Pharmacogenetic considerations with dichloroacetate dosing
MO James, PW Stacpoole - Pharmacogenomics, 2016 - Future Medicine
MO James, PW Stacpoole
Pharmacogenomics, 2016•Future MedicineThe investigational drug dichloroacetate (DCA) is a metabolic regulator that has been
successfully used to treat acquired and congenital metabolic diseases and, recently, solid
tumors. Its clinical use has revealed challenges in selecting appropriate doses. Chronic
administration of DCA leads to inhibition of DCA metabolism and potential accumulation to
levels that result in side effects. This is because conversion of DCA to glyoxylate is catalyzed
by one enzyme, glutathione transferase zeta 1 (GSTZ1-1), which is inactivated by DCA …
successfully used to treat acquired and congenital metabolic diseases and, recently, solid
tumors. Its clinical use has revealed challenges in selecting appropriate doses. Chronic
administration of DCA leads to inhibition of DCA metabolism and potential accumulation to
levels that result in side effects. This is because conversion of DCA to glyoxylate is catalyzed
by one enzyme, glutathione transferase zeta 1 (GSTZ1-1), which is inactivated by DCA …
The investigational drug dichloroacetate (DCA) is a metabolic regulator that has been successfully used to treat acquired and congenital metabolic diseases and, recently, solid tumors. Its clinical use has revealed challenges in selecting appropriate doses. Chronic administration of DCA leads to inhibition of DCA metabolism and potential accumulation to levels that result in side effects. This is because conversion of DCA to glyoxylate is catalyzed by one enzyme, glutathione transferase zeta 1 (GSTZ1-1), which is inactivated by DCA. SNPs in the GSTZ1 gene result in expression of polymorphic variants of the enzyme that differ in activity and rates of inactivation by DCA under physiological conditions: these properties lead to considerable variation between people in the pharmacokinetics of DCA.
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