Bumetanide Hyperpolarizes Madin–Darby Canine Kidney Cells and Enhances Cellular Gentamicin Uptake by Elevating Cytosolic Ca2+ Thus Facilitating Intermediate Conductance Ca2+-Activated Potassium Channels

Abstract: Loop diuretics such as bumetanide and furosemide enhance aminoglycoside ototoxicity when co-administered to patients and animal models. The underlying mechanism(s) is poorly understood. We investigated the effect of these diuretics on cellular uptake of aminoglycosides, using Texas Red-tagged gentamicin (GTTR), and intracellular/whole-cell recordings of Madin-Darby Canine kidney (MDCK) cells. We found that bumetanide and furosemide concentration-dependently enhanced cytoplasmic GTTR fluorescence by ~60%. This … Show more

“…Heterologous expression of SGLT2 in distal tubule-derived KDT3 cells significantly enhanced GTTR uptake, and this enhanced uptake can be abolished by phlorizin. The residual uptake of GTTR in these cells after phlorizin treatment likely represents GTTR uptake via previously-identified gentamicin-permeant cation channels, as demonstrated previously [14] , [15] , [69] . Furthermore, siRNA knockdown of SGLT2 expression in KPT2 cells reduced cellular susceptibility to gentamicin-induced cytotoxicity.…”

Sodium-Glucose Transporter-2 (SGLT2; SLC5A2) Enhances Cellular Uptake of Aminoglycosides

“…Heterologous expression of SGLT2 in distal tubule-derived KDT3 cells significantly enhanced GTTR uptake, and this enhanced uptake can be abolished by phlorizin. The residual uptake of GTTR in these cells after phlorizin treatment likely represents GTTR uptake via previously-identified gentamicin-permeant cation channels, as demonstrated previously [14] , [15] , [69] . Furthermore, siRNA knockdown of SGLT2 expression in KPT2 cells reduced cellular susceptibility to gentamicin-induced cytotoxicity.…”

Sodium-Glucose Transporter-2 (SGLT2; SLC5A2) Enhances Cellular Uptake of Aminoglycosides

“…Besides endocytosis, there are also endocytosis-independent pathways using cation channels [3]. Interestingly, in vitro models have documented that loop diuretics like furosemide or bumetanide enhance aminoglycoside uptake through hyperpolarization of the cell, increasing cation influx cation force [4]. It is therefore reasonable to hypothesize that in the NEMO trial the pharmacodynamic effect of bumetanide stimulated a cation influx force that resulted in intracellular aminoglycoside accumulation, subsequent toxicity, and unavoidable cell death [4].…”

“…Interestingly, in vitro models have documented that loop diuretics like furosemide or bumetanide enhance aminoglycoside uptake through hyperpolarization of the cell, increasing cation influx cation force [4]. It is therefore reasonable to hypothesize that in the NEMO trial the pharmacodynamic effect of bumetanide stimulated a cation influx force that resulted in intracellular aminoglycoside accumulation, subsequent toxicity, and unavoidable cell death [4]. In addition, based on animal studies, the mechanism of megalin-independent ion channel driven accumulation of aminoglycosides has also been suggested to explain the synergism between exposure to noise and aminoglycoside toxicity [5].…”

A Mechanism to Explain Ototoxicity in Neonates Exposed to Bumetamide: Lessons to Help Improve Future Product Development in Neonates

“…8 None of the infants included in our study had either high trough or high peak aminoglycoside levels, or hypoglycaemia. It is plausible that aminoglycosides and loop diuretics (such as bumetanide) act synergistically to produce ototoxicity, 9 and so extreme caution is required before co-administering these types of drug. We are also surprised at the authors' statement that "we do not know whether [hypothermia] is also beneficial in humans" in terms of reducing seizure burden.…”

Bumetanide for neonatal seizures—back from the cotside