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Orexin activation counteracts decreases in nonexercise activity thermogenesis (NEAT) caused by high-fat diet.

Physiology & behavior
July 1, 2017
P E Bunney et al. (5 authors)
Journal ArticleAnimal Study
Study Details

Study Goal

The researchers aimed to determine whether high-fat diet (HFD) reduces spontaneous physical activity (SPA) and non-exercise activity thermogenesis (NEAT), and if DREADD-mediated activation of orexin neurons could counteract this effect.

Results Summary

HFD consumption reduced SPA and NEAT while increasing inactivity post-meal. DREADD activation of orexin neurons restored NEAT to control levels, suggesting a potential intervention to mitigate HFD-induced inactivity.

Population

Orexin-cre male mice

Effective Dosage

Not specified

Duration

Not specified

Interactions

None mentioned

Extracted Claims (8)
InterventionDirectionEndpointPopulationDosageImpactClaim #
high-fat diet (HFD)
decrease
time eating
mice
p<0.01
spent significantly less time
#1
high-fat diet (HFD)
increase
time inactive
mice
p<0.01
spent more time
#2
high-fat diet (HFD)
increase
inactivity following a meal
mice
p<0.05
significantly more likely to engage in periods of inactivity
#3
high-fat diet (HFD)
decrease
NEAT
animals on HFD
-
was decreased
#4
DREADD-mediated activation of orexin neuron signaling
increase
NEAT
animals on HFD
-
was increased to the NEAT level of control animals
#5
-
no change
Food intake (kilocalories)
mice on chow and HFD
-
was not significantly different
#6
chow diet
increase
energy expenditure per unit of SPA
mice
-
expended more energy per unit of SPA
#7
high-fat diet (HFD)
decrease
SPA
mice
-
burns fewer calories
#8
Abstract

Overweight and obesity result from an imbalance between caloric intake and energy expenditure, including expenditure from spontaneous physical activity (SPA). Changes in SPA and resulting changes in non-exercise activity thermogenesis (NEAT) likely interact with diet to influence risk for obesity. However, previous research on the relationship between diet, physical activity, and energy expenditure has been mixed. The neuropeptide orexin is a driver of SPA, and orexin neuron activity can be manipulated using DREADDs (Designer Receptors Exclusively Activated by Designer Drugs). We hypothesized that HFD decreases SPA and NEAT, and that DREADD-mediated activation of orexin neuron signaling would abolish this decrease and produce an increase in NEAT instead. To test these ideas, we characterized behaviors to determine the extent to which access to a high-fat diet (HFD) influences the proportion and probability of engaging in food intake and activity. We then measured NEAT following access to HFD and following a DREADD intervention targeting orexin neurons. Two cohorts of orexin-cre male mice were injected with an excitatory DREADD virus into the caudal hypothalamus, where orexin neurons are concentrated. Mice were then housed in continuous metabolic phenotyping cages (Sable Promethion). Food intake, indirect calorimetry, and SPA were automatically measured every second. For cohort 1 (n=8), animals were given access to chow, then switched to HFD. For cohort 2 (n=4/group), half of the animals were given access to HFD, the other access to chow. Then, among animals on HFD, orexin neurons were activated following injections of clozapine n-oxide (CNO). Mice on HFD spent significantly less time eating (p<0.01) and more time inactive compared to mice on chow (p<0.01). Following a meal, mice on HFD were significantly more likely to engage in periods of inactivity compared to those on chow (p<0.05). NEAT was decreased in animals on HFD, and was increased to the NEAT level of control animals following activation of orexin neurons with DREADDs. Food intake (kilocalories) was not significantly different between mice on chow and HFD, yet mice on chow expended more energy per unit of SPA, relative to that in mice consuming HFD. These results suggest that HFD consumption reduces SPA and NEAT, and increases inactivity following a meal. Together, the data suggest a change in the efficiency of energy expenditure based upon diet, such that SPA during HFD burns fewer calories compared to SPA on a standard chow diet.

Medical Subject Headings (MeSH)
Analysis of VarianceAnimalsAntipsychotic AgentsCalorimetryClozapineDesigner DrugsDiet, High-FatEatingLuminescent ProteinsMaleMiceMice, Inbred C57BLMice, TransgenicOrexinsPhysical Conditioning, AnimalReceptors, Cell SurfaceThermogenesisTime FactorsTransduction, GeneticRed Fluorescent Protein
Study Links
Quality Scores
SafetyNot Assessed
Efficacy85/10
Quality78/10
Citation Metrics
Total Citations790
Citations/Year98.8
Relative Citation Ratio34.94
NIH Percentile99.8%
Research Impact Scores
APT Score0.95
Weight Score1.88
Normalized Score0.70
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