Species-specific blood–brain barrier permeability in amphibians
Sophie Antesberger, Beate Stiening, Michael Forsthofer, Alberto Joven Araus, Elif Eroglu, Jonas Huber, Martin Heß, Hans Straka, Rosario Sanchez-Gonzalez

TL;DR
This study shows that amphibians have species-specific blood-brain barrier properties, which may relate to their ability to regenerate their nervous system.
Contribution
The study reveals species-specific BBB permeability differences in amphibians, linking them to regenerative abilities.
Findings
Xenopus has a BBB similar to mammals, while axolotl's BBB is more permeable to 1 kDa tracers.
Axolotl endothelial cells show higher macropinocytosis rates compared to other species.
Claudin-5 expression varies among species, correlating with BBB permeability differences.
Abstract
The blood–brain barrier (BBB) is a semipermeable interface that prevents the non-selective transport into the central nervous system. It controls the delivery of macromolecules fueling the brain metabolism and the immunological surveillance. The BBB permeability is locally regulated depending on the physiological requirements, maintaining the tissue homeostasis and influencing pathological conditions. Given its relevance in vertebrate CNS, it is surprising that little is known about the BBB in Amphibians, some of which are capable of adult CNS regeneration. The BBB size threshold of the anuran Xenopus laevis (African clawed toad), as well as two urodele species, Ambystoma mexicanum (axolotl) and Pleurodeles waltl (Iberian ribbed newt), was evaluated under physiological conditions through the use of synthetic tracers. We detected important differences between the analyzed species.…
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Taxonomy
TopicsBarrier Structure and Function Studies · Neuroinflammation and Neurodegeneration Mechanisms · Neonatal and fetal brain pathology
