Project description:TOX is a nuclear factor essential for the development of CD4+ T cells in the thymus. TOX is found to be aberrantly up-regulated in the skin biopsies and in the blood CD4+ T cells of cutaneous T cell lymphoma. The goal of this study is to identify potential transcriptional targets of TOX in CTCL by comparison between TOX shRNA transfected CTCL cells (Hut78 and HH) and control CTCL cells. Two color experiment. Lentivirus transduced control vector vs. TOX shRNA vectors on Hut78 and HH cell lines. Biological replicates: 3 control replicates, 3 shRNA tansduced replicates for each cell line.

Project description:Bexarotene is a specific RXR agonist that has been used for the treatment of cutaneous T-cell lymphoma (CTCL). The mechanism of action is pleiotropic but impacts directly on CTCL cell proliferation, chemotaxis and apoptosis, and indirectly on lymphoma immunity. Bexarotene causes hypothyroidism in more than 90% of patients thus requiring the concomitant administration of levothyroxine. Hereon we investigated the consequence of levothyroxine administration to the antineoplastic effect of bexarotene in CTCL. We found that bexarotene induces transcriptional and biological changes in CTCL cells related to decreased cell proliferation and chemotaxis, as well as increased proliferation and interferon response. Although lack of levothyroxine supplementation during bexarotene treatment increased apoptosis and decreased cell proliferation of CTCL cells in vitro and in vivo, it also decreased the lymphoma immunity. Since levothyroxine activates both the ubiquitous TRA nuclear receptor and the more restricted integrin V3 membrane receptor that is overexpressed in CTCL cells, we investigated their role in bexarotene treatment. We demonstrated that genetic and pharmacologic inhibition of the integrin V3 receptors resulted in improved bexarotene-induced effects on apoptosis, cell proliferation and chemotaxis while maintaining the lymphoma immunity. Our results provide a mechanistic rationale for evaluating the addition of the integrin V3 inhibitor cilengitide to CTCL therapeutic regimens that are based on bexarotene and levothyroxine supplementation.

Project description:TOX is a nuclear factor essential for the development of CD4+ T cells in the thymus. TOX is found to be aberrantly up-regulated in the skin biopsies and in the blood CD4+ T cells of cutaneous T cell lymphoma. The goal of this study is to identify potential transcriptional targets of TOX in CTCL by comparison between TOX shRNA transfected CTCL cells (Hut78 and HH) and control CTCL cells.

Project description:Loss of Amylo-alpha-1-6-glucosidase-4-alpha-glucanotransferase (AGL) drives bladder cancer growth. Low AGL expression predicts poor patient outcome. Currently no specific therapeutically tractable targets/pathways exist that could be used to treat patients with low AGL expressing bladder tumors. To address this issue we carried out a transcriptome analysis in human bladder cancer cells with and without AGL expression to identify pro-tumorigenic pathways upregulated with AGL loss. We identified and validated that hyaluronic acid (HA) synthase 2 (HAS2) expression and subsequent HA synthesis is upregulated with AGL loss. We validated that HAS2 and consequent HA synthesis drive tumor growth and that genetic and pharmacologic inhibition of these respectively is a viable therapeutic option in xenograft models. We further established that bladder cancer patients with low AGL expression and high HAS2 expression have poor outcome. Together, this data provide preclinical evidence for personalized targeting of HAS2/HA signaling in patients with low AGL expressing tumors.

Project description:Gene expression values were determined for HuT78 parental cells and cells selected with romidpesin in the presence of P-glycoprotein inhibitors. HuT78 DpVp35 cells are maintained in 35 ng/ml romidepsin with 2.5 µg/ml verapamil and HuT78 DpP100 cells are maintained in 100 ng/ml romidepsin with 1 µM valspodar To identify molecular determinants of histone deacetylase inhibitor (HDI) resistance, we selected HuT78 cutaneous T-cell lymphoma (CTCL) cells with romidepsin in the presence of P-glycoprotein (Pgp) inhibitors to prevent transporter upregulation. Resistant sublines were 250- to 385-fold resistant to romidepsin and were resistant to apoptosis induced by apicidin, entinostat, panobinostat, belinostat and vorinostat. A custom Taqman array identified increased insulin receptor (INSR) gene expression; immunoblot analysis confirmed increased expression and a 4- to 8-fold increase in mitogen activated protein kinase (MAPK) kinase (MEK) phosphorylation in resistant cells compared to parental cells. Resistant cells were exquisitely sensitive to MEK inhibitors and apoptosis correlated with restoration of proapoptotic Bim. Romidepsin combined with MEK inhibitors yielded greater apoptosis in cells expressing mutant KRAS compared to romidepsin treatment alone. Gene expression analysis of samples obtained from patients with CTCL enrolled on the NCI1312 Phase II study of romidepsin in T-cell lymphoma suggested perturbation of the MAPK pathway by romidepsin. Immunohistochemical analysis of Bim expression demonstrated decreased expression in some skin biopsies at disease progression. These findings implicate increased activation of MEK and decreased Bim expression as a resistance mechanism to HDIs, supporting combination of romidepsin with MEK inhibitors in clinical trials. Gene expression in resistant lines was compared to parental lines

Project description:IKZF2 is an important nuclear matrix protein and plays a pivotal role in T cell development and differentiation, while its expression and function in Cutaneous T cell lymphoma (CTCL) remain ambiguous. Our study aimed to investigate the expression pattern, biological function of IKZF2 in a large clinical cohort. IKZF2 is specifically over-expressed in malignant T cells with MF tumor-stage. In order to explore the function of IKZF2 in the pathogenesis of CTCL, transcriptome sequencing was performed among Hut78 cells transfected with shRNAs targeting IKZF2 (shIKZF2) and scrambled shRNA(sh0) to investigate genes regulated by IKZF2 in CTCL cells .

