Project description:We measured gene expression differences in the extensor digitorum longus (edl) skeletal muscle between wild-type and mice lacking Cu, Zn-superoxide dismutase to determine the effect of chronic oxidative stress on skeletal muscle. We analyzed 4 edl samples from WT mice and 4 samples from the SOD1 knockouts.

Project description:Frailty is an intermediate status of human ageing process, associated with decompensated homeostasis and death. The immune phenotype of frailty and its underlying cellular and molecular processes remain poorly understood. Here we profiled 114,467 immune cells from cord blood, young adults, healthy and frail elderly using single-cell RNA and TCR V(D)J sequencing. An age-dependent accumulation of cell heterogeneity and transcriptome variability in defined immune cell types was observed. With the specific expression of gene sets, characteristic transcription factors were identified in given immune cell types of certain age group. Trajectory analysis revealed cells from non-frail and frail elderly often fall into distinct trajectories, despite similar chronological age. Numerous TCR clonotypes were shared among T cell subtypes in aged and frail samples, indicating differential pluripotency and resilience capability of aged T cells. Finally, a frailty-specific monocyte subset was identified with exclusively high expression of lncRNAs NEAT1 and MALAT1. Our results discover human frailty-specific immune cell characteristics based on the comprehensive dimensions in immune landscape of ageing and frailty.

Project description:Frailty is a geriatric syndrome that represents a state of vulnerability with increased risk of negative health outcomes. In the last years, independent studies attempted to identify biomarkers of frailty at biological level, but no consensus has been reached to date. In this work, we performed a transcriptomic analysis of 25 robust and frail community-dwelling individuals based on Timed Up and Go, Gait Speed and Tilburg Frailty Indicator scales. The comparison between individuals classified as frail or robust by the three tools revealed the expression of 35 transcripts associated with frailty status. These include genes linked to inflammation- and hypoxia-related pathways, immune response or microRNAs. Among them, additional analyses showed that the expression of a 3-gene pattern, increased EGR1 and reduced DDX11L1 and miR454, was able to identify frail individuals with an area under the curve (AUC) of 0.86

Project description:We measured gene expression differences in the extensor digitorum longus (edl) skeletal muscle between wild-type and mice lacking Cu, Zn-superoxide dismutase to determine the effect of chronic oxidative stress on skeletal muscle.

Project description:This work describes for the first time a different circular RNA (circRNAs) expression pattern between frail and robust individuals. Moreover, the level of some circRNAs is modulated after a physical intervention. These results suggest that they could be used as minimally invasive biomarkers of frailty. Frailty is an intermediate and reversible geriatric syndrome that often precedes dependency. Therefore, its identification is essential to prevent dependency. Diverse molecules have been proposed as biomarkers of frailty, but none of them has reached clinical practice. Recently, circular RNAs have emerged as new non-coding RNAs. Their regulatory role together with their high stability in biofluids makes them good candidates as biomarkers for several processes, but, to date, no studies have characterized circRNA expression in frailty. We studied RNA from leukocytes of 35 frail and 35 robust individuals. After RNA-Sequencing, circRNA detection was performed by CIRI2 and Circexplorer2 and differential expression analysis by DESeq2. Validation was performed by Quantitative-PCR. A Linear Discriminant Analysis was performed to determine the best circRNA combination to discriminate frails from robusts. Besides, CircRNA candidates were studied in 13 additional elder donors before and after a 3-month physical intervention. We found 89 differentially expressed circRNAs (p-value<0.05, FC>|1.5|) with frailty. The upregulation of hsa_circ_0007817, hsa_circ_0101802 and hsa_circ_0060527 in frail individuals was validated. The combination of hsa_circ_0079284, hsa_circ_0007817 and hsa_circ_0075737 levels showed a great biomarker value with a 95.9% probability of correctly classifying frail and robust individuals. Moreover, hsa_circ_0079284 levels decreased after physical intervention in concordance with an improvement in frailty scores.

Project description:Various risk factors in aging contribute to the pathogenesis of frailty. Epigenetic changes are among the factors that influence gene expression. It plays a role in regulating the immune system during aging, especially DNA methylation. DNA methylation profiles in the elderly have been widely studied. However, the differences in methylation patterns between robust and frail aging populations remain underexplored. A total of 32 subjects were recruited (age ≥ 65 years old) , consisting of 16 as the frail group and 16 as the robust group. For further methylation sequencing, only one robust subject and four frail subjects were selected. The selection of these individuals was based on their TNF-α concentrations, representing one subject with the lowest and four with the highest TNF-α levels. In this study, we identified an association between altered DNA methylation patterns, mRNA expression levels, and inflammatory conditions in frail elderly. The differential expression of certain genes is likely influenced by differences in methylation level between the frail and robust groups. In overall methylation, the differential of 5mC was slightly significant (p=0.06), while 5hmC was not significantly different (p=0.53). We aim to investigate these differences to gain a deeper understanding of the pathogenesis of frailty in some specific genes.

