Glial‐Neuronal Interactions in Alzheimer's Disease: The Potential Role of a ‘Cytokine Cycle’ in Disease Progression

Griffin, W. Sue T.; Sheng, Jin; Royston, M.C.; Gentleman, Steve; McKenzie, Jeanette E.; Graham, David I.; Roberts, Gareth W.; Mrak, Robert E.

doi:10.1111/j.1750-3639.1998.tb00136.x

Cited by 656 publications

(334 citation statements)

References 66 publications

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“…In the brains of both AD individuals and transgenic animal models, it was found that Ab plaques are surrounded by activated glial cells (Bauer et al 1991;Cagnin et al 2001;Fillit et al 1991;Liu et al 2013;Varnum and Ikezu 2012). Activated microglia and astrocytes strongly secrete inflammatory components such as pro-inflammatory cytokines, chemokines, complement, macrophage inflammatory proteins, monocyte chemoattractant proteins, reactive oxygen species (ROS), nitric oxide (NO) prostaglandins, leukotrienes, thromboxanes and so on (Akiyama et al 2000;Griffin et al 1998;Mrak et al 1995;Town et al 2005;Tuppo and Arias 2005). The released inflammatory molecules, especially some cytokines such as interleukin (IL)-18, IL-1b and tumor necrosis factor (TNF)-a, impair the balance of normal neurophysiologic condition that correlates with cognition and learning and memory (Fillit et al 1991;Gemma and Bickford 2007;Jankowsky and Patterson 1999;Liu et al 2013;Varnum and Ikezu 2012).…”

Section: Inflammation In Admentioning

confidence: 99%

Inflammation in Alzheimer’s Disease and Molecular Genetics: Recent Update

Zhang

et al. 2015

Arch. Immunol. Ther. Exp.

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Alzheimer's disease (AD) is a complex agerelated neurodegenerative disorder of the central nervous system. Since the first description of AD in 1907, many hypotheses have been established to explain its causes. The inflammation theory is one of them. Pathological and biochemical studies of brains from AD individuals have provided solid evidence of the activation of inflammatory pathways. Furthermore, people with long-term medication of anti-inflammatory drugs have shown a reduced risk to develop the disease. After three decades of genetic study in AD, dozens of loci harboring genetic variants influencing inflammatory pathways in AD patients has been identified through genome-wide association studies (GWAS). The most well-known GWAS risk factor that is responsible for immune response and inflammation in AD development should be APOE e4 allele. However, a growing number of other GWAS risk AD candidate genes in inflammation have recently been discovered. In the present study, we try to review the inflammation in AD and immunity-associated GWAS risk genes like HLA-DRB5/DRB1, INPP5D, MEF2C, CR1, CLU and TREM2.

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Section: Inflammation In Admentioning

confidence: 99%

Inflammation in Alzheimer’s Disease and Molecular Genetics: Recent Update

Zhang

et al. 2015

Arch. Immunol. Ther. Exp.

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“…Evidence indicates that astrocytes beneficially contribute to clearance of accumulated Aβ [109,110], but also contribute to inflammatoryinduced neuronal damage such as by producing neurotoxic nitric oxide [111] and cytokines. Activated microglia also release inflammatory cytokines and nitric oxide, as well as reactive oxygen species, and activate the complement system [112]. Thus, on one hand, these inflammatory molecules produced by glia cells are thought to contribute to the pathological progression of AD, while on the other hand, by contributing to the clearance of Aβ and secreting growth factors, both activated astrocytes and microglia are not thought to be entirely detrimental in AD [113,114].…”

