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1.
Int J Mol Sci ; 25(15)2024 Jul 30.
Artículo en Inglés | MEDLINE | ID: mdl-39125902

RESUMEN

Aquaporin-4 (AQP4) expression is associated with the development of congenital hydrocephalus due to its structural role in the ependymal membrane. Gene expression analysis of periaqueductal tissue in AQP4-knockout (KO) mice at 11 days of age (P11) showed a modification in ependymal cell adhesion and ciliary protein expression that could alter cerebrospinal fluid homeostasis. A microglial subpopulation of CD11c+ cells was overexpressed in the periaqueductal tissue of mice that did not develop hydrocephalus, suggesting a possible protective effect. Here, we verified the location of this CD11c+ expression in the corpus callosum (CC) and cerebellum of AQP4-KO mice and analysed its time course. Immunofluorescence labelling of the CD11c protein in the CC and cerebellum of WT and KO animals at P3, P5, P7 and P11 confirmed an expanded presence of these cells in both tissues of the KO animal; CD11c+ cells appeared at P3 and reached a peak at P11, whereas in the WT animal, they appeared at P5, reached their peak at P7 and were undetectable by P11. The gene expression analysis in the CC samples at P11 confirmed the presence of CD11c+ microglial cells in this tissue. Among the more than 4000 overexpressed genes, Spp1 stood out with the highest differential gene expression (≅600), with other genes, such as Gpnmb, Itgax, Cd68 and Atp6v0d2, also identified as overexpressed. Therefore, CD11c+ cells appear to be necessary for normal corpus callosum development during postnatal life, and the absence of AQP4 prolonged its expression in this tissue.


Asunto(s)
Acuaporina 4 , Cuerpo Calloso , Ratones Noqueados , Microglía , Animales , Acuaporina 4/metabolismo , Acuaporina 4/genética , Microglía/metabolismo , Ratones , Cuerpo Calloso/metabolismo , Antígeno CD11c/metabolismo , Antígeno CD11c/genética , Ratones Endogámicos C57BL
2.
Fluids Barriers CNS ; 21(1): 53, 2024 Jul 02.
Artículo en Inglés | MEDLINE | ID: mdl-38956598

RESUMEN

AQP4 is expressed in the endfeet membranes of subpial and perivascular astrocytes and in the ependymal cells that line the ventricular system. The sporadic appearance of obstructive congenital hydrocephalus (OCHC) has been observed in the offspring of AQP4-/- mice (KO) due to stenosis of Silvio's aqueduct. Here, we explore whether the lack of AQP4 expression leads to abnormal development of ependymal cells in the aqueduct of mice. We compared periaqueductal samples from wild-type and KO mice. The microarray-based transcriptome analysis reflected a large number of genes with differential expression (809). Gene sets (GS) associated with ependymal development, ciliary function and the immune system were specially modified qPCR confirmed reduced expression in the KO mice genes: (i) coding for transcription factors for ependymal differentiation (Rfx4 and FoxJ1), (ii) involved in the constitution of the central apparatus of the axoneme (Spag16 and Hydin), (iii) associated with ciliary assembly (Cfap43, Cfap69 and Ccdc170), and (iv) involved in intercellular junction complexes of the ependyma (Cdhr4). By contrast, genes such as Spp1, Gpnmb, Itgax, and Cd68, associated with a Cd11c-positive microglial population, were overexpressed in the KO mice. Electron microscopy and Immunofluorescence of vimentin and γ-tubulin revealed a disorganized ependyma in the KO mice, with changes in the intercellular complex union, unevenly orientated cilia, and variations in the planar cell polarity of the apical membrane. These structural alterations translate into reduced cilia beat frequency, which might alter cerebrospinal fluid movement. The presence of CD11c + microglia cells in the periaqueductal zone of mice during the first postnatal week is a novel finding. In AQP4-/- mice, these cells remain present around the aqueduct for an extended period, showing peak expression at P11. We propose that these cells play an important role in the normal development of the ependyma and that their overexpression in KO mice is crucial to reduce ependyma abnormalities that could otherwise contribute to the development of obstructive hydrocephalus.


Asunto(s)
Acuaporina 4 , Epéndimo , Hidrocefalia , Ratones Noqueados , Microglía , Animales , Epéndimo/metabolismo , Epéndimo/patología , Hidrocefalia/metabolismo , Hidrocefalia/genética , Hidrocefalia/patología , Microglía/metabolismo , Acuaporina 4/metabolismo , Acuaporina 4/genética , Ratones , Acueducto del Mesencéfalo/metabolismo , Acueducto del Mesencéfalo/patología , Antígenos CD11/metabolismo , Antígenos CD11/genética , Ratones Endogámicos C57BL
3.
Int J Mol Sci ; 24(3)2023 Feb 03.
Artículo en Inglés | MEDLINE | ID: mdl-36769371

RESUMEN

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.


Asunto(s)
Acuaporina 4 , Sustancia Gris , Ratones , Animales , Sustancia Gris/metabolismo , Ratones Endogámicos C57BL , Acuaporina 4/genética , Acuaporina 4/metabolismo , Encéfalo/metabolismo , Médula Espinal/metabolismo , Astrocitos/metabolismo
4.
Cell ; 183(5): 1282-1297.e18, 2020 11 25.
Artículo en Inglés | MEDLINE | ID: mdl-33098771

RESUMEN

Classically considered short-lived and purely defensive leukocytes, neutrophils are unique in their fast and moldable response to stimulation. This plastic behavior may underlie variable and even antagonistic functions during inflammation or cancer, yet the full spectrum of neutrophil properties as they enter healthy tissues remains unexplored. Using a new model to track neutrophil fates, we found short but variable lifetimes across multiple tissues. Through analysis of the receptor, transcriptional, and chromatin accessibility landscapes, we identify varying neutrophil states and assign non-canonical functions, including vascular repair and hematopoietic homeostasis. Accordingly, depletion of neutrophils compromised angiogenesis during early age, genotoxic injury, and viral infection, and impaired hematopoietic recovery after irradiation. Neutrophils acquired these properties in target tissues, a process that, in the lungs, occurred in CXCL12-rich areas and relied on CXCR4. Our results reveal that tissues co-opt neutrophils en route for elimination to induce programs that support their physiological demands.


Asunto(s)
Linaje de la Célula , Neutrófilos/metabolismo , Especificidad de Órganos , Animales , Cromatina/metabolismo , Femenino , Hematopoyesis , Intestinos/irrigación sanguínea , Pulmón/irrigación sanguínea , Masculino , Ratones Endogámicos C57BL , Neovascularización Fisiológica , Miembro 1 del Grupo A de la Subfamilia 4 de Receptores Nucleares/metabolismo , Receptores CXCR4/metabolismo , Análisis de la Célula Individual , Transcripción Genética , Transcriptoma/genética
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