Project description:Sarcomas and leukemias that are characterized by FET (FUS, EWSR1, TAF15) fusion oncogenes consist of more than 20 entities. Myxoid liposarcoma, one of the most common FET sarcoma types, is defined by the FUS-DDIT3 or the less common EWSR1-DDIT3 fusion oncogene. Previously, JAK-STAT signaling have been connected to cancer stem cell properties and chemotherapy resistance in myxoid liposarcoma, but the role of FUS-DDIT3 is not known. Therefore, we treated HT1080 fibrosarcoma cells expression FUS-DDIT3 with JAK1/2 inhibitor ruxolitinib and performed RNA sequencing of treated and control cells. Additionally, we analyzed native HT1080 cells to be able to compare the induced gene expression changes due to FUS-DDIT3 expression with those induced by JAK-STAT pathway inhibition.

Project description:JAK/STAT pathway plays important roles in controlling Drosophila intestinal homeostasis and regulating the ISC proliferation and differentiation. However,the downstream targets of its transcription factor-STAT92E remain largely unknown.To further identify the regualtory mechanisms of the JAK/STAT pathway in controlling intestinal homeostasis,we performed the ChIP-Seq assay with mouse raised STAT92E antibody using JAK/STAT signaling highly activated adult intestines.Through the ChIP assay, we have identified over 1000 significant peaks (p<0.01) around the putative targets.The well-characterized JAK/STAT downstream targets including Domeless,Socs36E,STAT92E and chinmo were identified in our ChIP assay,indicating that our experiment is workable to identify novel JAK/STAT downstream targets in adult intestines.This work will provide insights into our understanding of regulatory mechanisms of JAK/STAT signaling during Drosophila intestinal development. Identify the ChIP peaks of STAT92E antibody using JAK/STAT signaling highly actived Drosophila adult intestines, compared with input libaray as the control

Project description:Developing targeted therapy for cutaneous T cell lymphoma (CTCL) patients still requires actionable mutated genes and deregulated pathways to be identified. There is increasing evidence that activating mutations in JAK genes and deregulated JAK/STAT signaling are important mechanisms involved in multiple B and T cell malignancies, including CTCL. Therefore, in this study we focused on studying the mutational status of JAK1, JAK2 and JAK3 genes in a series of human CTCL lesions and cell lines using next-generation sequencing (NGS). We found that 7 of 48 (14.7%) of the analyzed cases harbored mutations in the JAK1 and JAK3 genes that mainly affected the pseudokinase domain of the corresponding proteins. On the basis of these results, we used a specific JAK inhibitor (INCB018424) in a series of CTCL cell lines with deregulated JAK/STAT activity. Treatment of CTCL cells with INCB018424 resulted in dose-dependent reduction of activated STAT expression, diminished cell viability, and increased apoptosis. We also studied global changes in gene expression in cells with mutated JAK1 and JAK3 proteins treated with INCB018424 and identified multiple genes that were differentially regulated by JAK/STAT signaling, such as FGF20 (upregulated) and EGR1 (downregulated). Thus, our results show that the detection of deregulated JAK/STAT signaling in CTCL lesions via JAK mutations or other surrogate markers may serve to indicate the clinical use of JAK/STAT inhibitors. 3 replicates of cells treated with DMSO or JAKi during 30 min and 3h

Project description:The genetics of classical Hodgkin lymphoma (cHL) is poorly understood. The finding of a JAK2-involving t(4;9)(q21;p24) in one case of cHL prompted us to characterize this translocation on a molecular level and to determine the prevalence of JAK2 rearrangements in cHL. We showed that the t(4;9)(q21;p24) leads to a novel SEC31A-JAK2 fusion. Screening of 131 cHL cases identified one additional case with SEC31A-JAK2 and two additional cases with rearrangements involving JAK2. We demonstrated that SEC31A-JAK2 is oncogenic in vitro and acts as a constitutively activated tyrosine kinase that is sensitive to JAK inhibitors. In vivo, SEC31A-JAK2 was found to induce a T-lymphoblastic lymphoma or myeloid hyperplasia in a murine bone marrow transplant model. Altogether, we identified SEC31A-JAK2 as a first aberration characteristic for cHL and provide evidence that JAK2 rearrangements occur in a minority of cHL cases. Given the proven oncogenic potential of this novel fusion, our studies provide new insights into the pathogenesis of cHL and indicate that in at least some cases, constitutive activation of the JAK-STAT pathway is caused by JAK2 rearrangements. The finding that SEC31A-JAK2 responds to JAK inhibitors indicates that patients with cHL and JAK2 rearrangements may benefit from targeted therapies. Genomic profiling of primary and secondary transplanted mice expressing SEC31A-JAK2 with myeloid hyperplasia and T-lymphoblastic lymphoma Individual sample against a normal control