Section: Neurodegenerative Diseases: Gsk3 and Admentioning

confidence: 99%

Glycogen Synthase Kinase-3 (GSK3): Inflammation, Diseases, and Therapeutics

2006

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Deciphering what governs inflammation and its effects on tissues is vital for understanding many pathologies. The recent discovery that glycogen synthase kinase-3 (GSK3) promotes inflammation reveals a new component of its well-documented actions in several prevalent diseases which involve inflammation, including mood disorders, Alzheimer's disease, diabetes, and cancer. Involvement in such disparate conditions stems from the widespread influences of GSK3 on many cellular functions, with this review focusing on its regulation of inflammatory processes. GSK3 promotes the production of inflammatory molecules and cell migration, which together make GSK3 a powerful regulator of inflammation, while GSK3 inhibition provides protection from inflammatory conditions in animal models. The involvement of GSK3 and inflammation in these diseases are highlighted. Thus, GSK3 may contribute not only to primary pathologies in these diseases, but also to the associated inflammation, suggesting that GSK3 inhibitors may have multiple effects influencing these conditions.

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“…inflammatory response in the brain that exceeds early neuroprotection and results in neurodegenerative changes capable of continuing the inflammatory cycle. 9,27,90 Chronic inflammation has been observed in a number of studies examining patients with trauma-related anxiety disorders, reporting increases in downstream mediators, such as peripheral elevations of TNF-a, interferon-gamma (IFN-c), IL-1b, and IL-6, in patients with PTSD, [13][14][15][16] elevations of TNF-a and IL-6 in patients with OCD, 17 and elevations in proinflammatory cytokines and chemokines (monocyte chemoattractant protein 1, macrophage inflammatory protein 1 alpha, IL-1a, IL-1b, IL-6, IL-8, Eotaxin, granulocyte macrophage colony-stimulating factor, and IFN-c) in individuals with panic disorder and PTSD. 18 Despite compelling evidence implicating excessive inflammatory actions and a generalized inflammatory state in the development of anxiety disorders after TBI, central measures of proinflammatory cytokine elevations specifically related to human PTSD and other anxiety disorders have not yet been performed.…”

mentioning

confidence: 99%

Reversal of Established Traumatic Brain Injury-Induced, Anxiety-Like Behavior in Rats after Delayed, Post-Injury Neuroimmune Suppression

Rodgers

Deming

Bercum

et al. 2014

Journal of Neurotrauma

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Traumatic brain injury (TBI) increases the risk of neuropsychiatric disorders, particularly anxiety disorders. Yet, there are presently no therapeutic interventions to prevent the development of post-traumatic anxiety or effective treatments once it has developed. This is because, in large part, of a lack of understanding of the underlying pathophysiology. Recent research suggests that chronic neuroinflammatory responses to injury may play a role in the development of post-traumatic anxiety in rodent models. Acute peri-injury administration of immunosuppressive compounds, such as Ibudilast (MN166), have been shown to prevent reactive gliosis associated with immune responses to injury and also prevent lateral fluid percussion injury (LFPI)-induced anxiety-like behavior in rats. There is evidence in both human and rodent studies that post-traumatic anxiety, once developed, is a chronic, persistent, and drug-refractory condition. In the present study, we sought to determine whether neuroinflammation is associated with the long-term maintenance of post-traumatic anxiety. We examined the efficacy of an anti-inflammatory treatment in decreasing anxiety-like behavior and reactive gliosis when introduced at 1 month after injury. Delayed treatment substantially reduced established LFPI-induced freezing behavior and reactive gliosis in brain regions associated with anxiety and continued neuroprotective effects were evidenced 6 months post-treatment. These results support the conclusion that neuroinflammation may be involved in the development and maintenance of anxiety-like behaviors after TBI.

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Glial‐Neuronal Interactions in Alzheimer's Disease: The Potential Role of a ‘Cytokine Cycle’ in Disease Progression

Cited by 656 publications

References 66 publications

Inflammation in Alzheimer’s Disease and Molecular Genetics: Recent Update

Inflammation in Alzheimer’s Disease and Molecular Genetics: Recent Update

Glycogen Synthase Kinase-3 (GSK3): Inflammation, Diseases, and Therapeutics

Reversal of Established Traumatic Brain Injury-Induced, Anxiety-Like Behavior in Rats after Delayed, Post-Injury Neuroimmune Suppression

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