Tranexamic acid concentrations associated with human seizures inhibit glycine receptors
Irene Lecker, … , C. David Mazer, Beverley A. Orser
Irene Lecker, … , C. David Mazer, Beverley A. Orser
Published November 26, 2012
Citation Information: J Clin Invest. 2012;122(12):4654-4666. https://doi.org/10.1172/JCI63375.
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Research Article

Tranexamic acid concentrations associated with human seizures inhibit glycine receptors

Abstract

Antifibrinolytic drugs are widely used to reduce blood loss during surgery. One serious adverse effect of these drugs is convulsive seizures; however, the mechanisms underlying such seizures remain poorly understood. The antifibrinolytic drugs tranexamic acid (TXA) and ε-aminocaproic acid (EACA) are structurally similar to the inhibitory neurotransmitter glycine. Since reduced function of glycine receptors causes seizures, we hypothesized that TXA and EACA inhibit the activity of glycine receptors. Here we demonstrate that TXA and EACA are competitive antagonists of glycine receptors in mice. We also showed that the general anesthetic isoflurane, and to a lesser extent propofol, reverses TXA inhibition of glycine receptor–mediated current, suggesting that these drugs could potentially be used to treat TXA-induced seizures. Finally, we measured the concentration of TXA in the cerebrospinal fluid (CSF) of patients undergoing major cardiovascular surgery. Surprisingly, peak TXA concentration in the CSF occurred after termination of drug infusion and in one patient coincided with the onset of seizures. Collectively, these results show that concentrations of TXA equivalent to those measured in the CSF of patients inhibited glycine receptors. Furthermore, isoflurane or propofol may prevent or reverse TXA-induced seizures.

Authors

Irene Lecker, Dian-Shi Wang, Alexander D. Romaschin, Mark Peterson, C. David Mazer, Beverley A. Orser

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Figure 4

EACA competitively inhibits glycine receptors, whereas aprotinin does not.

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EACA competitively inhibits glycine receptors, whereas aprotinin does no...
(A) Inhibition of glycine (100 μM)–activated current by EACA (10 mM) in cortical neurons. The corresponding concentration-response plot shows IC50 = 12.3 ± 0.9 mM (n = 5–6). (B) Plots for current recorded in the absence and presence of EACA (10 mM) show a rightward shift in the presence of EACA. The EC50 values and Hill coefficients for EACA were 134.1 ± 4.7 μM and 1.7 ± 0.2, respectively (n = 5–6). All values were normalized to currents evoked by glycine (100 μM). (C) Aprotinin (100 μM) has no effect on glycine (100 μM)–evoked current in cortical neurons. The graph shows that aprotinin (1–100 μM) failed to inhibit glycine-evoked current (n = 5). Data are mean ± SEM.