11 results on '"Lourdes Fernández de Cossío"'
Search Results
2. Microglial and peripheral immune priming is partially sexually dimorphic in adolescent mouse offspring exposed to maternal high-fat diet
- Author
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Maude Bordeleau, Chloé Lacabanne, Lourdes Fernández de Cossío, Nathalie Vernoux, Julie C. Savage, Fernando González-Ibáñez, and Marie-Ève Tremblay
- Subjects
Hippocampus ,Immune priming ,Maternal high-fat diet ,Microglia ,Sex difference ,Neurology. Diseases of the nervous system ,RC346-429 - Abstract
Abstract Background Maternal nutrition is critical for proper fetal development. While increased nutrient intake is essential during pregnancy, an excessive consumption of certain nutrients, like fat, can lead to long-lasting detrimental consequences on the offspring. Animal work investigating the consequences of maternal high-fat diet (mHFD) revealed in the offspring a maternal immune activation (MIA) phenotype associated with increased inflammatory signals. This inflammation was proposed as one of the mechanisms causing neuronal circuit dysfunction, notably in the hippocampus, by altering the brain-resident macrophages—microglia. However, the understanding of mechanisms linking inflammation and microglial activities to pathological brain development remains limited. We hypothesized that mHFD-induced inflammation could prime microglia by altering their specific gene expression signature, population density, and/or functions. Methods We used an integrative approach combining molecular (i.e., multiplex-ELISA, rt-qPCR) and cellular (i.e., histochemistry, electron microscopy) techniques to investigate the effects of mHFD (saturated and unsaturated fats) vs control diet on inflammatory priming, as well as microglial transcriptomic signature, density, distribution, morphology, and ultrastructure in mice. These analyses were performed on the mothers and/or their adolescent offspring at postnatal day 30. Results Our study revealed that mHFD results in MIA defined by increased circulating levels of interleukin (IL)-6 in the mothers. This phenotype was associated with an exacerbated inflammatory response to peripheral lipopolysaccharide in mHFD-exposed offspring of both sexes. Microglial morphology was also altered, and there were increased microglial interactions with astrocytes in the hippocampus CA1 of mHFD-exposed male offspring, as well as decreased microglia-associated extracellular space pockets in the same region of mHFD-exposed offspring of the two sexes. A decreased mRNA expression of the inflammatory-regulating cytokine Tgfb1 and microglial receptors Tmem119, Trem2, and Cx3cr1 was additionally measured in the hippocampus of mHFD-exposed offspring, especially in males. Conclusions Here, we described how dietary habits during pregnancy and nurturing, particularly the consumption of an enriched fat diet, can influence peripheral immune priming in the offspring. We also found that microglia are affected in terms of gene expression signature, morphology, and interactions with the hippocampal parenchyma, in a partially sexually dimorphic manner, which may contribute to the adverse neurodevelopmental outcomes on the offspring.
- Published
- 2020
- Full Text
- View/download PDF
3. Maternal high-fat diet modifies myelin organization, microglial interactions, and results in social memory and sensorimotor gating deficits in adolescent mouse offspring
- Author
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Maude Bordeleau, PhD, Lourdes Fernández de Cossío, PhD, Chloé Lacabanne, PhD, Julie C. Savage, PhD, Nathalie Vernoux, PhD, Mallar Chakravarty, PhD, and Marie-Ève Tremblay, PhD
- Subjects
Maternal high-fat diet ,Myelin ,Cytosolic channels ,Oligodendrocytes ,Microglia ,Adolescence ,Neurosciences. Biological psychiatry. Neuropsychiatry ,RC321-571 - Abstract
Prenatal exposure to maternal high-fat diet (mHFD) acts as a risk factor for various neurodevelopmental alterations in the progeny. Recent studies in mice revealed that mHFD results in both neuroinflammation and hypomyelination in the exposed offspring. Microglia, the brain-resident macrophages, play crucial roles during brain development, notably by modulating oligodendrocyte populations and performing phagocytosis of myelin sheaths. Previously, we reported that mHFD modifies microglial phenotype (i.e., morphology, interactions with their microenvironment, transcripts) in the hippocampus of male and female offspring. In the current study, we further explored whether mHFD may induce myelination changes among the hippocampal-corpus callosum-prefrontal cortex pathway, and result in behavioral outcomes in adolescent offspring of the two sexes. To this end, female mice were fed with control chow or HFD for 4 weeks before mating, during gestation, and until weaning of their litter. Histological and ultrastructural analyses revealed an increased density of myelin associated with a reduced area of cytosolic myelin channels in the corpus callosum of mHFD-exposed male compared to female offspring. Transcripts of myelination-associated genes including Igf1 –a growth factor released by microglia– were also lower, specifically in the hippocampus (without changes in the prefrontal cortex) of adolescent male mouse offspring. These changes in myelin were not related to an altered density, distribution, or maturation of oligodendrocytes, instead we found that microglia within the corpus callosum of mHFD-exposed offspring showed reduced numbers of mature lysosomes and increased synaptic contacts, suggesting microglial implication in the modified myelination. At the behavioral level, both male and female mHFD-exposed adolescent offspring presented loss of social memory and sensorimotor gating deficits. These results together highlight the importance of studying oligodendrocyte-microglia crosstalk and its involvement in the long-term brain alterations that result from prenatal mHFD in offspring across sexes.
