Age and Age-Related Diseases: Role of Inflammation Triggers and Cytokines

Rea, Irene Maeve; Gibson, David; McGilligan, Victoria; McNerlan, Susan E.; Alexander, H. Denis; Ross, Owen A.

doi:10.3389/fimmu.2018.00586

Cited by 888 publications

(769 citation statements)

References 471 publications

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“…1). A number of studies have reported that aging decreases mRNA expressions of nerve growth factor, nitric oxide synthase, and long-term potentiation-related genes, and increases the expression of genes associated with NADPH oxidase and inflammation [26][27][28][29][30]. Our result demonstrated that mRNA expression levels of Gp91 phox and Mcp-1 were elevated with aging, while Ampa1 expression levels significantly declined (Fig.…”

Section: Discussionsupporting

confidence: 60%

Efficacy of Long-Term Feeding of α-Glycerophosphocholine for Aging-Related Phenomena in Old Mice

et al. 2020

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α-Glycerophosphocholine (GPC) is a natural source of choline. It reportedly prevents aging-related decline in cognitive function, but the underlying mechanism remains unclear. Although it is understood that aging influences taste sensitivity and energy regulation, whether GPC exerts antiaging effects on such phenomena requires further elucidation. Here, we used old C57BL/6J mice that were fed a GPC-containing diet, to investigate the molecular mechanisms underlying the prevention of a decline in cognitive function associated with aging and examine the beneficial effects of GPC intake on aging-related phenomena, such as taste sensitivity and energy regulation. We confirmed that GPC intake reduces the aging-related decline in the expression levels of genes related to long-term potentiation. Although we did not observe an improvement in aging-related decline in taste sensitivity, there was a notable improvement in the expression levels of β-oxidation-associated genes in old mice.Our results suggest that the prevention of aging-related decline in cognitive function by GPC intake may be associated with the improvement of gene expression levels of longterm potentiation. Furthermore, GPC intake may positively influence lipid metabolism.

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Section: Discussionsupporting

confidence: 60%

Efficacy of Long-Term Feeding of α-Glycerophosphocholine for Aging-Related Phenomena in Old Mice

et al. 2020

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“…2 Not surprisingly, a progressive propensity toward a proinflammatory phenotype, identified as inflamm-aging, plays a key role in the remodeling of the immune system at older ages, with evidence pointing to an inability to fine-control inflammation. 5 Thus, in our opinion, the role of the thymus could be crucial in the modulation of the immune response toward SARS-CoV-2 leading to a less severe phenotype in children when compared with those in adult COVID-19 patients. On the other hand, inflamm-aging associated with the absence of thymopoietic mechanisms could be a predisposing condition that sustains the cytokine release storm as is most often reported in adult COVID-19 subjects, especially in the older COVID-19 patients.…”

Section: Dear Editormentioning

confidence: 85%

Role of thymopoiesis and inflamm-aging in COVID-19 phenotype

Scarpa¹,

Costa²,

Puente³

et al. 2020

Pediatrics & Neonatology

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“…Aging is one of the major risk factors for MI, and monocytederived cardiac macrophages as well as granulocytes increase in numbers during aging while the overall macrophage population decreases (Molawi et al, 2014). Aging is also related to clonal hematopoiesis with a myeloid bias, an overall increased systemic inflammatory tone, dysregulation of soluble mediators including cytokines, chemokines, and growth factors all together reducing immune tolerance, a phenotype also described as ''inflamm-aging'' (Fuster et al, 2017;Jaiswal et al, 2017;Rea et al, 2018;Swirski, 2018). However, the overall impact of these age-related changes within the hematopoietic and the immune system on the onset of MI have not been quantified to detail yet and certainly need further clarification.…”

Section: Myelopoiesis In Context Of Acute and Chronic Inflammationmentioning

confidence: 99%

Emerging Principles in Myelopoiesis at Homeostasis and during Infection and Inflammation

2019

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Myelopoiesis ensures the steady state of the myeloid cell compartment. Technological advances in fate mapping and genetic engineering, as well as the advent of single cell RNA-sequencing, have highlighted the heterogeneity of the hematopoietic system and revealed new concepts in myeloid cell ontogeny. These technologies are also shedding light on mechanisms of myelopoiesis at homeostasis and at different phases of infection and inflammation, illustrating important feedback loops between affected tissues and the bone marrow. We review these findings here and revisit principles in myelopoiesis in light of the evolving understanding of myeloid cell ontogeny and heterogeneity. We argue for the importance of system-wide evaluation of changes in myelopoiesis and discuss how even after the resolution of inflammation, long-lasting alterations in myelopoiesis may play a role in innate immune memory or trained immunity.

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Age and Age-Related Diseases: Role of Inflammation Triggers and Cytokines

Cited by 888 publications

References 471 publications

Efficacy of Long-Term Feeding of α-Glycerophosphocholine for Aging-Related Phenomena in Old Mice

Efficacy of Long-Term Feeding of α-Glycerophosphocholine for Aging-Related Phenomena in Old Mice

Role of thymopoiesis and inflamm-aging in COVID-19 phenotype

Emerging Principles in Myelopoiesis at Homeostasis and during Infection and Inflammation

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