Bumetanide Enhances Phenobarbital Efficacy in a Neonatal Seizure Model
Overview
Affiliations
Objectives: High levels of expression of the Na+-K+-2Cl- (NKCC1) cotransporter in immature neurons cause the accumulation of intracellular chloride and, therefore, a depolarized Cl- equilibrium potential (E(Cl)). This results in the outward flux of Cl- through GABA(A) channels, the opposite direction compared with mature neurons, in which GABA(A) receptor activation is inhibitory because Cl- flows into the cell. This outward flow of Cl- in neonatal neurons is excitatory and contributes to a greater seizure propensity and poor electroencephalographic response to GABAergic anticonvulsants such as phenobarbital and benzodiazepines. Blocking the NKCC1 transporter with bumetanide prevents outward Cl- flux and causes a more negative GABA equilibrium potential (E(GABA)) in immature neurons. We therefore tested whether bumetanide enhances the anticonvulsant action of phenobarbital in the neonatal brain
Methods: Recurrent seizures were induced in the intact hippocampal preparation in vitro by continuous 5-hour exposure to low-Mg2+ solution. The anticonvulsant efficacy of phenobarbital, bumetanide, and the combination of these drugs was studied
Results: Phenobarbital failed to abolish or depress recurrent seizures in 70% of hippocampi. In contrast, phenobarbital in combination with bumetanide abolished seizures in 70% of hippocampi and significantly reduced the frequency, duration, and power of seizures in the remaining 30%
Interpretation: Thus, alteration of Cl- transport by bumetanide enables the anticonvulsant action of phenobarbital in immature brain. This is a mechanistic demonstration of rational anticonvulsant polypharmacy. The combination of these agents may comprise an effective therapy for early-life seizures.
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Dzhala V, Mail M, Staley K Epilepsia. 2024; 65(11):3391-3405.
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The biogenesis of potassium transporters: implications of disease-associated mutations.
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The role of family of cation-chloride cotransporters and drug discovery methodologies.
Zhang S, Meor Azlan N, Josiah S, Zhou J, Zhou X, Jie L J Pharm Anal. 2024; 13(12):1471-1495.
PMID: 38223443 PMC: 10785268. DOI: 10.1016/j.jpha.2023.09.002.
Anti-seizure medications for neonates with seizures.
Abiramalatha T, Thanigainathan S, Ramaswamy V, Pressler R, Brigo F, Hartmann H Cochrane Database Syst Rev. 2023; 10:CD014967.
PMID: 37873971 PMC: 10594593. DOI: 10.1002/14651858.CD014967.pub2.