- Published
- 2021
- Full Text
- View/download PDF
4. From Maternal Diet to Neurodevelopmental Disorders: A Story of Neuroinflammation
- Author
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Maude Bordeleau, Lourdes Fernández de Cossío, M. Mallar Chakravarty, and Marie-Ève Tremblay
- Subjects
maternal diet ,nutrient imbalance ,inflammation ,genetic programming ,microglia ,gut microbiome ,Neurosciences. Biological psychiatry. Neuropsychiatry ,RC321-571 - Abstract
Providing the appropriate quantity and quality of food needed for both the mother’s well-being and the healthy development of the offspring is crucial during pregnancy. However, the macro- and micronutrient intake also impacts the body’s regulatory supersystems of the mother, such as the immune, endocrine, and nervous systems, which ultimately influence the overall development of the offspring. Of particular importance is the association between unhealthy maternal diet and neurodevelopmental disorders in the offspring. Epidemiological studies have linked neurodevelopmental disorders like autism spectrum disorders, attention-deficit-hyperactivity disorder, and schizophrenia, to maternal immune activation (MIA) during gestation. While the deleterious consequences of diet-induced MIA on offspring neurodevelopment are increasingly revealed, neuroinflammation is emerging as a key underlying mechanism. In this review, we compile the evidence available on how the mother and offspring are both impacted by maternal dietary imbalance. We specifically explore the various inflammatory and anti-inflammatory effects of dietary components and discuss how changes in inflammatory status can prime the offspring brain development toward neurodevelopmental disorders. Lastly, we discuss research evidence on the mechanisms that sustain the relationship between maternal dietary imbalance and offspring brain development, involving altered neuroinflammatory status in the offspring, as well as genetic to cellular programming notably of microglia, and the evidence that the gut microbiome may act as a key mediator.
- Published
- 2021
- Full Text
- View/download PDF
5. Lipopolysaccharide-induced maternal immune activation modulates microglial CX3CR1 protein expression and morphological phenotype in the hippocampus and dentate gyrus, resulting in cognitive inflexibility during late adolescence
- Author
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Chloé Lacabanne, Lourdes Fernández de Cossío, Maude Bordeleau, Garance Castino, Phillip Kyriakakis, and Marie-Ève Tremblay
- Subjects
Lipopolysaccharides ,Male ,medicine.medical_specialty ,Adolescent ,Autism Spectrum Disorder ,Offspring ,Immunology ,CX3C Chemokine Receptor 1 ,Hippocampus ,Inflammation ,Biology ,Hippocampal formation ,03 medical and health sciences ,Behavioral Neuroscience ,Cognition ,0302 clinical medicine ,Pregnancy ,Internal medicine ,CX3CR1 ,medicine ,Humans ,030304 developmental biology ,0303 health sciences ,Microglia ,Endocrine and Autonomic Systems ,Dentate gyrus ,Neurogenesis ,Phenotype ,Endocrinology ,medicine.anatomical_structure ,Dentate Gyrus ,Female ,medicine.symptom ,030217 neurology & neurosurgery - Abstract
Inflammation during pregnancy can disturb brain development and lead to disorders in the progeny, including autism spectrum disorder and schizophrenia. However, the mechanism by which a prenatal, short-lived increase of cytokines results in adverse neurodevelopmental outcomes remains largely unknown. Microglia-the brain's resident immune-cells-stand as fundamental cellular mediators, being highly sensitive and responsive to immune signals, which also play key roles during normal development. The fractalkine signaling axis is a neuron-microglia communication mechanism used to regulate neurogenesis and network formation. Previously, we showed hippocampal reduction of fractalkine receptor (Cx3cr1) mRNA at postnatal day (P) 15 in male