Project description:Trehalose is the nonreducing disaccharide of glucose, evolutionarily conserved in invertebrates. The living skin equivalent (LSE) is an organotypic coculture containing keratinocytes cultivated on fibroblast-populated dermal substitutes. We demonstrated that human primary fibroblasts treated with highly concentrated trehalose promote significantly extensive spread of the epidermal layer of LSE without any deleterious effects. The RNA-seq analysis of trehalose-treated 2D and 3D fibroblasts at early time points revealed the involvement of the CDKN1A pathway, the knockdown of which significantly suppressed the upregulation of DPT, ANGPT2, VEGFA, EREG, and FGF2. The trehalose-treated fibroblasts were positive for senescence-associated β-galactosidase. Finally, transplantation of the dermal substitute with trehalose-treated fibroblasts accelerated wound closure and increased capillary formation significantly in the experimental mouse wounds in vivo, which was canceled by the CDKN1A knockdown. These data indicate that high-concentration trehalose can induce the senescence-like state in fibroblasts via CDKN1A/p21, which may be therapeutically useful for optimal wound repair.

Project description:Cancer associated fibroblasts characterized by an myofibroblastic phenotype play a major role in the tumour microenvironment, being associated with poor prognosis. We found that this cell population is made in part by senescent fibroblasts in vivo. As senescent fibroblasts and myofibroblasts have been shown to share similar tumour promoting functions in vitro we compared the transcriptosomes of these two fibroblast types and performed RNA-seq of human foetal foreskin fibroblasts 2 (HFFF2) treated with 2ng/ml TGF-beta-1 to induce myofibroblast differentiation or 10Gy gamma irradiation to induce senescence. We isolated RNA 7 days upon this treatments changing the medium 3 days before the RNA extraction. A series of SAM alignment files (named after the sample names, for simplicity) are available under http://www.ebi.ac.uk/arrayexpress/experiments/E-MTAB-3101/files/ .

Project description:Background: Skin homeostasis is mediated by dermal fibroblasts and is affected by aging. Although age-related heterogeneity in fibroblasts has been reported, the effects of donor and species on this heterogeneity are unclear. Methods: To analyze age-related transcriptomic changes in human dermal fibroblasts, single-cell RNA sequencing was performed on dermal fibroblasts (ASF-4 cells) collected from the inner forearm of a volunteer over three decades. Results: Four main cell subpopulations changed with donor age and showed proliferative, homeostasis, fibrotic, and senescence functional annotations. The downregulation of the expression of genes encoding key extracellular matrix production and mechanotransduction components decreased with donor age. Interestingly, dermal fibroblasts have two putative differentiation pathways: one that involves the acquisition of senescent properties and the acquisition of fibrotic properties without the suppression of proliferation. Aging induced fibroblast differentiation in a manner involving the acquisition of senescent properties. Conclusion:Reconciling the various aspects of fibroblast heterogeneity may provide insight into the mechanisms underlying human skin aging and associated phenomena, including wrinkles, sagging, delayed wound healing, and suppressed scar formation.

Project description:In cell senescence, cultured cells cease proliferating and acquire aberrant gene expression patterns. MicroRNAs (miRNAs) modulate gene expression through translational repression or mRNA degradation, and have been implicated in senescence. We have used deep sequencing to carry out a comprehensive survey of miRNA expression and its involvement in cell senescence. Informatic analysis of small RNA sequence datasets from young and senescent IMR90 human fibroblasts identifies many known miRNAs, and a small number of novel miRNAs, that are regulated (either up or down) with cell senescence. Comparison with mRNA expression profiles revealed potential mRNA targets of the senescence-regulated miRNAs. The target mRNAs are enriched for genes involved in biological processes associated with cell senescence. This result greatly extends existing information on the role of miRNAs in cell senescence, and is consistent with miRNAs having a causal role in the process. Comprehensive survey of miRNA from young and senescent IMR90 fibroblasts using deep sequencing

Project description:To determine changes in gene expression in primary fibroblasts undergoing replicative senescence, a direct comparison between early passage proliferating cells and senescent cells was performed. Frozen stocks of the primary fibroblasts (HMF3) from which the lines HMF3A and HMF3Dwt were derived (O'Hare, PNAS:98, 2001) were serially passaged twice through to senescence to yield 2 independent sets of RNA. A third set of RNA was from a different female donor (F1068). The three different sets of RNA were put on 4 arrays each. Data is also provided for F1068 fibroblasts at late passage. Keywords = fibroblast Keywords = senescence Keywords = breast

Project description:To investigate the contribution of fibroblast-derived extracellular matrices (ECMs) to the resistance to targeted therapies in BRAF-mutated melanoma cells, we generated native-like 3D ECMs from human primary fibroblasts obtained from healthy individuals or melanoma patients. Cell-derived matrices from human dermal fibroblasts (HDF), skin melanoma associated fibroblasts (MAF) and two different lymph node fibroblast reticular cells (FRC) were denuded of cells and their composition was analyzed by mass spectrometry.

