Project description:Organoid cultures derived from menstrual flow faithfully replicate secretory phase endometrial glands and provide a novel, non-invasive technique for the clinical assessment of endometrial function. Paired organoid cultures derived from scratch biopsies and ensuing menstrual flow share the same transcriptome signature, responses to early pregnancy hormones, and pathological changes in cases of early-pregnancy loss. The technique opens new avenues for investigating endometrial function in cases of subfertility and gynaecological disorders.

Project description:miniBacillus PG10 lacks ~36% of dispensible genentic material and has been derived from B. subtilis 168 (Reuß et al. 2017; PMID: 27965289). We performed RNA-seq analysis on mid-to-late exponential cultures and stationary phase cultures that were grown in LB medium. We specifically analyzed differential gene expression levels of lipid metabolic genes to compare to the lipidomic profiles of the two strains.

Project description:The aim of this study was to determine the effects of TGFβ at the premalignant stage of CRC development. Organoid cultures were isolated from normal colon and from tubular adenomas. One normal colon culture was genetically engineered using the CRISPR-Cas9 system to carry the BRAFV600E mutation.

Project description:Patient derived organoids (PDOs) have been established as a 3D culture model which closely recapitulates the in vivo tumor biology. However, one limitation of this culture model is the lack of tumor microenvironment which has a significant role in tumor progression and drug response. To address this, we established and molecularly characterized a novel 3D co-culture model of colorectal cancer (CRC) based on PDOs and patient matched fibroblasts. Both normal and cancer associated fibroblasts, NFs and CAFs respectively, were able to support organoid growth without addition of niche factors to the media. Additionally, co-cultures showed closer resemblance to primary patient material than organoid mono-cultures as evaluated by histology. Finally, RNA gene expression signatures of tumor cells and fibroblasts isolated from mono- or co-cultures demonstrated that co-cultures support greater cell type heterogeneity. In this proteomics dataset we compared pairs of NFs and CAFs derived from five patients. Collectively, we present a newly established human derived organoid-fibroblast model which, closely recapitulates in vivo tumor heterogeneity and involves the tumor microenvironment.

Project description:In this study, we define the epithelial-specific contribution of SMAD2/3 to endometrial function by conditionally ablating the Smad2 and Smad3 transcription factors using Lactoferrin-iCre (Ltf-cre). Using epithelial organoid cultures from the endometrium, we uncover the signaling mechanisms downstream of TGFβ that control endometrial cell regeneration and are critical for endometrial regeneration and homeostasis.

Project description:In this study, we define the epithelial-specific contribution of SMAD2/3 to endometrial function by conditionally ablating the Smad2 and Smad3 transcription factors using Lactoferrin-iCre (Ltf-cre). Using epithelial organoid cultures from the endometrium, we uncover the signaling mechanisms downstream of TGFβ that control endometrial cell regeneration and are critical for endometrial regeneration and homeostasis.

Project description:We established a novel EGFP reporter mouse line (named Tg(ETAR-EGFP)14Imeg), which enables the placode-derived inner ear sensory cell lineage to be visualized and monitored. At E10.5, EGFP expression was detected in the ventral and dorsomedial region of the otocyst. Using this reporter line and FACS-array technology, we performed gene expression profiling focused on the regional specificity of the otocyst. We sorted E10.5 otocyst epithelial cells of heterozygous mice into EGFP-positive and EGFP-negative cells for RNA extraction and hybridization on Affymetrix microarrays. We profiled the expression of the genes in FACS-enriched cell population and conducted transcriptome analysis.

Project description:To understand if the generation of xenograft and organoid models of breast cancer alters DNA methylation, we compared the genome-wide methylation profile of matching patient tumors, patient derived xenografts, and organoid cultures derived from xenografts.

Project description:Generation of long-term, genetically-stable organoid cultures of extra-embryonic fetal trophoblast cells from human early placentas. Methylation profiling of the human trophoblast organoids and early placenta tissue.

Project description:Kidney tumours are among the most common solid tumours in children, comprising several distinct subtypes differing in many aspects, including cell-of-origin, genetics, and pathology. Pre-clinical cell models capturing the disease heterogeneity are currently lacking. Here, we describe the first paediatric cancer organoid biobank. It contains tumour and matching normal kidney organoids from over 50 children with different subtypes of kidney cancer, including Wilms tumours, malignant rhabdoid tumours, renal cell carcinomas, and congenital mesoblastic nephromas. The malignant rhabdoid tumour organoids represent the first organoid model for tumours of non-epithelial origin. The tumour organoids retain key properties of native tumours, useful for revealing patient-specific drug vulnerabilities. We further demonstrate that organoid cultures derived from Wilms tumours consist of multiple different cell types, including epithelial, stromal and blastemal-like. Our organoid biobank captures the cellular heterogeneity of paediatric kidney tumours, providing a representative collection of well-characterized models for basic cancer research, drug-screening, and personalized medicine.