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Combined Effect of Fatty Diet and Cognitive Decline on Brain Metabolism, Food Intake, Body Weight, and Counteraction by Intranasal Insulin Therapy in 3×Tg Mice.

Frontiers in cellular neuroscience
May 5, 2019
Elena Sanguinetti et al. (9 authors)
Journal ArticleAnimal Study
Study Details

Study Goal

The researchers aimed to examine the effects of chronic intranasal insulin (INI) therapy on cognitive decline, brain metabolism, and body weight in a mouse model of Alzheimer's pathology under high-fat diet conditions.

Results Summary

Chronic INI therapy preserved cognition, dentate gyrus dimensions, and brain metabolism while reducing food intake and body weight in 3×Tg-HFD mice. It also improved peripheral outcomes, such as leptin and PAI-1 levels, correlating with cerebral glucose uptake.

Population

Triple transgenic (3×Tg) mice, a model of Alzheimer's pathology, and control mice, both under normal and high-fat diets.

Effective Dosage

Not specified

Duration

Not specified

Interactions

None mentioned

Extracted Claims (18)
InterventionDirectionEndpointPopulationDosageImpactClaim #
high-fat diet (HFD)
increase
brain detriment
3×Tg mice
-
exert additive (genes*lifestyle) detriment to the brain
#1
high-fat diet (HFD)
increase
brain fasting glucose uptake (GU)
control mice at 8 months
-
increased
#2
high-fat diet (HFD)
decrease
brain fasting glucose uptake (GU)
3×Tg-HFD mice at 8 months
-
blunted
#3
-
increase
brain insulin resistance
3×Tg-HFD mice at 8 months
-
showing
#4
-
decrease
brain mass
3×Tg mice at 14 months
-
reduced
#5
-
increase
food intake
3×Tg groups
-
overate
#6
-
decrease
body-weight
3×Tg groups
-
had lower
#7
-
increase
cognitive decline
mice
-
progressive
#8
-
neutral
dentate gyrus dimensions
-
-
paralleled
#9
chronic intranasal insulin (INI) therapy
no change
cognition
3×Tg-HFD mice
-
preserved
#10
chronic intranasal insulin (INI) therapy
no change
dentate gyrus
3×Tg-HFD mice
-
preserved
#11
chronic intranasal insulin (INI) therapy
no change
metabolism
3×Tg-HFD mice
-
preserved
#12
chronic intranasal insulin (INI) therapy
decrease
food intake
3×Tg-HFD mice
-
reducing
#13
chronic intranasal insulin (INI) therapy
decrease
body weight
3×Tg-HFD mice
-
reducing
#14
-
decrease
leptin
3×Tg mice
-
suppressed
#15
-
increase
PAI-1
3×Tg mice
-
elevated
#16
-
decrease
cerebral glucose uptake (GU)
-
-
correlating inversely with
#17
chronic intranasal insulin (INI)
increase
peripheral and central outcomes
-
-
improved
#18
Abstract

Obesity and cognitive decline can occur in association. Brain dysmetabolism and insulin resistance might be common underlying traits. We aimed to examine the effect of high-fat diet (HFD) on cognitive decline, and of cognitive impairment on food intake and body-weight, and explore efficacy of chronic intranasal insulin (INI) therapy. We used control (C) and triple transgenic mice (3×Tg, a model of Alzheimer's pathology) to measure cerebral mass, glucose metabolism, and the metabolic response to acute INI administration (cerebral insulin sensitivity). Y-Maze, positron emission-computed tomography, and histology were employed in 8 and 14-month-old mice, receiving normal diet (ND) or HFD. Chronic INI therapy was tested in an additional 3×Tg-HFD group. The 3×Tg groups overate, and had lower body-weight, but similar BMI, than diet-matched controls. Cognitive decline was progressive from HFD to 3×Tg-ND to 3×Tg-HFD. At 8 months, brain fasting glucose uptake (GU) was increased by C-HFD, and this effect was blunted in 3×Tg-HFD mice, also showing brain insulin resistance. Brain mass was reduced in 3×Tg mice at 14 months. Dentate gyrus dimensions paralleled cognitive findings. Chronic INI preserved cognition, dentate gyrus and metabolism, reducing food intake, and body weight in 3×Tg-HFD mice. Peripherally, leptin was suppressed and PAI-1 elevated in 3×Tg mice, correlating inversely with cerebral GU. In conclusion, 3×Tg background and HFD exert additive (genes*lifestyle) detriment to the brain, and cognitive dysfunction is accompanied by increased food intake in 3×Tg mice. PAI-1 levels and leptin deficiency were identified as potential peripheral contributors. Chronic INI improved peripheral and central outcomes.

Study Links
Quality Scores
SafetyNot Assessed
Efficacy85/10
Quality78/10
Citation Metrics
Total Citations20
Citations/Year3.3
Relative Citation Ratio1.04
NIH Percentile51.5%
Research Impact Scores
APT Score0.25
Weight Score1.68
Normalized Score0.70
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Combined Effect of Fatty Diet and Cognitive Decline on Brain... | Panacea Index