Project description:Skeletal muscle atrophy is one of the critical issues which elderly people face. The precise mechanism underlying muscle atrophy during aging is not fully understood. In order to identify miRNA whose expression is changed in age-associated muscle atrophy, we performed miRNA expression profiling of skeletal muscles in young and aged rats. Microarray analysis revealed differential miRNA expression in EDL and soleus muscles of aged rats compared with those of young rats. We next investigated whether the age-associated changes of miRNA expression observed in rats were recapitulated in mice and found that the expression level of miR-206 in EDL muscle and that of miR-196a in EDL and soleus muscles were respectively higher and lower in aged rodents than in young rodents. In mouse C2C12 myoblasts and myotubes, introduction of miR-196a decreased the protein level of Forkhead-box transcription factor Foxo1, a known target of miR-196a, indicating that miR-196a may regulate Foxo1 expression also in skeletal muscles. Furthermore, miR-196a overexpression exacerbated cell death caused by an exposure to hydrogen peroxide. Lastly, we demonstrated that expression of Foxo1 was elevated in EDL and soleus muscles of aged mice compared with those of young mice. These results suggest that miRNAs are involved in skeletal muscle atrophy during aging and that decreased miR-196a expression may protect skeletal muscle cells from oxidative stress in part through induction of Foxo1.

Project description:Physical frailty's impact on hemagglutination inhibition antibody titers (HAI) and peripheral blood mononuclear cell (PBMC) transcriptional responses after influenza vaccination is unclear. Physical frailty was assessed using the 5-item Fried frailty phenotype in 168 community- and assisted-living adults ≥55 years of age during an observational study. Blood was drawn before, 3, 7, and 28 days post-vaccination with the 2017-2018 inactivated influenza vaccine. HAI response to the A/H1N1 strain was measured at Days 0 and 28 using seropositivity, seroconversion, log2 HAI titers, and fold-rise in log2 HAI titers. RNA sequencing of PBMCs from Days 0, 3 and 7 was measured in 28 participants and compared using pathway analyses. Frailty was not significantly associated with any HAI outcome in multivariable models. Compared with non-frail participants, frail participants expressed decreased cell proliferation, metabolism, antibody production, and interferon signaling genes. Conversely, frail participants showed elevated gene expression in IL-8 signaling, T-cell exhaustion, and oxidative stress pathways compared with non-frail participants. These results suggest that reduced effectiveness of influenza vaccine among older, frail individuals may be attributed to immunosenescence-related changes in PBMCs that are not reflected in antibody levels.

Project description:To further our understanding of the biological mechanisms regulating voluntary physical activity levels, we measured differential miRNA expression in two strains of mice that have been repeatedly shown to have inherently high and low voluntary physical activity levels measured by wheel running. RNA from skeletal muscle (soleus and extensor digitorum longus (EDL)) and nucleus accumbens in the brain tissues were evaluated by microarray. There were no other variables besides inherent strain differences. Thirteen miRNAs from nucleus accumbens, 22 from soleus, and nine miRNAs from EDL were determined to be differentially expressed by microarray analysis. RT-qPCR validated mir-342b-3p and 466d-3p to be differentially expressed in the NA, and miR-466b-3p in the soleus.

Project description:AbstractBackground: A decreased intramuscular carnitine status with aging may contribute to frailty and fatigue, but studies are often confounded by sex-heterogeneity and lack of control groups. We hypothesize that muscle carnitine deficiency is associated with (pre-)frailty, diminished physical performance and altered mitochondrial function, possibly in a sex-dependent manner. This was tested in well-matched age groups, allowing gender-specific analyses. Methods: A cross-sectional study was performed in well-matched fit (n = 15) and (pre-)frail (n = 13) old males as well as in fit (n = 15) and (pre-)frail (n = 11) old females, using young males (n = 13) and females (n = 13) as healthy controls. In the elderly, frailty was assessed according to the Fried criteria and physical performance was determined by 400-m walk test, short physical performance battery and handgrip strength. Acylcarnitine status was assessed in muscle biopsies and blood plasma using liquid chromatography-tandem mass spectrometry. Muscle mitochondrial gene expression was analyzed. Results: Intramuscular total carnitine levels and short chain acylcarnitine levels were lower in (pre-)frail old females compared to fit old females and young females, whereas no differences were observed in males. Intramuscular short chain acylcarnitine levels were associated with low physical performance in females, even after correction for muscle mass (%), whereas in males no such association was found. The decline in short chain acylcarnitine levels in (pre-)frail old females was associated with low expression of genes involved in mitochondrial energy production and mitochondrial functionality. Conclusions: In (pre-)frail old females, intramuscular total carnitine levels and short chain acylcarnitine levels are decreased and this decrease is accompanied by reduced physical performance and low expression of a wide range of genes involved in mitochondrial function.