Project description:Rapamycin treatment of AKT induced salivary gland tumors Normal tissue (parotid and submandibular), untreated tumor tissue, and tumor tissue treated for 3/14 days
Project description:Tumors of the major and minor salivary gland encompass a diverse spectrum of diagnostically challenging neoplasms. Recent studies have identified several gene fusions and somatic mutations that are specific or highly enriched in certain salivary gland tumor entities and can assist histopathological diagnosis. Still, there is an unmet need to identify additional diagnostic biomarkers for entities lacking specific alterations. In this study, we collected a comprehensive cohort of 363 cases encompassing 20 different salivary gland tumor entities and explored the potential of DNA methylation to classify these tumors. We were able to show that most entities show specific epigenetic signatures and present a machine learning algorithm that can be used to classify diagnostically challenging cases.
Project description:Ionizing radiation (IR) – induced salivary gland damage is a common adverse effect in radiotherapy for patients with head and neck cancers. Currently, there is no effective treatment for the resulting salivary gland hypofunction and xerostomia (dry mouth). Here we profiled the acute gene expression change in the mouse submandibular salivary gland, and defined its damage response patterns at the transcriptome level.
Project description:Salivary glands that produce and secret saliva, which is essential for lubrication, digestion, immunity, and oral homeostasis, consist of diverse cells. The long-term maintenance of diverse salivary gland cells in organoids remains problematic. Here, we established long-term murine salivary gland organoids from 3 major salivary glands, including parotid gland (PG), submandibular gland (SMG), and sublingual gland (SLG). Murine salivary gland organoids expressed gland-specific genes and proteins of acinar, myoepithelial, and duct cells. Organoids were maintained in growth media (named GEM) and further underwent differentiation in differentiation media (named DAM). Our study will provide an experimental platform for the exploration of mechanisms involvled in tissue regeneration, development, or several salivary gland diseases.
Project description:Salivary gland hypofunction is a common adverse effect during and after radiotherapy of head and neck cancers, resulting in the dry mouth syndrome called xerostomia. Previous studies suggested that the functionality of the salivary gland is under the regulation of the circadian clock, however, the extent and scope of this regulation remains unexplored. Here, we profiled the diurnal fluctuation of gene expression in the mouse submandibular salivary gland. We further analyzed the regulatory role of key circadian transcription factors Bmal1, Nr1d1 (Rev-erba), and Dbp, which revealed a wide range of potential down-stream target genes. The circadian clock was disrupted upon irradiation, as revealed by gene expression analysis. We propose that the mechanism of salivary gland hypofunction in radiotherapy involves perturbation of the circadian clock.
Project description:We established patient-derived organoids and monolayer culture cells from the salivary gland cancer cases. To compare the RNA profiles of primary culture cells (Organoids and monolayer culture cells) and their parental tumors, we isolated total RNA from 2 cases of the salivary gland cancer and performed transcriptome sequencing for the organoids, monolayer culture cells, and their parental tumors of both cases. Case 6 is a case of adenoid cystic carcinoma and Case 11 is a case of salivary duct carcinoma.
Project description:To compare mouse saliva and induced salivary gland from PSCs (iSG) secreted protein profiles, those samples were digested by Lys-C and trypsin and then analyzed by data-dependent acquisition (DDA) and sequential window acquisition of all theoretical mass spectra (SWATH) using TripleTOF 5600+ mass spectrometer coupled with nanoLC.
Project description:Loss of Irf6 leads to disruption of branching morphogenesis and secretory acnii formation in salivary gland. To determine the differentially expressed genes in Irf6 mutant, embryonic salivary gland tissues were extracted at E14.5.
Project description:Salivary glands that produce and secret saliva, which is essential for lubrication, digestion, immunity, and oral homeostasis, consist of diverse cells. Maintenance of diverse salivary gland cells in organoids remains problematic. Here, we established human salivary gland organoids, which is composed of multiple cellular subsets, from 3 major salivary glands, including parotid gland (PG), submandibular gland (SMG), and sublingual gland (SLG). Human salivary gland organoids expressed gland-specific genes and proteins of acinar, myoepithelial, and duct cells. Organoids were maintained in growth media (named GEM) and further underwent differentiation in differentiation media (named DAM). Our study will provide an experimental platform for the exploration of mechanisms involvled in tissue regeneration, development, or several salivary gland diseases.