Arsenic Speciation in Urine from Acute Promyelocytic Leukemia Patients undergoing Arsenic Trioxide Treatment

Wang, Zhongwen; Zhou, Jin; Lu, Xiufen; Gong, Zhaoning; Le, X. Chris

doi:10.1021/tx0341714

Cited by 108 publications

(97 citation statements)

References 50 publications

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“…Although the pentavalent forms of monomethylarsonate and dimethylarsinate seem more readily excreted than inorganic arsenic, several studies have shown that MMA3 is more acutely toxic than dimethylarsinate or inorganic arsenic (25)(26)(27)(28)(29)(30)(31)(32). Only a few studies have investigated the presence of MMA3 in nonchelated humans (45,57,58). In a study of six subjects from an arsenic-exposed region in Mexico, the proportion of urinary MMA3 was 0.9%, whereas the proportions of inorganic arsenic, MMA5, DMA3, and DMA5 were 23.5%, 18.5%, 8.8%, 48.2%, respectively (45).…”

Section: Discussionmentioning

confidence: 99%

Intraindividual Variability in Arsenic Methylation in a U.S. Population

Steinmaus

Yuan

Kalman

et al. 2005

Cancer Epidemiology, Biomarkers &Amp; Prevention

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Several recent investigations have reported associations between a reduced capacity to fully methylate inorganic arsenic and increased susceptibility to arsenic-caused cancer. In these studies, methylation patterns were based on a single assessment of urinary arsenic metabolites collected at the time of cancer diagnosis. However, the latency of arsenic-caused cancer may be several decades, and the extent to which a recent measurement can be used to estimate a person's past methylation pattern is unknown. In this investigation, the distribution of urinary inorganic arsenic, monomethylarsonate, and dimethylarsinate was used to assess intraindividual variation in methylation capacity in 81 subjects with low to moderate arsenic exposures. Multiple urine samples were collected from each subject over a 1-year period. Duplicate analyses done on 27 samples were used to assess laboratory measurement imprecision. The intraclass correlation coefficients (ICC) for the proportion of urinary arsenic as inorganic arsenic, monomethylarsonate, and dimethylarsinate in samples taken an average of 258 days apart, were 0.45 [95% confidence interval (95% CI), 0.23-0.63] 0.46 (95% CI, 0.24-0.64), and 0.49 (95% CI, 0.28-0.66). In analyses of duplicate samples, ICCs for the concentration of arsenic species ranged from 0.87 to 0.93, whereas ICCs for species proportions ranged from 0.63 to 0.76. These data suggest that individual methylation patterns remain fairly stable over time, although variability due to measurement imprecision or intraindividual changes over time does occur. This variability could lead to misclassification of methylation patterns and could bias relative risk estimates in studies of methylation and cancer towards the null.

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Section: Discussionmentioning

confidence: 99%

Intraindividual Variability in Arsenic Methylation in a U.S. Population

Steinmaus

Yuan

Kalman

et al. 2005

Cancer Epidemiology, Biomarkers &Amp; Prevention

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“…These observations together with our recent study [31] suggest that biomethylation may in fact generate potentially cytocidal metabolites that may significantly contribute to the therapeutic effect as well as side effects of ATO in APL patients. Indeed, MAs III and DMAs III have been detected in the urine of APL patients undergoing ATO treatment [167] and healthy individuals who have drunk water containing inorganic arsenic [155,168], and in human hepatoma (HepG2) cells exposed to As III [155]. Therefore, elucidation of arsenic metabolism is very important for achieving better therapeutic effects, and is critical in reducing side effects of ATO.…”

Section: Metabolism and Pharmacokineticsmentioning

confidence: 99%

Application of Arsenic Trioxide Therapy for Patients with Leukaemia

Yuan

Yoshino

Kaise

et al. 2010

Biological Chemistry of Arsenic, Antimony and Bismuth

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“…25 Measurements of ATO metabolites in urine have led to differing results across several studies, ranging from 1-8 to 19% or 32À65%. [24][25][26][27] Independently of this unexplained broad range, the results indicate that other elimination mechanisms, such as bile and feces, must have a role in the excretion of high arsenic doses. In a study of adult cancer patients with varying degrees of renal dysfunction, systemic exposure of arsenic and its methylated metabolites following standard dosing of ATO was increased.…”

Section: Pharmacokineticsmentioning

confidence: 97%

Impact of arsenic trioxide in the treatment of acute promyelocytic leukemia

2011

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Arsenic trioxide (ATO) is presently the most active single agent in the treatment of acute promyelocytic leukemia (APL). This review provides insights into the mode of action and the pharmacological properties of ATO, and summarizes the most relevant results of more than 20 treatment studies in relapsed or newly diagnosed APL published between 1997 and 2011. ATO acts by targeting multiple pathways in APL leading to apoptosis and myeloid differentiation. It induces complete remission without myelosuppression and causes only few adverse effects. In relapsed APL, ATO-based salvage therapy has been able to induce long-lasting remissions and possible cure in 50-81% of patients. In newly diagnosed APL, two main strategies are currently pursued. ATO is either included into induction therapy with the aim to minimize or eliminate chemotherapy, or it is incorporated as an additive into established first-line concepts with all-trans-retinoic acid and chemotherapy to reinforce their anti-leukemic efficacy. Recent results suggest a high efficacy of ATO in both concepts. In conclusion, experimental research and clinical studies have made contributions toward a better understanding of the molecular mechanisms induced by ATO in APL cells and have established this historic substance as an important candidate for the further improvement of APL therapy.

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Arsenic Speciation in Urine from Acute Promyelocytic Leukemia Patients undergoing Arsenic Trioxide Treatment

Cited by 108 publications

References 50 publications

Intraindividual Variability in Arsenic Methylation in a U.S. Population

Intraindividual Variability in Arsenic Methylation in a U.S. Population

Application of Arsenic Trioxide Therapy for Patients with Leukaemia

Impact of arsenic trioxide in the treatment of acute promyelocytic leukemia

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