1. Palytoxin evokes reversible spreading depolarization in the locust CNS.
- Author
-
Wang Y, Van Dusen RA, McGuire C, Andrew RD, and Robertson RM
- Subjects
- Animals, Central Nervous System drug effects, Central Nervous System physiology, Sodium-Potassium-Exchanging ATPase metabolism, Sodium-Potassium-Exchanging ATPase antagonists & inhibitors, Male, Polyether Toxins, Locusta migratoria drug effects, Locusta migratoria physiology, Acrylamides pharmacology, Cnidarian Venoms pharmacology, Ouabain pharmacology
- Abstract
Spreading depolarization (SD) describes the near-complete depolarization of central nervous system (CNS) neural cells as a consequence of chemical, electrical, or metabolic perturbations. It is well established as the central mechanism underlying insect coma and various mammalian neurological dysfunctions. Despite significant progress in our understanding, the question remains: which cation channel, if any, generates SD in the CNS? Previously, we speculated that the sodium-potassium ATPase (NKA) might function as a large-conductance ion channel to initiate SD in insects, potentially mediated by a palytoxin (PLTX)-like endogenous activator. In the current study, we evaluate the effectiveness and properties of PLTX as an SD initiator in Locusta migratoria . Whereas bath-applied PLTX failed to ignite SD, direct injection into the neuropil triggered SD in 57% of the preparations. Notably, PLTX-induced SD onset was significantly more rapid compared with ouabain (OUA) injection and azide controls, though their electrophysiological features remained similar. Furthermore, PLTX-induced SD was recoverable and resulted in a greater frequency of repetitive SD events compared with ouabain. Surprisingly, prior PLTX treatment disrupted the onset and recovery of subsequent SD evoked by other means. PLTX injection could attenuate the amplitude and even completely inhibit the onset of azide-induced SD at higher doses. These results show that PLTX can trigger repetitive and reversible SD-like events in locusts and simultaneously interfere with anoxic SD occurrence. We suggest that the well-documented NKA pump conversion into an open nonselective cationic channel is a plausible mechanism of SD activation in the locust CNS, warranting additional investigations. NEW & NOTEWORTHY Spreading depolarization (SD) is a critical mechanism underlying central nervous system (CNS) shutdown and injury under stress, yet the initiating ion channel remains unknown. Here, we used the marine poison palytoxin (PLTX), which converts the sodium-potassium ATPase (NKA) into an open channel, to initiate SD in intact locust CNS. We show for the first time that PLTX-induced SD is rapid and recoverable in vivo, providing support that NKA conversion to a channel may be the SD-initiating mechanism.
- Published
- 2024
- Full Text
- View/download PDF