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Rapeseed oil fortified with micronutrients improves cognitive alterations associated with metabolic syndrome.

Brain, behavior, and immunity
February 1, 2020
Célia Fourrier et al. (9 authors)
Journal ArticleResearch Support, Non-U.S. Gov'tAnimal Study
Study Details

Study Goal

The researchers aimed to determine if a diet supplemented with n-3 PUFAs-rich rapeseed oil fortified with antioxidants improved behavioral alterations and hippocampal function in db/db mice, a model of metabolic syndrome.

Results Summary

The supplemented diet reversed hippocampus-dependent spatial memory deficits in db/db mice and altered glutamatergic receptor composition in the hippocampus, suggesting improved neuronal plasticity, but did not affect anxiety-like behavior or inflammation.

Population

db/db mice (a model of metabolic syndrome)

Effective Dosage

Not specified

Duration

Not specified

Interactions

None mentioned

Extracted Claims (4)
InterventionDirectionEndpointPopulationDosageImpactClaim #
diet supplemented with the plant-derived n-3 PUFA α-linolenic acid (ALA) and antioxidants (provided by n-3 PUFAs-rich rapeseed oil fortified with a mix of naturally constituting antioxidant micronutrients, including coenzyme Q10, tocopherol, and the phenolic compound canolol)
no change
anxiety-like behavior
db/db mice
-
did not improve
#1
diet supplemented with the plant-derived n-3 PUFA α-linolenic acid (ALA) and antioxidants (provided by n-3 PUFAs-rich rapeseed oil fortified with a mix of naturally constituting antioxidant micronutrients, including coenzyme Q10, tocopherol, and the phenolic compound canolol)
no change
inflammatory abnormalities
db/db mice
-
did not improve
#2
diet supplemented with the plant-derived n-3 PUFA α-linolenic acid (ALA) and antioxidants (provided by n-3 PUFAs-rich rapeseed oil fortified with a mix of naturally constituting antioxidant micronutrients, including coenzyme Q10, tocopherol, and the phenolic compound canolol)
increase
hippocampus-dependent spatial memory deficits
db/db mice
-
reversed
#3
diet supplemented with the plant-derived n-3 PUFA α-linolenic acid (ALA) and antioxidants (provided by n-3 PUFAs-rich rapeseed oil fortified with a mix of naturally constituting antioxidant micronutrients, including coenzyme Q10, tocopherol, and the phenolic compound canolol)
increase
subunit composition of glutamatergic AMPA and NMDA receptors in the hippocampus
db/db mice
-
changed
#4
Abstract

Metabolic syndrome represents a major risk factor for severe comorbidities such as cardiovascular diseases or diabetes. It is also associated with an increased prevalence of emotional and cognitive alterations that in turn aggravate the disease and related outcomes. Identifying therapeutic strategies able to improve those alterations is therefore a major socioeconomical and public health challenge. We previously reported that both hippocampal inflammatory processes and neuronal plasticity contribute to the development of emotional and cognitive alterations in db/db mice, an experimental model of metabolic syndrome that displays most of the classical features of the syndrome. In that context, nutritional interventions with known impact on those neurobiological processes appear as a promising alternative to limit the development of neurobiological comorbidities of metabolic syndrome. We therefore tested here whether n-3 polyunsaturated fatty acids (n-3 PUFAs) associated with a cocktail of antioxidants can protect against the development of behavioral alterations that accompany the metabolic syndrome. Thus, this study aimed: 1) to evaluate if a diet supplemented with the plant-derived n-3 PUFA α-linolenic acid (ALA) and antioxidants (provided by n-3 PUFAs-rich rapeseed oil fortified with a mix of naturally constituting antioxidant micronutrients, including coenzyme Q10, tocopherol, and the phenolic compound canolol) improved behavioral alterations in db/db mice, and 2) to decipher the biological mechanisms underlying this behavioral effect. Although the supplemented diet did not improve anxiety-like behavior and inflammatory abnormalities, it reversed hippocampus-dependent spatial memory deficits displayed by db/db mice in a water maze task. It concomitantly changed subunit composition of glutamatergic AMPA and NMDA receptors in the hippocampus that has been shown to modulate synaptic function related to spatial memory. These data suggest that changes in local neuronal plasticity may underlie cognitive improvements in db/db mice fed the supplemented diet. The current findings might therefore provide valuable data for introducing new nutritional strategies for the treatment of behavioral complications associated with MetS.

Medical Subject Headings (MeSH)
AnimalsCognitionCognition DisordersDisease Models, AnimalFood, FortifiedMaleMetabolic SyndromeMiceMicronutrientsRapeseed Oil
Study Links
Quality Scores
SafetyNot Assessed
Efficacy70/10
Quality80/10
Citation Metrics
Total Citations5
Citations/Year1.0
Relative Citation Ratio0.38
NIH Percentile20.5%
Research Impact Scores
APT Score0.25
Weight Score1.65
Normalized Score0.64
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