Project description:The expression of Glis3 in C3H10T1/2 cells promotes osteoblastic differentiation as indicated by the the induction of increase in alkaline phosphatase activity, an early marker of osteoblast differentiation, and increased expression of osteopontin, a late marker of osteogenesis. Glis3 acts synergistically with bone morphogenic protein 2 (BMP-2). In contrast, expression of Glis3 inhibits the induction of adipocyte differentiation. Microarray analysis identified the fibroblast growth factor 18 (FGF18) as one of the genes induced by Glis3 in C3H10T1/2 cells directly. Keywords: Glis3, osteoblast differentiation, adipocyte differentiation, FGF18, BMP2

Project description:GLIS3

Project description:We show that Glis3 is expressed in gonocytes, SSCs and SPCs, but not in differentiated spermatogonia or subsequent stages of spermatogenesis nor in Sertoli or Leydig cells. We further demonstrate that Glis3-deficiency causes a severe impairment in spermatogenesis in mice. Although the number of gonocytes was slightly diminished in Glis3KO testis, the number undifferentiated, PLZF+ spermatogonia was dramatically reduced leading to a virtual block in the progression of spermatogenesis. Gene expression profiling showed that the expression of a number of genes associated with self-renewal and differentiation of spermatogonial cells was significantly decreased in 1-week-old Glis3KO2 testis. These included a set of GDNF-dependent genes, such as Etv5, Bcl6b, Lhx1, Brachyury, Id4, and Pou3f1, and GDNF-independent genes, such as FoxO1, Oct4, and Zbtb16. Impairment of the nuclear localization of FoxO1 may be in part responsible for the reduced expression of Ret, Lhx1, and Sall4 in Glis3KO2 testis. Our study identifies Glis3 as a novel and critical regulator of early stages of spermatogenesis. Thy1+ cells were isolated from 3 WT and 3 Glis3KO2 testis at postnatal day 4, and total RNAs were purified from them. Then the samples were applied to Agilent mouse genome chip.

Project description:We show that Glis3 is expressed in gonocytes, SSCs and SPCs, but not in differentiated spermatogonia or subsequent stages of spermatogenesis nor in Sertoli or Leydig cells. We further demonstrate that Glis3-deficiency causes a severe impairment in spermatogenesis in mice. Although the number of gonocytes was slightly diminished in Glis3KO testis, the number undifferentiated, PLZF+ spermatogonia was dramatically reduced leading to a virtual block in the progression of spermatogenesis. Gene expression profiling showed that the expression of a number of genes associated with self-renewal and differentiation of spermatogonial cells was significantly decreased in 1-week-old Glis3KO2 testis. These included a set of GDNF-dependent genes, such as Etv5, Bcl6b, Lhx1, Brachyury, Id4, and Pou3f1, and GDNF-independent genes, such as FoxO1, Oct4, and Zbtb16. Impairment of the nuclear localization of FoxO1 may be in part responsible for the reduced expression of Ret, Lhx1, and Sall4 in Glis3KO2 testis. Our study identifies Glis3 as a novel and critical regulator of early stages of spermatogenesis. Testis total RNAs were purified from 4 WT and 4 Glis3KO2 at 1 week old age, and 3WT and 3 Glis3KO2 at 3 week-old age. Then the samples were applied to Agilent mouse genome chip.

Project description:Glis3 is expressed in pancreatic beta and PP cells. To identify down stream target genes of Glis3, we performed microarray analysis using pancreas total RNAs from 1 week-old WT and Glis3KO2 mice. insulin and pancreatic polypeptide (Ppy) was significantly decreased together with several other β cell markers, Glut2 and MafA by microarray analysis. Immunohistochemistry, QRT-PCR, and transmission electron microscopy indicated that postnatal Glis3KO2 pancreas still contains a large population of β cells that express Pdx-1, Nkx6.1, and Isl-1; however, insulin production and secretory granules were greatly reduced in these cells. In addition, chromogranin A (ChgA) and Urocortin 3, which are associated with mature β cells, was dramatically decreased in Glis3KO2 pancreas. These observations suggest that Glis3 plays a critical role in the maturation of pancreatic β cell phenotype. Pancreatic total RNAs were purified from 4 WT and 4 Glis3KO2 at 1 week old age. Then the samples were applied to Agilent mouse genome chip.

Project description:determine genes regulated by dexamethasone in c3h10t1/2 cells after 90 minutes of treatment compared to vehicle Keywords: treatment comparison microarray c3h10t1/2 cells were treated with vehicle or 1uM dexamethasone for 90 minutes (3 biological replicates of each) RNA samples were isolated from RNeasy kit (Qiagen) hybridized all samples to a pool of RNA from vehicle and treated c3h10t1/2 cells

Project description:Analysis of C3H10T1/2 cells overexpressing Mkx. This microarray results show that Mkx has the potential ability to promote differentiation to tendon, ligament and annulus fibrosus cells.

Project description:Loss of transcription factor GLIS3 function in humans and mice leads to the development of neonatal polycystic kidney disease (PKD). To investigate how loss of GLIS3 function in kidney affects postnatal kidney development and PKD, we analyzed the gene expression profiles of kidneys from WT and Glis3-null mice at P7, P14, and P28 by RNA-Seq analysis using Glis3 global KO model Glis3-mCherry and kidney specific knockout model Glis3-PAX8Cre.

Project description:The goals of this study are to utilize high-throughput transcriptome sequencing of mutant and control fetal testis samples to identify changes in both transcript and repeat element abundance in tissues harboring a homozygous mutation for Glis3. 672 unique genes were differentially expressed in mutant versus wild-type samples. Of the downregulated genes, there was a strong enrichment for piRNA pathway members, while upregulated genes were associated with leydig cell differentiation, meiosis, and histone cluster genes. Differential expression of several repeat elements was also detected in mutant samples. Our findings provide valuable information on the potential mechanisms underlying the fetal germ cell loss observed in Glis3 mutant testes. Whole testis mRNA profiles of embryonic day 14.5 wild type (WT) and Glis3 mutant mice were generated by deep sequencing, using Illumina HiSeq2500

Project description:The serum hormone levels including T3 and T4 were dramatically decreased in Glis3-null mice due to reduced production of thyroid hormones in thyroid. Gene expression profile and EdU incorporation analysis between WT and Glis3-null mice showed that the cell proliferation was greatly reduced in Glis3-null thyroid. Goitergenic diet (low iodine diet; LID) dramatically enhanced serum TSH levels in both WT and Glis3-null mice, however thyroid goiter was observed in WT mice but not in Glis3-null mice. A subset of genes associated with thyroid hormone production including Pendrin (Slc26a4), Nis (Na+/I– symporter, Slc5a5), Duoxa2 (dualoxidase A2), Tpo (thyroperoxidase), and Dio1 (Deiodinase1) was significantly induced in WT but not in Glis3-null mice by LID feeding.