offspring exposed to maternal immune activation induced with lipopolysaccharide (LPS) during late gestation, which was concomitant to an increased dendritic spine density in the dentate gyrus, a neurogenic niche. The current study sought to evaluate the origin and impact of this reduced hippocampal Cx3cr1 mRNA expression on microglia and cognition. We found that microglial total cell number and density are not affected in the dorsal hippocampus and dentate gyrus, respectively, but that the microglial CX3CR1 protein is decreased in the hippocampus of LPS-male offspring at P15. Further characterization of microglial morphology in the dentate gyrus identified a more ameboid phenotype in LPS-exposed offspring, predominantly in males, at P15. We thus explored maternal plasma and fetal brain cytokines to understand the mechanism behind microglial priming, showing a robust immune activation in the mother at 2 and 4 hrs after LPS administration, while only IL-10 tended towards upregulation at 2 hrs after LPS in fetal brains. To evaluate the functional long-term consequences, we assessed learning and cognitive flexibility behavior during late adolescence, finding that LPS affects only the latter with a male predominance on perseveration. A CX3CR1 gene variant in humans that results in disrupted fractalkine signaling has been recently associated with an increased risk for neurodevelopmental disorders. We show that an acute immune insult during late gestation can alter fractalkine signaling by reducing the microglial CX3CR1 protein expression, highlighting neuron-microglial fractalkine signaling as a relevant target underlying the outcomes of environmental risk factors on neurodevelopmental disorders.
- Published
- 2021
- Full Text
- View/download PDF
6. Review for 'A postpartum enriched environment rescues impaired cognition and oxidative markers in aged mice with gestational inflammation'
- Author
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null Lourdes Fernández de Cossío
- Published
- 2022
- Full Text
- View/download PDF
7. Maternal high-fat diet modifies myelin organization, microglial interactions, and results in social memory and sensorimotor gating deficits in adolescent mouse offspring
- Author
-
Julie C. Savage, Nathalie Vernoux, Maude Bordeleau, M. Mallar Chakravarty, Lourdes Fernández de Cossío, Chloé Lacabanne, and Marie-Ève Tremblay
- Subjects
Litter (animal) ,medicine.medical_specialty ,Mouse ,Offspring ,Hippocampus ,Neurosciences. Biological psychiatry. Neuropsychiatry ,Biology ,Corpus callosum ,03 medical and health sciences ,Myelin ,0302 clinical medicine ,Full Length Article ,Internal medicine ,medicine ,Cytosolic channels ,10. No inequality ,Prefrontal cortex ,Neuroinflammation ,030304 developmental biology ,General Environmental Science ,0303 health sciences ,Oligodendrocytes ,Oligodendrocyte ,Adolescence ,Endocrinology ,medicine.anatomical_structure ,nervous system ,General Earth and Planetary Sciences ,Microglia ,Maternal high-fat diet ,030217 neurology & neurosurgery ,RC321-571 - Abstract
Prenatal exposure to maternal high-fat diet (mHFD) acts as a risk factor for various neurodevelopmental alterations in the progeny. Recent studies in mice revealed that mHFD results in both neuroinflammation and hypomyelination in the exposed offspring. Microglia, the brain-resident macrophages, play crucial roles during brain development, notably by modulating oligodendrocyte populations and performing phagocytosis of myelin sheaths. Previously, we reported that mHFD modifies microglial phenotype (i.e., morphology, interactions with their microenvironment, transcripts) in the hippocampus of male and female offspring. In the current study, we further explored whether mHFD may induce myelination changes among the hippocampal-corpus callosum-prefrontal cortex pathway, and result in behavioral outcomes in adolescent offspring of the two sexes. To this