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Caffeine's Neuroprotective Effect on Memory Impairment: Suppression of Adenosine A2A Receptor and Enhancement of Tyrosine Hydroxylase in Dopaminergic Neurons Under Hypobaric Hypoxia Conditions.

CNS neuroscience & therapeutics
December 1, 2024
Zhifeng Zhong et al. (10 authors)
Journal ArticleAnimal Study
Study Details

Study Goal

The researchers aimed to determine whether caffeine could mitigate memory impairments caused by chronic hypobaric hypoxia by modulating adenosine A2A receptors and restoring dopamine homeostasis.

Results Summary

Caffeine alleviated memory deficits in hypoxic conditions, increased dopamine and related neurotransmitter levels, and showed high binding affinity to A2AR and TH, suggesting neuroprotective effects.

Population

Male mice exposed to chronic hypobaric hypoxia.

Effective Dosage

Not specified

Duration

Not specified

Interactions

None mentioned

Extracted Claims (5)
InterventionDirectionEndpointPopulationDosageImpactClaim #
caffeine
decrease
memory impairments caused by chronic hypobaric hypoxia
male mice
-
effectively alleviated
#1
caffeine treatment
neutral
dopamine, metanephrine, and 3-hydroxyanthranilic acid levels
male mice with hypoxia-induced cognitive deficits
-
revealed significant differences in
#2
caffeine
decrease
chronic high-altitude-induced cognitive impairments
-
-
exhibits potent neuroprotective effects against
#3
caffeine
increase
TH expression
-
-
leading to enhanced
#4
caffeine
increase
dopamine and its related neurotransmitters
-
-
leading to enhanced TH expression and subsequent release of
#5
Abstract

AIMS: Chronic hypobaric hypoxia frequently results in memory deficits, with severe cases showing marked alterations in dopamine levels and its metabolites. This research explores caffeine's modulation of the adenosine A2A receptor (A2AR) and its regulatory effects on tyrosine hydroxylase (TH), aiming to restore dopamine homeostasis and mitigate memory impairments associated with hypoxia. The goal is to identify novel preventive strategies against cognitive decline induced by hypoxia. METHODS: Network pharmacological analysis was employed to predict the interactions between caffeine, cognitive function, and hypobaric hypoxia-related disorders. The novel object recognition and Y-maze tests were utilized to assess caffeine's impact on memory deficits under hypobaric hypoxia conditions in male mice. LC-MS/MS analysis was subsequently conducted to examine the variations in dopamine and its metabolites within the midbrain. Molecular docking further confirmed the binding affinities between A2AR and caffeine, as well as TH and caffeine. Additionally, immunofluorescence and protein-protein docking were employed to elucidate the interaction between A2AR and TH. RESULTS: The findings highlight the pivotal role of adenosine receptors and dopamine-related pathways in the interplay between caffeine, cognition, and hypobaric hypoxia-related disorders. Behavioral tests demonstrated that caffeine effectively alleviated memory impairments caused by chronic hypobaric hypoxia. LC-MS/MS results revealed significant differences in dopamine, metanephrine, and 3-hydroxyanthranilic acid levels following caffeine treatment for hypoxia-induced cognitive deficits. Molecular docking confirmed the high affinity between A2AR and caffeine, as well as TH and caffeine, while immunofluorescence and protein-protein docking provided insights into the A2AR-TH interaction and its modulation during hypobaric hypoxia. CONCLUSIONS: Caffeine exhibits potent neuroprotective effects against chronic high-altitude-induced cognitive impairments, potentially through its action on A2AR, leading to enhanced TH expression and subsequent release of dopamine and its related neurotransmitters.

Medical Subject Headings (MeSH)
AnimalsReceptor, Adenosine A2AMaleMemory DisordersCaffeineMiceTyrosine 3-MonooxygenaseHypoxiaNeuroprotective AgentsDopaminergic NeuronsMolecular Docking SimulationMaze LearningMice, Inbred C57BLAdenosine A2 Receptor AntagonistsRecognition, Psychology
Study Links
Quality Scores
SafetyNot Assessed
Efficacy85/10
Quality78/10
Research Impact Scores
APT Score0.05
Weight Score1.20
Normalized Score0.70
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