Project description:This study profiles single-cell transcriptomes derived from human periodontal granulation tissue collected during routine periodontal surgery at Guy’s Hospital, King’s College London. Tissue was harvested following step 1 and step 2 periodontal treatment. Following dissociation and quality control, libraries were prepared using the 10x Genomics Chromium Single Cell 3’ kit and sequenced on an Nextseq 2000. The study aimed to elucidate cellular heterogeneity in periodontal lesions in otherwise healthy individuals.

Project description:Metagenome and scRNA-seq of Periodontal granulation tissue

Project description:Single-Cell Transcriptomic Analysis of Periodontal Granulation Tissue from Surgical Patients

Project description:<p>This study integrated transcriptomics and metabolomics to analyse the molecular differences in the skin tissues of perennial long wool type (PT-LCG) and seasonal long wool type (ST-LCG) Liaoning cashmere goats to reveal the regulatory mechanisms underlying their differences in cashmere production. Histological observations showed no significant differences in the secondary hair follicle structure between the two types, but PT-LCG exhibited higher hair follicle activity during the catagen phase. Metabolomics analysis identified 92 differentially expressed metabolites (67 up-regulated and 25 down-regulated), primarily enriched in lipid metabolism, amino acid metabolism and energy metabolism pathways. The up-regulation of 3-hydroxypropionic acid and long-chain fatty acids may promote hair follicle growth through energy supply and membrane synthesis. Transcriptomic analysis revealed 145 differentially expressed genes (28 up-regulated and 117 down-regulated), significantly enriched in lipid metabolism, extracellular matrix (ECM), and inflammation-related pathways such as the PPAR and IL-17 signalling pathway. Multi-omics association analysis uncovered a synergistic regulatory network of ‘metabolite-receptor-gene’, indicating that lipid metabolism, energy supply and ECM remodelling are key factors in maintaining hair follicle activity in PT-LCG. This study provides potential targets for molecular breeding of cashmere goats and offers new insights into the regulatory mechanisms of mammalian hair follicle cycles.</p>

Project description:Proteinases play a pivotal role in wound healing by degrading molecular barriers, regulating cell-matrix interactions and availability of bioactive molecules. Matrix metalloproteinase-13 (MMP-13, collagenase-3) is a wide spectrum proteinase. Its expression and function is linked to the growth and invasion of many epithelial cancers such as squamous cell carcinoma. Moreover, the physiologic expression of MMP-13 is associated e.g. to scarless healing of human fetal skin and adult gingival wounds. While MMP-13 is not found in the normally healing skin wounds in human adults, it is expressed in mouse skin during wound healing. Thus, mouse wound healing models can be utilized for studying the role of MMP-13 in the events of wound healing. As the processes such as the migration and proliferation of keratinocytes, angiogenesis, inflammation and activation of fibroblasts are components of wound repair as well as of cancer, many results received from wound healing studies are also adaptable to cancer research. Classically, the process of wound healing can be devided into three phases which are histologically and functionally separate but temporally overlapping: 1) hemostasis and inflammation, 2) re-epithelialization and granulation tissue formation, and 3) matrix remodeling. Granulation tissue is formed into the wound via fibroplasia, angiogenesis and extracellular matrix (ECM) deposition by fibroblasts. Granulation tissue is rich in inflammatory cells, fibroblasts, myofibroblasts and blood vessels. After epidermal recovery, the granulation tissue is resolved via matrix remodeling and cell apoptosis. A sterile viscose cellulose sponge (VCS) characterized by defined size and structure can be used to experimentally induce formation of subcutaneous granulation tissue. Compared to normal granulation tissue, this model allows easy examination of the granulation tissue in its entirety but leaving out epidermal keratinocytes in the sample preparation. In this study, we studied the role of MMP-13 in the formation of mouse VCS-induced granulation tissue. We performed gene expression profiling of the granulation tissue samples of Mmp13-/- (KO) and wild type (WT) mice harvested at day 7, day 14 and day 21 after VCS implantation. Mmp13-/- (KO) mice were generated as described (Inada et al. 2004, PNAS, 101: 17192-17197) and used in these experiments after backcrossing at least seven generations into C57BL6 mice. The WT mice were generated from the backcrossed heterozygote Mmp13-/- (KO) mice. Granulation tissues were harvested at three time points (7d, 14d, 21d) from Mmp13-/- (KO) and WT mice. One sample of each mouse was analyzed (n=3, 7d; n=4, 14d; n=4, 21d; for each genotype). The samples were processed for RNA extraction and Affymetrix 3'IVT DNA microarray gene expression analysis.