end, female mice were fed with control chow or HFD for 4 weeks before mating, during gestation, and until weaning of their litter. Histological and ultrastructural analyses revealed an increased density of myelin associated with a reduced area of cytosolic myelin channels in the corpus callosum of mHFD-exposed male compared to female offspring. Transcripts of myelination-associated genes including Igf1 –a growth factor released by microglia– were also lower, specifically in the hippocampus (without changes in the prefrontal cortex) of adolescent male mouse offspring. These changes in myelin were not related to an altered density, distribution, or maturation of oligodendrocytes, instead we found that microglia within the corpus callosum of mHFD-exposed offspring showed reduced numbers of mature lysosomes and increased synaptic contacts, suggesting microglial implication in the modified myelination. At the behavioral level, both male and female mHFD-exposed adolescent offspring presented loss of social memory and sensorimotor gating deficits. These results together highlight the importance of studying oligodendrocyte-microglia crosstalk and its involvement in the long-term brain alterations that result from prenatal mHFD in offspring across sexes., Highlights • mHFD induces myelination changes specifically in male adolescent offspring. • mHFD increases microglia-synapse contacts in adolescent offspring of both sexes. • mHFD reduces microglial mature lysosomes in adolescent offspring of both sexes. • mHFD impairs social novelty and sensorimotor gating during adolescence.
- Published
- 2021
8. Building a Simple and Versatile Illumination System for Optogenetic Experiments
- Author
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Todd P. Coleman, Robert Kyriakakis, Marianne Catanho, Lourdes Fernández de Cossío, Molly Allen, Marcelo Aguilar-Rivera, Sivleng Kouv, Patrick Wade Howard, Vincent J. Hu, Yunhan Ma, and Phillip Kyriakakis
- Subjects
Light ,Computer science ,General Chemical Engineering ,media_common.quotation_subject ,Optogenetics ,Article ,General Biochemistry, Genetics and Molecular Biology ,Bottleneck ,Electricity ,Humans ,Electronics ,Luciferases ,Function (engineering) ,Protocol (object-oriented programming) ,Lighting ,Enzyme Assays ,media_common ,General Immunology and Microbiology ,business.industry ,General Neuroscience ,Automation ,HEK293 Cells ,Gene Expression Regulation ,Personal computer ,User interface ,business ,Software ,Computer hardware - Abstract
Controlling biological processes using light has increased the accuracy and speed with which researchers can manipulate many biological processes. Optical control allows for an unprecedented ability to dissect function and holds the potential for enabling novel genetic therapies. However, optogenetic experiments require adequate light sources with spatial, temporal, or intensity control, often a bottleneck for researchers. Here we detail how to build a low-cost and versatile LED illumination system that is easily customizable for different available optogenetic tools. This system is configurable for manual or computer control with adjustable LED intensity. We provide an illustrated step-by-step guide for building the circuit, making it computer-controlled, and constructing the LEDs. To facilitate the assembly of this device, we also discuss some basic soldering techniques and explain the circuitry used to control the LEDs. Using our open-source user interface, users can automate precise timing and pulsing of light on a personal computer (PC) or an inexpensive tablet. This automation makes the system useful for experiments that use LEDs to control genes, signaling pathways, and other cellular activities that span large time scales. For this protocol, no prior expertise in electronics is required to build all the parts needed or to use the illumination system to perform optogenetic experiments.
