Protective effects of intermittent hypoxia on brain and memory in a mouse model of apnea of prematurity

Protective effects of intermittent hypoxia on brain and memory in a mouse model of apnea of prematurity

Apnea of prematurity (AOP) is considered a risk factor for neurodevelopmental disorders in children based on epidemiological studies. This idea is supported by studies in newborn rodents in which exposure to intermittent hypoxia (IH) as a model of AOP significantly impairs development. However, the...

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Main Authors: Myriam eBouslama, Homa eAdla-Biassette, Nelina eRamanantsoa, Thomas eBourgeois, Bieke eBollen, Olivier eBrissaud, Boris eMatrot, Pierre eGressens, Jorge eGallego
Format: Article
Language:English
Published: Frontiers Media S.A. 2015-11-01
Series:Frontiers in Physiology
Subjects:
Neurogenesis
Brain Injury
Control of Breathing
Sleep disordered breathing
cognitive dysfunction
Online Access:http://journal.frontiersin.org/Journal/10.3389/fphys.2015.00313/full
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spelling doaj-e9f86c52df1f444bbc6274c4c1d6ab212020-11-24T23:52:32ZengFrontiers Media S.A.Frontiers in Physiology1664-042X2015-11-01610.3389/fphys.2015.00313162553Protective effects of intermittent hypoxia on brain and memory in a mouse model of apnea of prematurityMyriam eBouslama0Myriam eBouslama1Homa eAdla-Biassette2Homa eAdla-Biassette3Homa eAdla-Biassette4Nelina eRamanantsoa5Nelina eRamanantsoa6Thomas eBourgeois7Thomas eBourgeois8Bieke eBollen9Bieke eBollen10Bieke eBollen11Olivier eBrissaud12Olivier eBrissaud13Olivier eBrissaud14Boris eMatrot15Boris eMatrot16Pierre eGressens17Pierre eGressens18Jorge eGallego19Jorge eGallego20InsermParis Diderot UniversityInsermParis Diderot UniversityLariboisière HospitalInsermParis Diderot UniversityInsermParis Diderot UniversityInsermParis Diderot UniversityUniversity of LeuvenInsermParis Diderot UniversityBordeaux University HospitalInsermParis Diderot UniversityInsermParis Diderot UniversityInsermParis Diderot UniversityApnea of prematurity (AOP) is considered a risk factor for neurodevelopmental disorders in children based on epidemiological studies. This idea is supported by studies in newborn rodents in which exposure to intermittent hypoxia (IH) as a model of AOP significantly impairs development. However, the severe IH used in these studies may not fully reflect the broad spectrum of AOP severity. Considering that hypoxia appears neuroprotective under various conditions, we hypothesized that moderate IH would protect the neonatal mouse brain against behavioral stressors and brain damage. On P6, each pup in each litter was randomly assigned to one of three groups: a group exposed to IH while separated from the mother (IH group), a control group exposed to normoxia while separated from the mother (AIR group), and a group of untreated unmanipulated pups left continuously with their mother until weaning (UNT group). Exposure to moderate IH consisted of 20 hypoxic events/hour, 6 hours per day from postnatal day 6 (P6) to P10. The stress generated by maternal separation in newborn rodents is known to impair brain development, and we expected this effect to be smaller in the IH group compared to the AIR group. In a separate experiment, we combined maternal separation with excitotoxic brain lesions mimicking those seen in preterm infants. We analyzed memory, angiogenesis, neurogenesis and brain lesion size. In non-lesioned mice, IH stimulated hippocampal angiogenesis and neurogenesis and improved short-term memory indices. In brain-lesioned mice, IH decreased lesion size and prevented memory impairments. Contrary to common perception, IH mimicking moderate apnea may offer neuroprotection, at least in part, against brain lesions and cognitive dysfunctions related to prematurity. AOP may therefore have beneficial effects in some preterm infants. These results support the need for stratification based on AOP severity in clinical trials of treatments for AOP, to determine whether in patients with moderate AOP, these treatments are beneficial or deleterious.http://journal.frontiersin.org/Journal/10.3389/fphys.2015.00313/fullNeurogenesisBrain InjuryControl of BreathingSleep disordered breathingcognitive dysfunction
collection DOAJ
language English
format Article
sources DOAJ
author Myriam eBouslama
Myriam eBouslama
Homa eAdla-Biassette
