Project description:This study investigates the proteomic alterations in brain mitochondria isolated from 5- (mature), 12- (old), and 24-month-old (aged) mice to examine normal "healthy" aging. Using quantitative mass-spectrometry based super-SILAC, our findings revealed global proteomic changes in brain mitochondria identifying several metabolic pathways including glycolysis, the tricarboxylic acid cycle, and oxidative phosphorylation. Overall, we found that the bioenergetic function of these mitochondria was preserved suggesting the proteomic alterations potentially allow for compensatory mechanisms to combat aging.

Project description:Gene expression within the cochlea of C57BL6j mice was examined. The hypothesis was that there was a genetic component to Age Related Hearing Loss and microarray would be useful in detecting candidate genes. Mice were aged in the laboratory to 4, 15 and 45 weeks of age. The cochlea were removed and pooled into groups of 5 for each age group. Total RNA was extracted and used in the micoroarray analysis. Differential expression was analysed between the different age groups i.e 4 - 15, 4 - 45 and 15 - 45 weeks.

Project description:The thymus is primarily responsible for generating naïve, self-tolerant T cells from hematopoietic precursors. Thymic epithelial cells (TECs) together with other stromal cells create a specialized microenvironment which orchestrates the major selection processes for T cell development. Thymic function progressively deteriorates as part of the aging process, with a dramatic loss in TECs and T cell production, and this ultimately constrains the host immune repertoire. We have previously demonstrated the role of sex steroids in thymic involution in male mice, with surgical castration of middle-aged (9-12 month) male mice resulting in thymus regeneration, peaking around day 28. We have also demonstrated phenotypic alterations in TEC subsets within one week following castration that may contribute to this transient thymus regeneration effect. In this study, we aimed to examine genetic alterations in TEC and non-TEC stromal cell subsets (predominantly fibroblasts and endothelial cells) during age-related thymic involution (5-6 week old young adults compared to 9-12 month middle aged); and genetic changes in TEC and non-TEC at several timepoints following castration, to identify factors that may be involved in thymus regeneration.

Project description:We used CITE-seq (10x Gemoics-based) to profile and compare the transcriptomes and cell surface expression of a set of immune markers of naïve brain myeloid cells from young-adult (12 weeks old) wild type C57Bl/6 mice, aged (72 weeks old) wild type C57Bl/6 mice and young-adult and aged C57Bl/6 mice with antibiotics induced gut microbiota depletion. In one sequencing round, we sequenced a total of 12 different mouse brains (3 young control, 3 aged control, 3 young depleted gut microbiota (ABX) and 3 aged depleted gut microbiota (ABX)). We created an antibody pool consisting of 31 different antibodies (CCR2/CD192, C117/c-kit, CD11b, CD11c, CD172a/SIRPα, CD25, CD3, CD38, CD4, CD44, CD45, CD45R/B220, CD86, CD8a, CD90.1, Cx3cr1, F4/80, I-A/I-E, Ly6C, Ly6G, NK1.1, PD-1, PD-L1, CD169/Siglec-1, Siglec-H, TMEM119, XCR1, CD24, CD103, CD64, CD83) and stained each brain individually with this antibody pool. Then, we stained each brain with it's own unique hashing antibody so that we could subsequently pool the samples for loading onto the 10x Chromium. Young Control and Young ABX brains were tagged with HTOs 1-6 (HTO 1-3 for young control and HTO 4-6 for young ABX). Aged control and Aged ABX brains were tagged with HTOs 1-6 (HTO 1-3 for aged control and HTO 4-6 for aged ABX). Young and aged were loaded in separate wells on the 10X Chromium. The samples were tagged with unique nextera index primers to allow for preparation of one sequencing library consisting of all 12 samples and were separated in silico by it's unique hashing antibody and nextera index barcode combinations.

