Objectives: To evaluate the effect of tartaric acid (TTA) on Madin-Darby canine kidney (MDCK) cells compared to human kidney (HK)-2 cells. Secondarily, to evaluate the effects of probenecid, an organic anion transporter (OAT)-1 inhibitor, as well as human (h)OAT-4 transfection into MDCK cells to prevent TTA-induced cytotoxicity through decreasing accumulation via OAT-1 uptake inhibition or increasing OAT-4-mediated TTA efflux.
Design: Seventy-two-hour TTA concentration response and inhibitor studies in immortalized cell lines.
Setting: School of Pharmacy biomedical research laboratory and tissue culture facility.
Animals/samples: MDCK and HK-2 immortalized cell lines.
Interventions: Both cell lines were treated with increasing concentrations of TTA for 72 hours. Additionally, MDCK cells were co-incubated with TTA and increasing concentrations of probenecid or had been transfected with hOAT-4 and subsequently treated with TTA for 72 hours.
Measurements and main results: Media and samples were collected and lactate dehydrogenase (LDH) release was measured. LDH release was measured to assess TTA-induced cytotoxicity after 72 hours. LDH was not significantly increased in the HK-2 cells at any concentration but was significantly increased in the MDCK cells from 10 to 100 mM. LDH concentrations were significantly decreased (61%) in MDCK cells incubated with 50 mM TTA and probenecid when compared to TTA alone. hOAT-4 MDCK cell transfection also significantly reduced LDH release (57%) when comparing the transfected MDCK cells to the nontransfected MDCK cells treated with 50 mM TTA.
Conclusions: TTA is a species-specific nephrotoxicant in dogs due to an interspecies difference in OAT-4 expression. Inhibiting TTA uptake in MDCK cells in vitro using the OAT-specific inhibitor, probenecid, prevents TTA-induced cytotoxicity.
Keywords: acute kidney injury; dogs; grape toxicity; toxicant.
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