Project description:Emerging evidence indicates that various cancers, including prostate, breast, melanoma and lung cancers, could gain resistance to targeted therapies by acquiring lineage plasticity. Although various genomic and transcriptomic aberrations correlate with lineage plasticity-driven resistance, the molecular mechanisms and kinetics of acquiring lineage plasticity are not fully elucidated. Through integrated transcriptomic and single cell RNA-seq (scRNA-seq) analysis of more than 80,000 cells, we show that the ectopic activation of Janus kinase (JAK)-signal transducer and activator of transcription (STAT) pathway drives lineage plasticity and Androgen Receptor (AR) targeted therapy resistance in PCa with TP53/RB1-deficiency. Ectopic activation of JAK-STAT signaling enables Heterogeneous and AR-independent subclones to emerge upon the selective pressure of AR targeted therapy, including subclones expressing multi-lineage, progenitor-like and epithelial to mesenchymal transition (EMT)-like lineage survival transcriptional programs. Both genetic and pharmaceutical inactivation of key components of the JAK-STAT signaling pathway significantly re-sensitizes resistant PCa tumors to AR targeted therapy. In summary, these results show for the first time that JAK-STAT signaling pathway is a key effector in driving lineage plasticity and represents a potential therapeutic target for overcoming AR targeted therapy resistance.

Project description:Combined gene expression and DNA occupancy profiling identifies JAK/STAT signaling as a valid therapeutic target of t(8;21) AML t(8;21) is commonly associated with acute myeloid leukemia (AML). The resulting AML1-ETO fusion proteins are involved in the pathogenesis of AML. To identify novel molecular and therapeutic targets, we performed combined gene expression and promoter occupancy profiling using a primary leukemia initiating cell-enriched population induced by AML1-ETO9a (AE9a). CD45, a negative regulator of cytokine/growth factor receptor and JAK/STAT signaling, is greatly downregulated; furthermore JAK1 and JAK2 are upregulated in these leukemia cells. Consequently, JAK/STAT signaling is enhanced in the AE9a leukemia cells. Importantly, AE9a leukemia cells are highly susceptible to perturbation of JAK/STAT signaling, and a JAK2-selective inhibitor, TG101209, effectively targets these leukemia cells in vivo, suggesting the potential efficacy of JAK2 inhibitors in treating t(8;21) AML. Wild-type or AE9a leukemic samples in triplicate.

Project description:JAK and STAT alterations in CD30 positive LPD, panel sequencing, 12 cutaneous lymphoma patients, 40 samples

Project description:JAK/STAT pathway plays important roles in controlling Drosophila intestinal homeostasis and regulating the ISC proliferation and differentiation. However,the downstream targets of its transcription factor-STAT92E remain largely unknown.To further identify the regualtory mechanisms of the JAK/STAT pathway in controlling intestinal homeostasis,we performed the ChIP-Seq assay with mouse raised STAT92E antibody using JAK/STAT signaling highly activated adult intestines.Through the ChIP assay, we have identified over 1000 significant peaks (p<0.01) around the putative targets.The well-characterized JAK/STAT downstream targets including Domeless,Socs36E,STAT92E and chinmo were identified in our ChIP assay,indicating that our experiment is workable to identify novel JAK/STAT downstream targets in adult intestines.This work will provide insights into our understanding of regulatory mechanisms of JAK/STAT signaling during Drosophila intestinal development.

Project description:Induction of proximal components of the PI3-K/AKT pathway stimulates the expression of several genes, including several genes in the JAK/STAT pathway, documenting a crosstalk between these two important pathways. These changes were accompnied by nuclear translocation of certain transcription factors as well. we measured levels of RNA transcripts using the Human Genome U95 Av2 geneChip microarrays. We used an ecdysone-inducible mammalian expression system.

Project description:NFIC1, the longest isoform of NFIC, is essential for the regulation on spatiotemporal expressions of drug-metabolizing genes in liver. However, the role of NFIC1 in breast cancer is not clear. Here we showed that increased expression of NFIC1 suppressed the migration and invasion of MCF-7 cells. The activation of interferon-associated Jak-STAT pathway was enhanced with NFIC1 overexpression. NFIC1 overexpression upregulated the expression of IFNB1, IFNL1, IFNL2 and IFNL3. Treatment with Jak-STAT pathway inhibitors, Filgotinib or Ruxolitinib, reversed the suppressive effects of NFIC1 overexpression on migration and invasion. In addition, we found that MX1 and MX2 were the target genes of NFIC1- activated Jak-STAT pathway, which mediated the migration and invasion of MCF-7 cells. These results demonstrated that NFIC1 inhibited the migration and invasion in MCF-7 cells through interferon mediated activation of Jak-STAT pathway, indicating that Jak-STAT pathway might be a potential therapeutic target for preventing breast cancer metastasis.