- Published
- 2021
- Full Text
- View/download PDF
9. Microglial and peripheral immune priming is partially sexually dimorphic in adolescent mouse offspring exposed to maternal high-fat diet
- Author
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Julie C. Savage, Marie-Ève Tremblay, Maude Bordeleau, Fernando González-Ibáñez, Chloé Lacabanne, Nathalie Vernoux, and Lourdes Fernández de Cossío
- Subjects
Lipopolysaccharides ,Male ,0301 basic medicine ,medicine.medical_treatment ,Hippocampus ,lcsh:RC346-429 ,Mice ,0302 clinical medicine ,Pregnancy ,CX3CR1 ,Receptors, Immunologic ,Neurons ,0303 health sciences ,Membrane Glycoproteins ,Microglia ,General Neuroscience ,Interleukin ,medicine.anatomical_structure ,Cytokine ,Neurology ,Prenatal Exposure Delayed Effects ,Female ,medicine.symptom ,Immune priming ,Maternal high-fat diet ,medicine.medical_specialty ,Adolescent ,Offspring ,Immunology ,CX3C Chemokine Receptor 1 ,Inflammation ,Biology ,Diet, High-Fat ,Transforming Growth Factor beta1 ,03 medical and health sciences ,Cellular and Molecular Neuroscience ,Sex Factors ,Immune system ,Internal medicine ,medicine ,Animals ,Humans ,Cell Shape ,lcsh:Neurology. Diseases of the nervous system ,030304 developmental biology ,Interleukin-6 ,Research ,Membrane Proteins ,Maternal Nutritional Physiological Phenomena ,Sex difference ,medicine.disease ,030104 developmental biology ,Endocrinology ,030217 neurology & neurosurgery - Abstract
Background Maternal nutrition is critical for proper fetal development. While increased nutrient intake is essential during pregnancy, an excessive consumption of certain nutrients, like fat, can lead to long-lasting detrimental consequences on the offspring. Animal work investigating the consequences of maternal high-fat diet (mHFD) revealed in the offspring a maternal immune activation (MIA) phenotype associated with increased inflammatory signals. This inflammation was proposed as one of the mechanisms causing neuronal circuit dysfunction, notably in the hippocampus, by altering the brain-resident macrophages—microglia. However, the understanding of mechanisms linking inflammation and microglial activities to pathological brain development remains limited. We hypothesized that mHFD-induced inflammation could prime microglia by altering their specific gene expression signature, population density, and/or functions. Methods We used an integrative approach combining molecular (i.e., multiplex-ELISA, rt-qPCR) and cellular (i.e., histochemistry, electron microscopy) techniques to investigate the effects of mHFD (saturated and unsaturated fats) vs control diet on inflammatory priming, as well as microglial transcriptomic signature, density, distribution, morphology, and ultrastructure in mice. These analyses were performed on the mothers and/or their adolescent offspring at postnatal day 30. Results Our study revealed that mHFD results in MIA defined by increased circulating levels of interleukin (IL)-6 in the mothers. This phenotype was associated with an exacerbated inflammatory response to peripheral lipopolysaccharide in mHFD-exposed offspring of both sexes. Microglial morphology was also altered, and there were increased microglial interactions with astrocytes in the hippocampus CA1 of mHFD-exposed male offspring, as well as decreased microglia-associated extracellular space pockets in the same region of mHFD-exposed offspring of the two sexes. A decreased mRNA expression of the inflammatory-regulating cytokine Tgfb1 and microglial receptors Tmem119, Trem2, and Cx3cr1 was additionally measured in the hippocampus of mHFD-exposed offspring, especially in males. Conclusions Here, we described how dietary habits during pregnancy and nurturing, particularly the consumption of an enriched fat diet, can influence peripheral immune priming in the offspring. We also found that microglia are affected in terms of gene expression signature, morphology, and interactions with the hippocampal parenchyma, in a partially sexually dimorphic manner, which may contribute to the adverse neurodevelopmental outcomes on the offspring.
