Molecular basis of age-associated cytokine dysregulation in LPS-stimulated macrophages

Chelvarajan, R. Lakshman; Liu, Yushu; Popa, Diana; Getchell, Marilyn L.; Getchell, Thomas V.; Stromberg, Arnold J.; Bondada, Subbarao

doi:10.1189/jlb.0106024

Cited by 129 publications

(119 citation statements)

References 62 publications

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“…Hence, the use of local anti-inflammatory agents to control airway inflammation may help to dampen respiratory allergies by preventing the recruitment of memory B cells. More importantly, aging has been associated with impaired inflammatory responses and TLR function (36)(37)(38), and our findings indicate that this might lead to poor memory B cell recruitment in aged individuals responding to infection.…”

Section: Discussionmentioning

confidence: 88%

Recruitment of Memory B Cells to Lymph Nodes Remote from the Site of Immunization Requires an Inflammatory Stimulus

Shenoy

Chatterjee

Kaw

et al. 2012

The Journal of Immunology

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Successful recall Ab responses require recruitment of quiescent memory B cells to secondary lymphoid organs. However, the cellular dynamics of memory cells responding to local antigenic challenge at lymphoid sites distal from the initial Ag encounter are not well understood. We show in this study that memory B cells generated following s.c. immunization in one footpad generate secondary responses to soluble Ag given i.p. but not to Ag given s.c. in the contralateral footpad unless LPS is coadministered. Memory B cells do not express CD62L, and CD62L−ve cells cannot enter lymph nodes unless LPS-mediated inflammation is induced there. Functional TLR4 is required on the B cells, as well as on non-B cells, in the lymph node to achieve full recruitment. Furthermore, splenectomized mice fail to respond to such inflammatory s.c. challenge in contralateral footpads, unlike lymphadenectomized mice lacking the original draining lymph nodes. Splenectomized mice also fail to respond to i.p. challenge with soluble Ag. Together, these data indicate that, unlike the central memory pool of T cells, which circulates through resting lymph nodes, the majority of long-lived memory B cells are spleen resident and require inflammatory signals for mounting recall responses at distal challenge sites.

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Section: Discussionmentioning

confidence: 88%

Recruitment of Memory B Cells to Lymph Nodes Remote from the Site of Immunization Requires an Inflammatory Stimulus

Shenoy

Chatterjee

Kaw

et al. 2012

The Journal of Immunology

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“…The first transcriptional profiles of aging were generated in a limited number of mouse tissues such as muscle [27] and brain [28]. Recently, transcriptional profiles of such diverse organs as adipose tissue [29], heart [30], liver [31••], and macrophages [32] have been studied. A recent study by Edwards et al used an empirical Bayes approach to identify 712 transcripts that are age-regulated in mouse muscle that were enriched for genes active in the p53 proapoptotic pathway in addition to genes encoding mitochondrial proteins involved in energy generation [33].…”

Section: Dna Microarray Studies Of Aging In Micementioning

confidence: 99%

Systems biology of aging in four species

Zahn

Kim

2007

Current Opinion in Biotechnology

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Using DNA microarrays to generate transcriptional profiles of the aging process is a powerful tool for identifying biomarkers of aging. In C. elegans, a number of whole-genome profiling studies identified genes that change expression levels with age. High-throughput RNAi screens in worms determined a number of genes that modulate lifespan when silenced. Transcriptional profiling of the fly head identified a molecular pathway, the 'response to light' gene set, that increases expression with age and could be directly related to the tendency for a reduction in light levels to extend fly lifespan. In mouse, comparing the gene expression profiles of several drugs to the gene expression profile of caloric restriction identified metformin as a drug whose action could potentially mimic caloric restriction in vivo. Finally, genes in the mitochondrial electron transport chain group decrease expression with age in the human, mouse, fly, and worm.

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“…Overall, their data suggest that different loci contributed to variation in immune responses at each age, consistent with the mutation accumulation model of senescence. In mice, following LPS challenge, it was found that 500 genes were activated in macrophages from young and old individuals, but more than 150 were activated only in the old or only in the young (12).…”

Section: Human Longevity Genetics and Inflammationmentioning

confidence: 99%