Project description:Cutaneous T-cell lymphoma (CTCL) is defined by infiltration of activated and malignant T cells in the skin. The clinical manifestations and prognosis in CTCL are highly variable. In this study, we hypothesized that gene expression analysis in lesional skin biopsies can improve understanding of the disease and its management. Based on 63 skin samples, we performed consensus clustering, revealing 3 patient clusters. Of these, 2 clusters tended to differentiate limited CTCL (stages IA and IB) from more extensive CTCL (stages IB and III). Stage IB patients appeared in both clusters, but those in the limited CTCL cluster were more responsive to treatment than those in the more extensive CTCL cluster. The third cluster was enriched in lymphocyte activation genes and was associated with a high proportion of tumor (stage IIB) lesions. Survival analysis revealed significant differences in event-free survival between clusters, with poorest survival seen in the activated lymphocyte cluster. Using supervised analysis, we further characterized genes significantly associated with lower-stage/treatment-responsive CTCL versus higher-stage/treatment-resistant CTCL. We conclude that transcriptional profiling of CTCL skin lesions reveals clinically relevant signatures, correlating with differences in survival and response to treatment. Additional prospective long-term studies to validate and refine these findings appear warranted. kuppe-00390 Assay Type: Gene Expression Provider: Affymetrix Array Designs: U133AAofAv2 Organism: Homo sapiens (ncbitax) Tissue Sites: Skin Material Types: total RNA, synthetic_RNA, organism_part, whole_organism Disease States: Cutaneous T-cell lymphoma

Project description:Gene expression values were determined for HuT78 parental cells and cells selected with romidpesin in the presence of P-glycoprotein inhibitors. HuT78 DpVp35 cells are maintained in 35 ng/ml romidepsin with 2.5 µg/ml verapamil and HuT78 DpP100 cells are maintained in 100 ng/ml romidepsin with 1 µM valspodar To identify molecular determinants of histone deacetylase inhibitor (HDI) resistance, we selected HuT78 cutaneous T-cell lymphoma (CTCL) cells with romidepsin in the presence of P-glycoprotein (Pgp) inhibitors to prevent transporter upregulation. Resistant sublines were 250- to 385-fold resistant to romidepsin and were resistant to apoptosis induced by apicidin, entinostat, panobinostat, belinostat and vorinostat. A custom Taqman array identified increased insulin receptor (INSR) gene expression; immunoblot analysis confirmed increased expression and a 4- to 8-fold increase in mitogen activated protein kinase (MAPK) kinase (MEK) phosphorylation in resistant cells compared to parental cells. Resistant cells were exquisitely sensitive to MEK inhibitors and apoptosis correlated with restoration of proapoptotic Bim. Romidepsin combined with MEK inhibitors yielded greater apoptosis in cells expressing mutant KRAS compared to romidepsin treatment alone. Gene expression analysis of samples obtained from patients with CTCL enrolled on the NCI1312 Phase II study of romidepsin in T-cell lymphoma suggested perturbation of the MAPK pathway by romidepsin. Immunohistochemical analysis of Bim expression demonstrated decreased expression in some skin biopsies at disease progression. These findings implicate increased activation of MEK and decreased Bim expression as a resistance mechanism to HDIs, supporting combination of romidepsin with MEK inhibitors in clinical trials.

Project description:Analysis of hepatic stellate cells (HSCs) isoltaed from ASMA-HAS2 transgenic and HSC-specific Has2 knockout mice. HAS2 synthesized hyaluronic acid, one of major extracellular matrix. Results provide insight into the role of HAS2 in hepatic stellate cells.

Project description:Cutaneous T cell lymphoma (CTCL) is defined by infiltration of activated and malignant T cells in skin. The clinical manifestations and prognosis in CTCL are highly variable. In this study, we hypothesized that gene expression analysis in lesional skin biopsies can improve understanding of the disease and its management. Based on 63 skin samples, we performed consensus clustering, revealing three patient clusters. Two clusters tended to differentiate limited CTCL (stages IA and IB) from more extensive CTCL (stages IB and III). Stage IB subjects appeared in both clusters, but those in the limited CTCL cluster were more responsive to treatment than those in the more extensive CTCL cluster. The third cluster was enriched in lymphocyte activation genes and was associated with a high proportion of tumor (stage IIB) lesions. Survival analysis revealed significant differences in event-free survival between clusters, with poorest survival seen in the activated lymphocyte cluster. Using supervised analysis, we further characterized genes significantly associated with lower stage/treatment responsive versus higher stage/treatment resistant CTCL. We conclude that transcriptional profiling of CTCL skin lesions reveals clinically relevant signatures, correlating with differences in survival and response to treatment. Additional prospective long-term studies to validate and refine these findings appear warranted. Experiment Overall Design: 63 skin biopsies from patients with different stages of disease were selected for RNA extraction and hybridization on Affymetrix microarrays