- Published
- 2020
- Full Text
- View/download PDF
10. Prenatal infection leads to ASD-like behavior and altered synaptic pruning in the mouse offspring
- Author
-
Suzanne van der Veldt, Lourdes Fernández de Cossío, Andrea Guzmán, Giamal N. Luheshi, Douglas Mental Health University Institute, Department of Psychiatry, Université McGill, Nutrition et Neurobiologie intégrée (NutriNeur0), Ecole nationale supérieure de chimie, biologie et physique-Institut Polytechnique de Bordeaux-Université Sciences et Technologies - Bordeaux 1-Institut National de la Recherche Agronomique (INRA)-Université Bordeaux Segalen - Bordeaux 2, McGill University = Université McGill [Montréal, Canada], Nutrition et Neurobiologie intégrée (NutriNeuro), and Université Bordeaux Segalen - Bordeaux 2-Institut National de la Recherche Agronomique (INRA)-Université Sciences et Technologies - Bordeaux 1-Institut Polytechnique de Bordeaux-Ecole nationale supérieure de chimie, biologie et physique
- Subjects
Lipopolysaccharides ,Male ,0301 basic medicine ,Autism Spectrum Disorder ,système immunitaire ,Synaptic pruning ,[SDV]Life Sciences [q-bio] ,synaptic pruning ,microglia ,Hippocampal formation ,human health ,microglie ,autisme ,Mice ,Behavioral Neuroscience ,0302 clinical medicine ,CX3CR1 ,complement components ,Pregnancy Complications, Infectious ,Neurons ,Neuronal Plasticity ,maternal immune activation ,Behavior, Animal ,Microglia ,Brain ,santé humaine ,medicine.anatomical_structure ,Prenatal Exposure Delayed Effects ,Female ,women ,pregnancy ,LPS ,Offspring ,Immunology ,femme ,Biology ,grossesse ,ASD ,kanner s syndrome ,03 medical and health sciences ,Immune system ,fractalkine ,medicine ,Animals ,Pregnancy ,Endocrine and Autonomic Systems ,Dentate gyrus ,medicine.disease ,Mice, Inbred C57BL ,Disease Models, Animal ,030104 developmental biology ,Neurodevelopmental Disorders ,Neuroscience ,030217 neurology & neurosurgery - Abstract
Environmental challenges to the maternal immune system during pregnancy have been associated with an increase in the frequency of neurodevelopmental disorders such as Autism Spectrum Disorders (ASD) appearing in the offspring. Microglia, the brain's resident immune-cells, are now known to be critically involved in normal brain development, shaping connections between neurons by pruning superfluous synaptic spines. Our aim was to investigate whether maternal infection during critical stages of gestation compromises the role of microglia in sculpting neuronal circuits. Using a mouse model of maternal immune activation (MIA) induced by bacterial Lipopolysaccharide (LPS), we assayed the offspring's behavior during postnatal development. Additionally, we quantified spines within the offspring's brain and assessed alterations in some molecular signals involved in pruning. LPS-induced MIA led to behavioral changes relevant to ASD in the offspring in the absence of gross neurological problems. Prenatal LPS resulted in a significant increase in the number of spines in the granule cells of the dentate gyrus, as well as a reduction in hippocampal expression of the fractalkine microglial receptor (CX3CR1), involved in mediating the pruning process in the offspring. Interestingly, these changes were only noted in the male progeny of the LPS challenged dams. These results provide an early indicator that microglial function is altered in the brain of offspring from immune challenged mothers and that the effects in the brain appear to be specific along sex lines.
- Published
- 2017
- Full Text
- View/download PDF
11. Questionnaire of executive function for dancers: an ecological approach
- Author
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Mabel Rodríguez, Alicia Reyes, Lourdes Fernández de Cossío, Miguel Alvarez, Alina Wong, Ariel Borges, Florentino Blanco, Liliana Quevedo, and Roberto Corral
- Subjects
Male ,Self-Assessment ,Dance ,Adolescent ,Psychometrics ,Ballet ,Ecological validity ,media_common.quotation_subject ,Applied psychology ,Test validity ,Executive Function ,Verisimilitude ,Surveys and Questionnaires ,Ecological psychology ,Humans ,Dancing ,Function (engineering) ,Child ,Applied Psychology ,media_common ,Cuba ,Clinical Psychology ,Scale (social sciences) ,Linear Models ,Female ,Psychology ,Factor Analysis, Statistical ,Social psychology - Abstract
There is a current debate about the ecological validity of executive function (EF) tests. Consistent with the verisimilitude approach, this research proposes the Ballet Executive Scale (BES), a self-rating questionnaire that assimilates idiosyncratic executive behaviors of classical dance community. The BES was administrated to 149 adolescents, students of the Cuban Ballet School. Results present a Cronbach’s alpha coefficient of .80 and a split-half Spearman–Brown coefficient rSB = .81. An exploratory factor analysis describes a bifactorial pattern of EF dimensions, with a Self-Regulation component, which explains more than 40% of variance, and a Developmental component, which accounts for more than 20% of variance. The questionnaire’s total scores fit linear regression models with two external criteria of academic records, confirming concurrent validity. These findings support the hypothesis that the internalization of specific contextual cultural meanings has a mediating influence in the development of EF.
- Published
- 2011
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