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Ivermectin exposition during neurulation induces Neural tube defects and neuromuscular alterations in Xenopus laevis through purinergic P2X4-signaling.

Catrupay-Valdebenito, C.; Burgos, C. F.; Salgado-Martinez, B.; Vejar, C.; Fuentes, N. A.; Yevenes, G. E.; Moraga-Cid, G.; Castro, P. A.

2026-06-24 pharmacology and toxicology
10.64898/2026.06.19.733173 bioRxiv
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BackgroundNeurulation is a fundamental process in the formation of the central nervous system (CNS). The process begins with the folding and fusion of the neural plate to form the neural tube which subsequently gives rise to the development of the brain and spinal cord. Environmental and genetic factors that disrupt neurulation can induce neural tube defects (NTDs) and consequently cause additional developmental complications, including motor impairments. Purinergic signaling is a conserved form of extracellular communication (i.e. paracrine, synaptic signaling) that plays a role in early development. This signaling is mediated by purine nucleotides and nucleosides, which activate metabotropic P2Y and ionotropic P2X purinoceptors, respectively. Distinct patterns of intracellular calcium dynamics are observed throughout vertebrate development, from fertilization through organogenesis, including neurulation. Among P2X receptors, P2X4 is an ATP-modulated, Ca2+-permeable, ligand-gated ion channel characterized by having the highest Ca2+ permeability and is known to be modulated by ivermectin (IVM). ObjectiveOur investigation focuses on assessing the effects of IVM treatment during neurulation and evaluating the impact of this drug on phenotype, motor behavior and neuromuscular junction (NMJ) structure at tadpole stage. These results were compared with those obtained following separate treatments with compounds that specifically block glycine, GABA(A) and nACh receptors, all which have been described as IVM targets. ResultsIn this study we demonstrate the transcriptional expression for both P2X and P2Y purinergic receptors during neurulation, as well as the expression of P2X4. Following IVM neurula-treatments, we observed neural tube defects (NTDs), pigmentation changes, motor paralysis and alterations in neuromuscular junction (NMJ) structure, particularly affecting axonal branching. In contrast, treatment with the blockers strychnine, bicuculline and -bungarotoxin, used to assess the involvement of GlyR, GABA(A)R and 7nAChR, respectively, failed to show similar outcomes. ConclusionsIn summary, our results highlight the critical role of purinergic signaling during early development, particularly P2X4 receptor mediated signaling during neurulation which may account for the pharmacological effects induced by the positive allosteric modulator ivermectin.

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