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Aquaporin-4 Expression Switches from White to Gray Matter Regions during Postnatal Development of the Central Nervous System

Francisco Mayo, Lourdes González-Vinceiro, Laura Hiraldo-González, Claudia Calle-Castillejo, Sara Morales-Alvarez, Reposo Ramírez‐Lorca, Miriam Echevarrı́a

2023International Journal of Molecular Sciences23 citationsDOIOpen Access PDF

Abstract

Aquaporin-4 (AQP4) is the most abundant water channel in the central nervous system and plays a fundamental role in maintaining water homeostasis there. In adult mice, AQP4 is located mainly in ependymal cells, in the endfeet of perivascular astrocytes, and in the glia limitans. Meanwhile, its expression, location, and function throughout postnatal development remain largely unknown. Here, the expression of AQP4 mRNA was studied by in situ hybridization and RT-qPCR, and the localization and amount of protein was studied by immunofluorescence and western blotting, both in the brain and spinal cord. For this, wild-type mice of the C57BL/6 line, aged 1, 3, 7, 11, 20, and 60 days, and 18 months were used. The results showed a change in both the expression and location of AQP4 in postnatal development compared to those during adult life. In the early stages of postnatal development it appears in highly myelinated areas, such as the corpus callosum or cerebellum, and as the animal grows, it disappears from these areas, passing through the cortical regions of the forebrain and concentrating around the blood vessels. These findings suggest an unprecedented possible role for AQP4 in the early cell differentiation process, during the first days of life in the newborn animal, which will lead to myelination.

Topics & Concepts

ForebrainBiologyIn situ hybridizationCentral nervous systemEpendymal CellWhite matterCerebellumSpinal cordAquaporin 4NeuroscienceCorpus callosumAquaporinNervous systemCell biologyAnatomyPathologyGene expressionMedicineGeneGeneticsRadiologyBiochemistryMagnetic resonance imagingIon Transport and Channel RegulationIon channel regulation and functionCaveolin-1 and cellular processes
Aquaporin-4 Expression Switches from White to Gray Matter Regions during Postnatal Development of the Central Nervous System | Litcius