Roflumilast Protects against Neuroinflammatory Alterations in Brain Tissues of Lipopolysaccharide-induced Mice Model

Microglial overactivation promotes the production of various second messengers and inflammatory markers in brain tissue, resulting in neuroinflammation and neurodegeneration, which may lead to cognitive decline. The cyclic nucleotides are one of the important second messengers involved in the regula...

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Published in	Current Alzheimer research Vol. 20; no. 1; p. 38
Main Authors	Kumari, Nisha, Pandey, Shivam Kumar, Akhtar, Mohammed Zunaid, Dey, Mangaldeep, Gautam, Avtar Singh, Nanda, Anjuman, Tiwari, Aman, Singh, Rakesh Kumar
Format	Journal Article
Language	English
Published	United Arab Emirates 2023
Subjects	Animals Brain - metabolism Catalase - metabolism Catalase - pharmacology Disease Models, Animal Inflammation - chemically induced Inflammation - drug therapy Lipopolysaccharides - toxicity Mice Neuroinflammatory Diseases Nucleotides, Cyclic - metabolism Nucleotides, Cyclic - pharmacology PDE4B cyclic nucleotides Neuroinflammation roflumilast second messengers LPS
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Abstract	Microglial overactivation promotes the production of various second messengers and inflammatory markers in brain tissue, resulting in neuroinflammation and neurodegeneration, which may lead to cognitive decline. The cyclic nucleotides are one of the important second messengers involved in the regulation of neurogenesis, synaptic plasticity, and cognition. The levels of these cyclic nucleotides are maintained by phosphodiesterase enzyme isoforms, particularly PDE4B, in the brain. An imbalance between PDE4B levels and cyclic nucleotides may lead to aggravating neuroinflammation. Lipopolysaccharides (LPS) were administered intraperitoneally on alternate days for 7 days at a dose of 500 μg/kg in mice, which triggered systemic inflammation. This may lead to the activation of glial cells and may activate oxidative stress and neuroinflammatory markers in brain tissue. Furthermore, oral administration of roflumilast (0.1, 0.2, and 0.4 mg/kg) in this model ameliorated oxidative stress markers, neuroinflammation and improved neurobehavioral parameters in these animals. The detrimental effect of LPS increased oxidative stress, AChE enzyme levels, and decreased catalase levels in brain tissues, along with memory impairment in animals. Moreover, it also enhanced the activity and expression of the PDE4B enzyme, resulting in a decline in cyclic nucleotide levels. Furthermore, treatment with roflumilast improved the cognitive decline, decreased AChE enzyme level, and increased the catalase enzyme level. Roflumilast also reduced the PDE4B expression in a dose-dependent manner, which LPS up-regulated. Roflumilast has shown an anti-neuroinflammatory effect and reversed the cognitive decline in LPS-induced mice model.
AbstractList	Microglial overactivation promotes the production of various second messengers and inflammatory markers in brain tissue, resulting in neuroinflammation and neurodegeneration, which may lead to cognitive decline. The cyclic nucleotides are one of the important second messengers involved in the regulation of neurogenesis, synaptic plasticity, and cognition. The levels of these cyclic nucleotides are maintained by phosphodiesterase enzyme isoforms, particularly PDE4B, in the brain. An imbalance between PDE4B levels and cyclic nucleotides may lead to aggravating neuroinflammation. Lipopolysaccharides (LPS) were administered intraperitoneally on alternate days for 7 days at a dose of 500 μg/kg in mice, which triggered systemic inflammation. This may lead to the activation of glial cells and may activate oxidative stress and neuroinflammatory markers in brain tissue. Furthermore, oral administration of roflumilast (0.1, 0.2, and 0.4 mg/kg) in this model ameliorated oxidative stress markers, neuroinflammation and improved neurobehavioral parameters in these animals. The detrimental effect of LPS increased oxidative stress, AChE enzyme levels, and decreased catalase levels in brain tissues, along with memory impairment in animals. Moreover, it also enhanced the activity and expression of the PDE4B enzyme, resulting in a decline in cyclic nucleotide levels. Furthermore, treatment with roflumilast improved the cognitive decline, decreased AChE enzyme level, and increased the catalase enzyme level. Roflumilast also reduced the PDE4B expression in a dose-dependent manner, which LPS up-regulated. Roflumilast has shown an anti-neuroinflammatory effect and reversed the cognitive decline in LPS-induced mice model.
Author	Nanda, Anjuman Gautam, Avtar Singh Akhtar, Mohammed Zunaid Dey, Mangaldeep Pandey, Shivam Kumar Tiwari, Aman Singh, Rakesh Kumar Kumari, Nisha
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SubjectTerms	Animals Brain - metabolism Catalase - metabolism Catalase - pharmacology Disease Models, Animal Inflammation - chemically induced Inflammation - drug therapy Lipopolysaccharides - toxicity Mice Neuroinflammatory Diseases Nucleotides, Cyclic - metabolism Nucleotides, Cyclic - pharmacology
Title	Roflumilast Protects against Neuroinflammatory Alterations in Brain Tissues of Lipopolysaccharide-induced Mice Model
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