentrations decreased from 60 to 1.2 microM within 15 minutes after the first dose of CPDG2. No rebound increase in plasma MTX concentrations or adverse reactions to the enzyme were observed. The patient developed only mild mucositis. Serum creatinine at the time of CPDG2 administration was 5 mg/dl and returned to normal within 7 weeks of enzyme administration. CONCLUSIONS: Carboxypeptidase-G2 rapidly, markedly, and persistently lowered plasma MTX concentrations to a level that could be rescued safely with LV. Based on the experience with this patient and on preclinical studies in nonhuman primates, CPDG2 appears to be more effective than hemodialysis or hemoperfusion, and may prove beneficial for patients at risk for life-threatening toxicity secondary to delayed excretion of MTX.
BACKGROUND: High dose methotrexate (HDMTX) induced renal failure is a medical emergency, as methotrexate (MTX) is primarily eliminated by renal excretion. High doses of leucovorin (LV) do not necessarily prevent toxicity in the presence of sustained elevated plasma MTX concentrations. The bacterial enzyme carboxypeptidase-G2 (CPDG2) hydrolyzes MTX into inactive metabolites and has been demonstrated to lower plasma MTX concentrations to nontoxic levels rapidly in the nonhuman primate after HDMTX infusion. Therefore, CPDG2 was evaluated as a rescue agent in a patient with acute renal dysfunction secondary to HDMTX: METHODS: A 16 year old patient with osteosarcoma experienced acute renal dysfunction after HDMTX administration, which resulted in markedly elevated and sustained plasma MTX concentrations. She received three doses of CPDG2 on the fifth day after HDMTX: Plasma MTX concentrations were determined before and after CPDG2 administration. RESULTS: The plasma MTX concentrations decreased from 60 to 1.2 microM within 15 minutes after the first dose of CPDG2. No rebound increase in plasma MTX concentrations or adverse reactions to the enzyme were observed. The patient developed only mild mucositis. Serum creatinine at the time of CPDG2 administration was 5 mg/dl and returned to normal within 7 weeks of enzyme administration. CONCLUSIONS: Carboxypeptidase-G2 rapidly, markedly, and persistently lowered plasma MTX concentrations to a level that could be rescued safely with LV. Based on the experience with this patient and on preclinical studies in nonhuman primates, CPDG2 appears to be more effective than hemodialysis or hemoperfusion, and may prove beneficial for patients at risk for life-threatening toxicity secondary to delayed excretion of MTX.
Authors: M-A Estève; B Devictor-Pierre; G Galy; N André; C Coze; B Lacarelle; J-L Bernard; S Monjanel-Mouterde Journal: Eur J Clin Pharmacol Date: 2006-11-18 Impact factor: 2.953
Authors: Brigitte C Widemann; Frank M Balis; AeRang Kim; Matthew Boron; Nalini Jayaprakash; Aiman Shalabi; Michelle O'Brien; Michelle Eby; Diane E Cole; Robert F Murphy; Elizabeth Fox; Percy Ivy; Peter C Adamson Journal: J Clin Oncol Date: 2010-08-02 Impact factor: 44.544
Authors: Jeffrey R Scott; Yinmei Zhou; Cheng Cheng; Deborah A Ward; Hope D Swanson; Alejandro R Molinelli; Clinton F Stewart; Fariba Navid; Sima Jeha; Mary V Relling; Kristine R Crews Journal: Pediatr Blood Cancer Date: 2015-01-28 Impact factor: 3.167
Authors: Kang Min Lee; Hee Woo Lee; Seung Yeon Kim; Hyeon Jeong Lee; Dong Hwan Kim; Joongbum Cho; Dong Ho Kim; Jung Sub Lim; Jin Kyung Lee; Jun Ah Lee Journal: Cancer Res Treat Date: 2011-03-31 Impact factor: 4.679
Authors: Anthony M Christensen; Jennifer L Pauley; Alejandro R Molinelli; John C Panetta; Deborah A Ward; Clinton F Stewart; James M Hoffman; Scott C Howard; Ching-Hon Pui; Alberto S Pappo; Mary V Relling; Kristine R Crews Journal: Cancer Date: 2012-01-17 Impact factor: 6.860
Authors: Marc Ghannoum; Darren M Roberts; David S Goldfarb; Jesper Heldrup; Kurt Anseeuw; Tais F Galvao; Thomas D Nolin; Robert S Hoffman; Valery Lavergne; Paul Meyers; Sophie Gosselin; Tudor Botnaru; Karine Mardini; David M Wood Journal: Clin J Am Soc Nephrol Date: 2022-03-02 Impact factor: 10.614
Authors: S Buchen; D Ngampolo; R G Melton; C Hasan; A Zoubek; G Henze; U Bode; G Fleischhack Journal: Br J Cancer Date: 2005-02-14 Impact factor: 7.640