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Dll1 haploinsufficiency causes brain abnormalities with functional relevance

INTRODUCTION: The Notch pathway is fundamental for the generation of neurons during development. We previously reported that adult mice heterozygous for the null allele of the gene encoding the Delta-like ligand 1 for Notch (Dll1(lacZ)) have a reduced neuronal density in the substantia nigra pars co...

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Autores principales: Arzate, Dulce-María, Valencia, Concepción, Dimas, Marco-Antonio, Antonio-Cabrera, Edwards, Domínguez-Salazar, Emilio, Guerrero-Flores, Gilda, Gutiérrez-Mariscal, Mariana, Covarrubias, Luis
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9794864/
https://www.ncbi.nlm.nih.gov/pubmed/36590296
http://dx.doi.org/10.3389/fnins.2022.951418
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author Arzate, Dulce-María
Valencia, Concepción
Dimas, Marco-Antonio
Antonio-Cabrera, Edwards
Domínguez-Salazar, Emilio
Guerrero-Flores, Gilda
Gutiérrez-Mariscal, Mariana
Covarrubias, Luis
author_facet Arzate, Dulce-María
Valencia, Concepción
Dimas, Marco-Antonio
Antonio-Cabrera, Edwards
Domínguez-Salazar, Emilio
Guerrero-Flores, Gilda
Gutiérrez-Mariscal, Mariana
Covarrubias, Luis
author_sort Arzate, Dulce-María
collection PubMed
description INTRODUCTION: The Notch pathway is fundamental for the generation of neurons during development. We previously reported that adult mice heterozygous for the null allele of the gene encoding the Delta-like ligand 1 for Notch (Dll1(lacZ)) have a reduced neuronal density in the substantia nigra pars compacta. The aim of the present work was to evaluate whether this alteration extends to other brain structures and the behavioral consequences of affected subjects. METHODS: Brains of Dll1(+/lacZ) embryos and mice at different ages were phenotypically compared against their wild type (WT) counterpart. Afterwards, brain histological analyses were performed followed by determinations of neural cell markers in tissue slices. Neurological deficits were diagnosed by applying different behavioral tests to Dll1(+/lacZ) and WT mice. RESULTS: Brain weight and size of Dll1(+/lacZ) mice was significantly decreased compared with WT littermates (i.e., microcephaly), a phenotype detected early after birth. Interestingly, enlarged ventricles (i.e., hydrocephalus) was a common characteristic of brains of Dll1 haploinsufficient mice since early ages. At the cell level, general cell density and number of neurons in several brain regions, including the cortex and hippocampus, of Dll1(+/lacZ) mice were reduced as compared with those regions of WT mice. Also, fewer neural stem cells were particularly found in the adult dentate gyrus of Dll1(+/lacZ) mice but not in the subventricular zone. High myelination levels detected at early postnatal ages (P7–P24) were an additional penetrant phenotype in Dll1(+/lacZ) mice, observation that was consistent with premature oligodendrocyte differentiation. After applying a set of behavioral tests, mild neurological alterations were detected that caused changes in motor behaviors and a deficit in object categorization. DISCUSSION: Our observations suggest that Dll1 haploinsufficiency limits Notch signaling during brain development which, on one hand, leads to reduced brain cell density and causes microcephaly and hydrocephalus phenotypes and, on the other, alters the myelination process after birth. The severity of these defects could reach levels that affect normal brain function. Therefore, Dll1 haploinsufficiency is a risk factor that predisposes the brain to develop abnormalities with functional consequences.
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spelling pubmed-97948642022-12-29 Dll1 haploinsufficiency causes brain abnormalities with functional relevance Arzate, Dulce-María Valencia, Concepción Dimas, Marco-Antonio Antonio-Cabrera, Edwards Domínguez-Salazar, Emilio Guerrero-Flores, Gilda Gutiérrez-Mariscal, Mariana Covarrubias, Luis Front Neurosci Neuroscience INTRODUCTION: The Notch pathway is fundamental for the generation of neurons during development. We previously reported that adult mice heterozygous for the null allele of the gene encoding the Delta-like ligand 1 for Notch (Dll1(lacZ)) have a reduced neuronal density in the substantia nigra pars compacta. The aim of the present work was to evaluate whether this alteration extends to other brain structures and the behavioral consequences of affected subjects. METHODS: Brains of Dll1(+/lacZ) embryos and mice at different ages were phenotypically compared against their wild type (WT) counterpart. Afterwards, brain histological analyses were performed followed by determinations of neural cell markers in tissue slices. Neurological deficits were diagnosed by applying different behavioral tests to Dll1(+/lacZ) and WT mice. RESULTS: Brain weight and size of Dll1(+/lacZ) mice was significantly decreased compared with WT littermates (i.e., microcephaly), a phenotype detected early after birth. Interestingly, enlarged ventricles (i.e., hydrocephalus) was a common characteristic of brains of Dll1 haploinsufficient mice since early ages. At the cell level, general cell density and number of neurons in several brain regions, including the cortex and hippocampus, of Dll1(+/lacZ) mice were reduced as compared with those regions of WT mice. Also, fewer neural stem cells were particularly found in the adult dentate gyrus of Dll1(+/lacZ) mice but not in the subventricular zone. High myelination levels detected at early postnatal ages (P7–P24) were an additional penetrant phenotype in Dll1(+/lacZ) mice, observation that was consistent with premature oligodendrocyte differentiation. After applying a set of behavioral tests, mild neurological alterations were detected that caused changes in motor behaviors and a deficit in object categorization. DISCUSSION: Our observations suggest that Dll1 haploinsufficiency limits Notch signaling during brain development which, on one hand, leads to reduced brain cell density and causes microcephaly and hydrocephalus phenotypes and, on the other, alters the myelination process after birth. The severity of these defects could reach levels that affect normal brain function. Therefore, Dll1 haploinsufficiency is a risk factor that predisposes the brain to develop abnormalities with functional consequences. Frontiers Media S.A. 2022-12-14 /pmc/articles/PMC9794864/ /pubmed/36590296 http://dx.doi.org/10.3389/fnins.2022.951418 Text en Copyright © 2022 Arzate, Valencia, Dimas, Antonio-Cabrera, Domínguez-Salazar, Guerrero-Flores, Gutiérrez-Mariscal and Covarrubias. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Neuroscience
Arzate, Dulce-María
Valencia, Concepción
Dimas, Marco-Antonio
Antonio-Cabrera, Edwards
Domínguez-Salazar, Emilio
Guerrero-Flores, Gilda
Gutiérrez-Mariscal, Mariana
Covarrubias, Luis
Dll1 haploinsufficiency causes brain abnormalities with functional relevance
title Dll1 haploinsufficiency causes brain abnormalities with functional relevance
title_full Dll1 haploinsufficiency causes brain abnormalities with functional relevance
title_fullStr Dll1 haploinsufficiency causes brain abnormalities with functional relevance
title_full_unstemmed Dll1 haploinsufficiency causes brain abnormalities with functional relevance
title_short Dll1 haploinsufficiency causes brain abnormalities with functional relevance
title_sort dll1 haploinsufficiency causes brain abnormalities with functional relevance
topic Neuroscience
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9794864/
https://www.ncbi.nlm.nih.gov/pubmed/36590296
http://dx.doi.org/10.3389/fnins.2022.951418
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