Project description:Among dozens of microbial DNA modifications regulating gene expression and host defense, phosphorothioation (PT) is the only known backbone modification, with sulfur inserted at a non-bridging oxygen by dnd and ssp gene families. Here we explored the distribution of PT genes in 13,663 human gut microbiome genomes, finding that 6.3% possessed dnd or ssp genes predominantly in Bacillota, Bacteroidota, and Pseudomonadota. This analysis uncovered several putative new PT synthesis systems, including Type 4 Bacteriophage Exclusion (BREX) brx genes, which were genetically validated in Bacteroides salyersiae. Mass spectrometric analysis of DNA from 226 gut microbiome isolates possessing dnd, ssp, and brx genes revealed 8 PT dinucleotide settings confirmed in 6 consensus sequences by PT-specific DNA sequencing. Genomic analysis showed PT enrichment in rRNA genes and depletion at gene boundaries. These results illustrate the power of the microbiome for discovering prokaryotic epigenetics and the widespread distribution of oxidation-sensitive PTs in gut microbes.

Project description:Subcutaneous implantation of cellulose sponges has been used for decades to induce vital granulation tissue formation. Illumina microarray was done in order to study the early gene expression in the granulation tissue formation.

Project description:Proteinases play a pivotal role in wound healing by degrading molecular barriers, regulating cell-matrix interactions and availability of bioactive molecules. Matrix metalloproteinase-13 (MMP-13, collagenase-3) is a wide spectrum proteinase. Its expression and function is linked to the growth and invasion of many epithelial cancers such as squamous cell carcinoma. Moreover, the physiologic expression of MMP-13 is associated e.g. to scarless healing of human fetal skin and adult gingival wounds. While MMP-13 is not found in the normally healing skin wounds in human adults, it is expressed in mouse skin during wound healing. Thus, mouse wound healing models can be utilized for studying the role of MMP-13 in the events of wound healing. As the processes such as the migration and proliferation of keratinocytes, angiogenesis, inflammation and activation of fibroblasts are components of wound repair as well as of cancer, many results received from wound healing studies are also adaptable to cancer research. Classically, the process of wound healing can be devided into three phases which are histologically and functionally separate but temporally overlapping: 1) hemostasis and inflammation, 2) re-epithelialization and granulation tissue formation, and 3) matrix remodeling. Granulation tissue is formed into the wound via fibroplasia, angiogenesis and extracellular matrix (ECM) deposition by fibroblasts. Granulation tissue is rich in inflammatory cells, fibroblasts, myofibroblasts and blood vessels. After epidermal recovery, the granulation tissue is resolved via matrix remodeling and cell apoptosis. A sterile viscose cellulose sponge (VCS) characterized by defined size and structure can be used to experimentally induce formation of subcutaneous granulation tissue. Compared to normal granulation tissue, this model allows easy examination of the granulation tissue in its entirety but leaving out epidermal keratinocytes in the sample preparation. In this study, we studied the role of MMP-13 in the formation of mouse VCS-induced granulation tissue. We performed gene expression profiling of the granulation tissue samples of Mmp13-/- (KO) and wild type (WT) mice harvested at day 7, day 14 and day 21 after VCS implantation.

Project description:Affymetrix GeneChip Human Gene 1.0 ST Array was applied to compare the expression profiles in peripheral blood mononuclear cells(PBMC) between healthy controls and multiple sclerosis patients(MS pt). It suggested that certain genes involved in apoptosis pathway have been changed regulated in PBMC from MS pt.

Project description:Subcutaneous implantation of cellulose sponges has been used for decades to induce vital granulation tissue formation. Illumina microarray was done in order to study the early gene expression in the granulation tissue formation. A total of six samples from six different rats was analyzed. Three samples were collected after 24 hours of implantation and three after 72 hours of implantation.