Project description:Livers from wild-type (WT) or Ppara knock-out (Ppara KO) C57Bl6 mice were used to prepare RNA which was then processed for analysis using MoGene-2_0-st Affymetrix microarrays according to standard procedures.
Project description:Glut1 is highly expressed in basal cells of keratinocytes, but the functions and regulation of Glut1 has not been explored, here we specifically ablate Glut1 in epidermal keratinocytes to elucidate the role of glucose transport in the skin. We performed microarray analysis in WT and Glut1 deficient primary keratinocytes to determine the pathways might contribute to the impaired proliferation in Glut1 deficient keratinocytes,
Project description:Glut1 is highly expressed in basal cells of keratinocytes, but the regulation of Glut1 and expression of additional glucose transporters in the skin has not been explored, here we specifically ablate Glut1 in epidermal keratinocytes to elucidate the role of glucose transport in the keratinocytes. we performed microarray analysis in WT and Glut1 deficient primary keratinocytes to determine the pathways might contribute to the impaired proliferation in Glut1 deficient keratinocytes.
Project description:Mouse primary hepatocytes (MPH) prepared from C57Bl6 male adult mice were challenged with the FXR agonist GW4064 and used to prepare RNA which was then processed for analysis using MoGene-2_0-st Affymetrix microarrays according to standard procedures.
Project description:Comparative analysis of gene expression in cultured primary keratinocytes isolated from newborn control (K14-cre; GPx4fl/+) and knockout (K14-cre; GPx4fl/fl) mice. Selenoproteins are essential for skin function, as targeted abolition of selenoproteins in epidermal tissue results in newborn mice manifesting gross abnormalities of skin and hair, accompanied by retarded growth and premature death. To investigate whether lack of a single selenoprotein could induce similar phenotypic effect in mice, we generated keratinocyte-specific knockout mice lacking glutathione peroxidase 4 (GPx4), an essential selenoprotein in skin, to examine phenotypic changes resulting from the lack of GPx4 in skin. Ablation of GPx4 results in focal alopecia and disturbed hair follicle morphogenesis, with GPx4 being essential during early stages of hair follicle morphogenesis as well as for keratinocyte adhesion and proliferation in culture. We have generated mice with selective removal of the GPx4 gene in keratinocytes under the control of Keratin-14-cre (K14-cre) promoter. Comparative microarray analysis was performed on RNA samples taken from pooled primary keratinocytes from knockout and control mice from the same litter. Array replicates were performed using RNA samples from three different litters.
Project description:Tcl1 is known to be involved in survival, proliferation and differentiation of human lymphocytes and mouse embryonic stem cells. Loss of Tcl1 gene in the KO mouse model affects skin integrity inducing alopecia and ulcerations. The study used epidermal keratinocytes from wild type (WT), Tcl1 knock down (KO) and K14-driven TCL1 transgenic (TGKO) mouse models to investigate the role of Tcl1 gene in the skin homeostasis. Our data indicate that Tcl1 loss mainly induces a decrease in the gene expression of keratinocytes, which is largely rescued by K14-TCL1. GO analysis revealed Tcl1 to be involved in the proliferation and differentiation of mouse keratinocytes. Moreover, pathway analysis identifies growth factor and MAPK signaling to be highly implicated.
Project description:In this study, we used conditional knockout and gene expression approaches to understand global molecular and transciptional changes due to ablation of each integrin subunit. Affymetrix MoGene-2_0-st-v1 gene chip
Project description:Rac signaling affects numerous downstream targets; however, few studies have established in vivo levels using model animals. In the present study, wWe generated mice with a single knockout (KO) of Rac1 (Keratin5 (K5)-Cre;Rac1flox/flox, hereafter Rac1-KO) and double KO of Rac1 and Rac3 (K5-Cre;Rac1flox/flox;Rac3−/−, hereafter Rac1/Rac3-DKO) in keratinocytes. Hairless phenotype in Rac1-KO mice was markedly exacerbated in Rac1/Rac3-DKO mice. Notably, Rac1-KO mice also exhibited thinner dermal white adipose tissue, which was considerably further reduced in Rac1/Rac3-DKO mice. DNA microarray using primary keratinocytes from Rac1/Rac3-DKO mice exhibited decreased mRNA levels of Bmp2, Bmp5, Fgf20, Fgf21, Fgfbp1, and Pdgf-alpha. Combinational treatment with BMP2 and FGF21, BMP2 and FGF20, or PDGF and FGF21 in culture medium, but not individual purified recombinant proteins, could differentiate 3T3-L1 fibroblasts into adipocytes, as could culture media obtained from primary keratinocytes (both human and mouse). Conversely, addition of anti-BMP2 or anti-FGF21 antibodies into the culture medium inhibited fibroblast differentiation. Furthermore, combinational treatment with BMP2 and FGF21 promoted adipocyte differentiation only of rat primary white adipocyte precursors but not rat primary brown adipocyte precursors. Notably, brown adipogenesis by FGF21 was inhibited by BMP2. Thus, we here proposed a novel paracrine pathway from keratinocytes to intradermal pre-adipocytes using Rac1/Rac3-DKO mice, which is Rac-dependent and functions as an inducer of white adipocytes.