Homa eAdla-Biassette
Homa eAdla-Biassette
Nelina eRamanantsoa
Nelina eRamanantsoa
Thomas eBourgeois
Thomas eBourgeois
Bieke eBollen
Bieke eBollen
Bieke eBollen
Olivier eBrissaud
Olivier eBrissaud
Olivier eBrissaud
Boris eMatrot
Boris eMatrot
Pierre eGressens
Pierre eGressens
Jorge eGallego
Jorge eGallego
spellingShingle Myriam eBouslama
Myriam eBouslama
Homa eAdla-Biassette
Homa eAdla-Biassette
Homa eAdla-Biassette
Nelina eRamanantsoa
Nelina eRamanantsoa
Thomas eBourgeois
Thomas eBourgeois
Bieke eBollen
Bieke eBollen
Bieke eBollen
Olivier eBrissaud
Olivier eBrissaud
Olivier eBrissaud
Boris eMatrot
Boris eMatrot
Pierre eGressens
Pierre eGressens
Jorge eGallego
Jorge eGallego
Protective effects of intermittent hypoxia on brain and memory in a mouse model of apnea of prematurity
Frontiers in Physiology
Neurogenesis
Brain Injury
Control of Breathing
Sleep disordered breathing
cognitive dysfunction
author_facet Myriam eBouslama
Myriam eBouslama
Homa eAdla-Biassette
Homa eAdla-Biassette
Homa eAdla-Biassette
Nelina eRamanantsoa
Nelina eRamanantsoa
Thomas eBourgeois
Thomas eBourgeois
Bieke eBollen
Bieke eBollen
Bieke eBollen
Olivier eBrissaud
Olivier eBrissaud
Olivier eBrissaud
Boris eMatrot
Boris eMatrot
Pierre eGressens
Pierre eGressens
Jorge eGallego
Jorge eGallego
author_sort Myriam eBouslama
title Protective effects of intermittent hypoxia on brain and memory in a mouse model of apnea of prematurity
title_short Protective effects of intermittent hypoxia on brain and memory in a mouse model of apnea of prematurity
title_full Protective effects of intermittent hypoxia on brain and memory in a mouse model of apnea of prematurity
title_fullStr Protective effects of intermittent hypoxia on brain and memory in a mouse model of apnea of prematurity
title_full_unstemmed Protective effects of intermittent hypoxia on brain and memory in a mouse model of apnea of prematurity
title_sort protective effects of intermittent hypoxia on brain and memory in a mouse model of apnea of prematurity
publisher Frontiers Media S.A.
series Frontiers in Physiology
issn 1664-042X
publishDate 2015-11-01
description Apnea of prematurity (AOP) is considered a risk factor for neurodevelopmental disorders in children based on epidemiological studies. This idea is supported by studies in newborn rodents in which exposure to intermittent hypoxia (IH) as a model of AOP significantly impairs development. However, the severe IH used in these studies may not fully reflect the broad spectrum of AOP severity. Considering that hypoxia appears neuroprotective under various conditions, we hypothesized that moderate IH would protect the neonatal mouse brain against behavioral stressors and brain damage. On P6, each pup in each litter was randomly assigned to one of three groups: a group exposed to IH while separated from the mother (IH group), a control group exposed to normoxia while separated from the mother (AIR group), and a group of untreated unmanipulated pups left continuously with their mother until weaning (UNT group). Exposure to moderate IH consisted of 20 hypoxic events/hour, 6 hours per day from postnatal day 6 (P6) to P10. The stress generated by maternal separation in newborn rodents is known to impair brain development, and we expected this effect to be smaller in the IH group compared to the AIR group. In a separate experiment, we combined maternal separation with excitotoxic brain lesions mimicking those seen in preterm infants. We analyzed memory, angiogenesis, neurogenesis and brain lesion size. In non-lesioned mice, IH stimulated hippocampal angiogenesis and neurogenesis and improved short-term memory indices. In brain-lesioned mice, IH decreased lesion size and prevented memory impairments. Contrary to common perception, IH mimicking moderate apnea may offer neuroprotection, at least in part, against brain lesions and cognitive dysfunctions related to prematurity. AOP may therefore have beneficial effects in some preterm infants. These results support the need for stratification based on AOP severity in clinical trials of treatments for AOP, to determine whether in patients with moderate AOP, these treatments are beneficial or deleterious.
topic Neurogenesis
Brain Injury
Control of Breathing
Sleep disordered breathing
cognitive dysfunction
url http://journal.frontiersin.org/Journal/10.3389/fphys.2015.00313/full
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