Project description:We have identified proliferative cells in adipose tissue expressing adipocyte specific genes, which were named small proliferative adipocytes (SPA). Comparison of gene expression among stromal vascular cells (SVC), SPA and mature adipocyte (MA) revealed that adipocyte specific genes and several neuronal genes were increased in the order of SVC < SPA < MWA. However, proliferin 2 (PLF) was detected only in SPA. We found that SPA changed to lipid laden cells by incubation with differentiation medium containing insulin/dexamethasone/IBMX. In this study, we investigated the gene expression of differentiated SPA (SPAD) comparing with differentiated SVC (SVCD). Microarrays and real time PCR revealed that uncoupling protein 1 (UCP1) and PLF were strongly expressed in D-SPA. These data suggested that SPA might be able to differentiate into beige cells.

Project description:Comparison of Gene Expression between stromal vascular cells (SVC) and newly identified adipose precursor (SPA)

Project description:ATAC-seq in precursor and differentiated ER-Hoxb8 cells 

Project description:ATAC-seq in precursor and differentiated ER-Hoxb8 cells

Project description:We have identified proliferative cells in adipose tissue expressing adipocyte specific genes, which were named small proliferative adipocytes (SPA). Comparison of gene expression by microarray and real time PCR among stromal vascular cells (SVC), SPA and mature adipocyte (MA) revealed that adipocyte specific genes and several neuronal genes were increased in the order of SVC < SPA < MWA. However, proliferin 2 (PLF) was detected only in SPA. We found that SPA changed to lipid laden cells by incubation with differentiation medium containing insulin/dexamethasone/IBMX. In this study, we investigated the gene expression of differentiated SPA (D-SPA) comparing with differentiated SVC (D-SVC). Further study using microarrays and real time PCR revealed that uncoupling protein 1 (UCP1) and PLF were strongly expressed in D-SPA. These data suggested that SPA might be able to differentiate into beige cells.

Project description:Early adipogenesis is regulated through the newly identified FHL2-NFAT5 signaling complex

Project description:Newly identified ZNHIT3 variants, which cause intrauterine fetal loss, disrupt snoRNP assembly

Project description:Newly identified Aspergillus nidulans PKA targets play a role in carbon-catabolite repression

Project description:Distinct responses of newly identified monocyte subsets to advanced gastrointestinal cancer and COVID-19

Project description:Squamous cell carcinoma of the external auditory canal (EACSCC) is an extraordinarily rare and aggressive malignant disease. Establishment of EACSCC cell line with robust molecular characteristics is essential for the basic and translational research of EACSCC. In this study, we showed the newly established EACSCC cell line SCEACono2, derived from a patient with well-to-moderately differentiated EACSCC. To elucidate the transctomic features of SCEACono2, we performed RNA-seq and revealed its unique characteristics and compared with publicly available head and neck squamous cell caricnoma (HNSCC)-derived cell lines HSC4 and SCC9.