Project description:Organismal ageing is associated with loss of immune function and higher incidence of cancer. Whether the γδ T cell pool changes upon organismal ageing is not known. In this study we have characterized γδ T cells in peripheral lymph nodes from old and young mice. We found that the γδ T cell pool is severely altered in old mice. The IL-17 producing γδ lineage becomes dominating while IFN-γ producing γδ1 T cells are declining. γδTCR sequencing revealed no collapse in diversity but oligoclonal expansions in Vγ4 γδ17 subsets. Pro-tumourigenic invariant Vγ6 cells are present only in aged lymph nodes, represent the majority of γδ T cells in the tumour, and are associated with faster tumour progression.

Project description:MicroRNAs (miRNAs) are small noncoding RNAs that critically regulate gene expression. Their abundance and function have been linked to processes such as senescence and aging. In aged monkey muscle, miR-451a and miR-144-3p were highly upregulated compared to young animals. This led us to hypothesize that the miRNAs 451a/144-3p may be involved in muscle differentiation. We found that these miRNAs are downregulated during the differentiation of C2C12 myoblasts. Overexpression of miR-451a, but not miR-144-3p, robustly impeded the differentiation, suggesting an inhibitory role for miR-451a. We further investigated the potential regulatory targets of miR-451a and identified Sparc mRNA, encoding a secreted protein acidic and rich in cysteine (SPARC), which is involved in wound healing and cellular differentiation. Interestingly, we found that miR-451a suppresses Sparc mRNA translation according to the analysis of polysome profile. Our findings show that miR-451a is downregulated in differentiated myoblasts and decreases C2C12 differentiation at least in part by the suppression of SPARC biosynthesis.

Project description:IL-17 is a key cytokine important for defense against infection and plays a critical role in inflammatory diseases. To understand the diversity and identify a core gene signature among IL-17-producing T cell populations we isolated CD4+ and CD8+ IL-17 producing T cells for RNA sequencing.

Project description:Four miRNAs showed significantly different expression post-vitamin C supplementation including the down-regulation of miR-451a, and up-regulation of miR-1253, miR-1290 and miR-644a. Subsequent validation study showed only miR-451a expression was significantly different with supplementation.

Project description:γδ T cells produce the primary innate source of IL-17 (γδT17) and are known to play a critical role in autoimmune and inflammatory diseases such as psoriasis. We here reported that psoriatic condition (IL-1b and IL-23) reshaped metabolic signatures and effector function of γδT17 cells compared to homeostatic condition (IL-7). Acetyl-CoA carboxylase 1 (ACC1), a rate-limiting enzyme of fatty acid synthesis (FAS), directs the fate of IL-17-producing CD4 T cells (Th17) differentiation. However, little is known about the role of ACC1-mediated FAS in their innate IL-17-producer counterpart, γδT17 cells. We further investigated the role of FAS in γδT17 by comparing the effect of pharmacological ACC inhibitor Soraphen A (SorA) on DMSO vehicle under psoriatic conditions (IL-1b and IL-23) to provide insights for clinical implication.

Project description:To filter the up-regulated gene induced by miR-451a overexpression and in cetuximab resistant HNSCC cell. We employed whole genome microarray. The HNSCC cell CAL27 was used as a control sample. CAL27_CTX, the cetuximab resistant CAL27 was compared with CAL27. The miR-451a overexpressed CAL27_451a sample was compared with the CAL27_NC sample. CAL27_CTX and CAL27_451A samples were collected after 48h of cetuximab treatment. The microarray results were taken together with ChIRP-seq analysis and bioinformatics analysis for miR-451a binding and enhancer analysis to eventually find the nuclear acticating target of miR-451a

Project description:Distal cholangiocarcinoma (dCCA) is a biliary tract cancer with dismal prognosis and is often preceded by biliary intraepithelial neoplasia (BilIN) as a non-invasive precursor lesion. We found that miR-451a is downregulated in dCCA. Overexpression of mimic-451a in the CCA cell line SNU478 revealed multiple downregulated genes and potential miR-451a candidate targets.

Project description:scRNAseq of stromal cells isolated from mesenteric lymph nodes (MLN), peripheral lymph nodes (PLN) and mandibular lymph nodes (mandLN)

Project description:The efficacy of monoclonal antibodies against either interleukin (IL)-17 or the IL-17 receptor in psoriasis therapy provides strong evidence that IL-17 is the major inflammatory mediation in this disease. However, how IL-17 induces epidermal hyperplasia in psoriasis remains largely unknown. Here, we show that IL-17 actives NF-kB in keratinocytes and initiates the NF-kB-dependent transcription of microRNA-31 (miR-31), one of the most abundant microRNAs in the epidermis of lesional skin of psoriasis and two related mouse models. Similar to IL-17 deficiency (IL-17-/-), knocking out miR-31 (miR-31-/-) or targeting it by antagomir-31 prevents keratinocytes Ki67 expression and inhibits acanthosis and dermal inflammation in psoriasis mouse model. Moreover, PPP6c, a negative regulator restricting G0/G1 to G2/M phase progression in the cell cycle, is diminished in human psoriatic epidermis and is directly targeted by miR-31. Inhibition of ppp6c is functionally important for the biological effects of miR-31 in the development of epidermal hyperplasia. Thus, our data define IL-17-inducede miR-31 and its target ppp6c as critical factors for hyperproliferative epidermis in psoriasis.

Project description:Numerous CD11b+ myeloid cells are present within the dermis. They are very heterogeneous and can be divided in dermal DCs, tissue monocytes and tissue macrophages. At steady state, only CD11b+ DC migrate from the dermis to the skin draining lymph nodes whereas upon DNFB-induced inflammation, CD11b+ DC as well as dermal monocytes migrated to the lymph nodes. The objective of this study was to use gene expression profiling to rigorously identify the different subsets of dermal CD11b+ myeloid cells at steady state and upon inflammation and to characterize their functional potential. This study includes data from DC, monocytes and macrophages purified by flow cytometry sorting from the blood (monocytes only), dermis and the cutaneous lymph nodes (migDC and mig mono) of WT C57BL6 mice, under steady-state or upon DNFB-mediated inflammation. Three independent replicates were made for each cell type, from three independent pools of mice, and were hybridized on 3 separate batches of gene chips Affimetrix 1.0ST.