Project description:cardiac fibroblasts in 2D, 3D or 3D-2D or 3D-2D-3D , 2D-5days, 3D-5 days or cardiac fibroblasts grown in different stiffness of 0.5, 8 and 64 lkPA were harvested for gene expression analysis or chromatin changes analysis.

Project description:Lung cancer is a fatal complication of idiopathic pulmonary fibrosis (IPF) with a poor prognosis. Current treatments are insufficient in improving the prognosis of lung cancer patients with comorbid idiopathic pulmonary fibrosis (IPF-LC). Senescent fibroblasts play a pivotal role within the tumor microenvironment, influencing tumor progression by secreted exosomes. With evidence that fibroblast senescence is an important mechanism of IPF, we sought to investigate the impact of senescent IPF lung fibroblast-derived exosomes on non-small cell lung cancer (NSCLC). Our results show that IPF fibroblasts (diseased human lung fibroblasts, DHLF) express significant senescence markers, promoting NSCLC proliferation, invasion, and epithelial-mesenchymal transition. Specifically, we observed senescent DHLFs secret more exosomes (DHLF-exosomes), which could enhance proliferation and colony-forming ability of cancer cells. Proteomic analysis of DHLF-exosomes identified upregulation of SASP factors, notably MMP1, which activates the surface receptor PAR1. Knocking down MMP1 or using PAR1 inhibitors reduced the tumor-promoting effects of DHLF-exosomes in vivo and in vitro. Mechanistically, MMP1 acted via activating the PI3K-AKT-mTOR pathway. In conclusion, our results suggest that exosomal MMP1 derived from senescent IPF fibroblasts promotes NSCLC proliferation and colony formation by targeting PAR1 and activating the PI3K-AKT-mTOR pathway. These findings provide a novel therapeutic approach for patients with IPF-LC.

Project description:Fibroblasts are the main producers of extracellular matrix (ECM) responsible for ECM maintenance and repair, a process often disrupted in chronic lung diseases. The accompanying mechanical changes adversely affect resident cells and overall lung function. Numerous models have been used to elucidate fibroblast behavior which are now evolving towards complex 3D models incorporating ECM, aiming to replicate the cells’ native environment. Little is known about the cellular changes that occur when moving from 2D to 3D cell culture. This study compared gene expression profiles of primary human lung fibroblasts from 7 subjects with normal lung function, cultured for 24 hours on 2D collagen I-coated tissue culture plastic and in 3D collagen I hydrogels, which are commonly used to mimic ECM in various models, from contraction assays to organ-on-a-chip models. Comparing 3D to 2D cell culture, 6,771 differentially expressed genes (2,896 up, 3,875 down) were found; enriched gene sets within the downregulated genes, identified through Gene Set Enrichment Analysis and Ingenuity pathway analysis, were involved in the initiation of DNA replication which implied downregulation of fibroblast proliferation in 3D. Observation of cells for 72 hours in 2D and 3D environments confirmed the reduced progression through the cell cycle in 3D. A focused analysis examining the Hippo pathway and ECM-associated genes, showed differential patterns of gene expression in the 3D versus 2D culture. Altogether, the transcriptional response of fibroblasts cultured in 3D indicated inhibition of proliferation, and alterations in Hippo and ECM pathways indicating a complete switch from proliferation to ECM remodeling.

Project description:Cellular senescence can be transmitted to neighbouring cells in a paracrine manner through different mechanisms, including soluble factors released by senescent cells. To understand the dynamic regulation of paracrine senescence, here we investigated gene expression profiles in normal human fibroblasts (IMR90) exposed to conditioned medium generated by an inducible model of fibroblast Oncogene-Induced Senescence (IMR90-ER:RAS) at different time points after induction of senescence.