Project description:The impaired aerobic glycolysis of monocyte/macrophage are the main features in sepsis that encountered immunosuppression. NLRC3, an inhibitory sensor, can diminish the Toll-like receptor 4 pathways of macrophages which is associated with sepsis-induced immunosuppression, but whether NLRC3 plays key role in regulating the immunosuppression of macrophage via interfering glycolysis still unclear. The aim of this study was to characterize the transcriptome alterations by which NLRC3 loss, and further investigate the role of the glycolysis in the macrophage with the development of sepsis. Bone marrow-derived macrophages (BMDMs) was isolated from the femurs and tibias of the NLRC3 WT (LysM-Cre-NLRC3fl/fl) and NLRC3ΔMac (LysM-Cre+ NLRC3fl/fl) mice and then was treated with or without LPS for 12 hours, and the macrophages mRNA profiles of five-weeks-old NLRC3 WT mice (WT macrophages) and of five-weeks-old NLRC3ΔMac mice (NLRC3-/- macrophages) were generated by deep sequencing, in triplicate, using Illumina 6000.

Project description:We used 16S V3/V4 region amplification to evaluate the composition of bacteria species in mouse fecal pellets. Fecel pellets were collected from young-adult (12 weeks old) wild type C57Bl/6 mice and aged (72 weeks old) wild type C57Bl/6 mice after 21 days of vehicle or antibiotics treatment (to induce gut microbiota depletion). In one sequencing round, we sequenced a total of 12 different fecal samples (3 young control, 3 aged control, 3 young depleted gut microbiota (ABX) and 3 aged depleted gut microbiota (ABX)). Amplicons were indexed using the Nextera XT Index Kit and pooled into a library for Illumina sequencing.

Project description:Temporal expression profiling of hindlimb muscle of beta- and gamma-sarcoglycan deficient mice aged 1, 2.5, 4, 6, 8, 10, 12, 14 and 20 weeks. Keywords: time course

Project description:Purpose of this experiment was to study the host-transcriptional response to MA-15, MA-15epsilon, and MA-15-gamma in both young and aged mice to further understand the differences between response within each age group, and the age-related differences in response to each virus. Young (8 weeks old) and aged (1 year old) female BALB/c mice were intranasally infected with 10^5 PFU of either MA15, MA15 gamma, MA15 epsilon, or phosphate buffer solution (PBS; mock-infection). Lungs from aged mice were harvested at 12, 24, and 48 hours post-infection. Lungs from young mice were harvested at 12, 24, 48, and 96 hours post-infection. For the aged mice, 3 biological replicates were collected for microarray analysis at each time point from the infected groups. 3 mocks at 12h, 2 mocks each at 24 and 48h time points.For the young mice, 4 biological replicates were collected for microarray analysis at each time point from the infected groups.

Project description:Young (8-12 weeks) and old (80-90 weeks) mice were engrafted with 50,000 murine GL261 cells. Extra-tumoral tissue was isolated on Day 21 post intracranial injection and sent for RNA sequencing analysis. Tissue from tumor naïve young and old mice was included as .controls

Project description:MiRNA expression profile was assessed in cardiac fibroblasts isolated from young (2 months old) and aged (16 months old) mice, by next generation sequencing of small RNA. Bioinformatic analysis of next-generation sequencing output demonstrated 88 differentially expressed miRNAs in aged mice - derived cardiac fibroblasts versus young mice-derived cells, of which two thirds were downregulated and one third were upregulated. The majority of downregulated miRNAs were mapped to chromosome 12, as part of Meg3-Mirg locus, while the remaining were spread on all chromosomes. Almost 90% of miRNA genes within Meg3-Mirg locus were expressed over a wide range in cardiac fibroblasts and had a decreasing trend in the aged group, the majority being significantly downregulated. This study provides evidence that aging is associated to significant alterations in miRNA expression profile in cardiac fibroblasts, a predominant feature being the downregulation of miRNAs within Meg3-Mirg locus.