Project description:In rainbow trout, type A spermatogonia can be split into SP cells and non-SP cells by the ability to exclude Hoechst 33342 dye (H33342). The H33342 fluorescence of SP cells are lower than that of non-SP cells, after H33342 staining. To investigate whether SP cells were transcriptomically distinct from non-SP cells, we compared the transcriptome of these cells. We used fluorescence-activated cell sorting (FACS) to isolate SP cells and non-SP cells from the type A spermatogonia in rainbow trout.
Project description:Interventions: control group:Case-based learning (CBL) teaching based on traditional standardized patient (SP);experimental group:Case-based learning (CBL) teaching based on AI standardized patient (SP)
Primary outcome(s): Theoretical test results
Study Design: Parallel
Project description:Using Affymetrix GeneChips, we analyzed expression profiles of SP cells from EOM and TA. 348 differentially expressed transcripts defined the EOM-SP transcriptome: 229 upregulated in EOM-SP and 119 in TA-SP. Keywords: Expression Profiling
Project description:We are currently studying the mechanisms that confer tumour initiating potential upon SP, and as part of this work, we undertook gene profiling studies comparing expression between SP and non-SP cells, initially focusing on the most common soft tissue sarcoma, malignant fibrous histiocytoma (or MFH) Sarcomas contain a subpopulation of cells which exclude Hoechst dye (SP cells) and are enriched for tumor initiating potential. The persistence of SP cells could be responsible for relapse or a failed response to therapy. Expression profiles were compared between the SP and non-SP cells from malignant fibrous histiocytoma (MFH) tumors using microarray. The Hedgehog and Notch pathways were activated in SP cells. Blocking these pathways in MFH xenografts established in NOD-SCID mice depleted the abundance of SP cells and reduced tumor growth. Intriguingly, treatment also substantially inhibited the potential for successful secondary transplantation. The data provides support that SP cells act as tumor initiating cells in sarcomas and suggests targeting the SP as an enticing approach for sarcoma therapy.
Project description:To further compare gene expression profile between breast cancer stem cells (SP cells) and non-SP cells, we have employed illumina GEX microarray as a discovery platform to identify gene differential expression between SP with non-SP cells.
