Project description:HMLE-SNAIL cell cultures were treated with KPT-185 drug (KPT, 150 nanomolar) or vehicle (DMSO) for 24 hours, in parallel quadruplicates. KPT-185 is an Exportin 1 (XPO1) inhibitor with possible pluripotent or unexpected effects on cell signaling. Total RNA was isolated and analyzed in an Agilent two-color experiment, where four biological replicates of each condition were directly compared, expression ratios are KPT-treated condition relative to control (DMSO vehicle-treated).

Project description:In order to assess transcriptome profile of different calcification stages and KPT, RNA-Seq analysis was performed

Project description:Transcriptomic analysis on white adipose tissues (WAT), brown adipose tissues (BAT), skeletal muscles and liver from cold-exposed obese mice treated with KPT-330 or DMSO, and those from obese mice housed at ambient temperature indicated that KPT-330 profoundly modulates immune responses in these thermogenic tissues and organs.

Project description:We have used an agnostic approach to identify drug combinations by using combination high throughput screening (cHTS) technology and make the surprising discovery that adenosine A2A and beta-2 adrenergic receptor agonists are highly synergistic, selective and novel agents that enhance glucocorticoid activity in B-cell malignancies. We used the microarray study to understand the synergistic mechanism between dexamethasone and A2A receptor agonist or Beta-2 Adrenergic receptor agonist in a multiple myeloma cell line, MM1S. MM1S cells were treated with CGS-21680 or Salmeterol alone, or in combination with dexamethasone for six hours for RNA extraction and hybridization on Affymetrix microarrays.

Project description:The XPO1 inhibitor KPT-8602 synergizes with dexamethasone for the inhibition of acute lymphoblastic leukemia

Project description:To assess the effects of XPO1 inhibition with small molecule inhibitor KPT-330 on Cutaneous T-cell Lymphoma after 48 hours of treatment

Project description:300 cell RNA-seq on FACS-sorted leukemia initiating cells (CD34+CD38-) from AML patients treated ex vivo with AR-42, KPT-9274 and AR-42/KPT-9274 combination

Project description:RNASeq analysis of calcification stages (and KPT) in pAVICs

Project description:An estimated 284,000 Americans will be diagnosed with breast cancer in 2021. Of these individuals, 15-20% will be diagnosed with basal-like triple-negative breast cancer (TNBC), which is known to be highly metastatic. Chemotherapy is standard of care for TNBC patients, but acquired chemoresistance is a common clinical problem. There is currently a lack of alternative, targeted treatment strategies for TNBC; this study sought to identify novel therapeutic combinations to treat basal-like TNBCs. For these studies, a set of four human basal-like TNBC cell lines was utilized to determine the cytotoxicity profile of 1,363 unique clinically-used drugs. Ten promising therapeutic candidates were identified, and synergism studies were performed in vitro. Two drug combinations that included KPT-330, an XPO1 inhibitor, were synergistic in all four cell lines. In vivo testing of four basal-like patient-derived xenografts identified a combination, KPT-330 and GSK2126458 (a PI3K/mTOR inhibitor), that decreased tumor burden in mice significantly more than monotherapy with either single agent. Bulk and single-cell RNA-sequencing, immunohistochemical studies, and analysis of published genomic datasets found that XPO1 was abundantly expressed in human basal-like TNBC cell lines, patient-derived xenografts, and patient tumor samples; within basal-like patients, XPO1 overexpression was associated with greater rates of metastases. These studies identify a promising new combination therapy for patients with basal-like TNBC.

Project description:Approximately 70% of human breast cancers express estrogen receptor-α (ERα), providing a potential target for endocrine therapy. However, 30%–40% of patients with ER+ breast cancer still experience recurrence and metastasis, with a 5-year relative overall survival rate of 24%. In this study, we identified NAMPT, an important enzyme in nicotinamide adenine dinucleotide (NAD+) metabolism, to be increased in metastatic breast cancer (MBC) cells treated with Fulv. We tested whether blockade of NAD+ production via inhibition of nicotinamide phosphoribosyltransferase (NAMPT) synergizes with standard-of-care therapies for ER+ metastatic breast cancer in vitro and in vivo. A synergistic effect was not observed when KPT-9274 was combined with palbociclib or tamoxifen or when Fulv was combined with other metabolic inhibitors. We show that NAMPT inhibitor KPT-9274 and fulvestrant (Fulv) works synergistically to reduce metastatic tumor burden. RNA-sequencing analysis showed that NAMPT inhibition improved antiestrogenic activity of Fulv, and metabolomics analysis showed that NAMPT inhibition reduced the abundance of metabolites associated with several key tumor metabolic pathways. Targeting metabolic adaptations in endocrine-resistant metastatic breast cancer is a novel strategy, and alternative approaches aimed at improving the therapeutic response of metastatic ER+ tumors are needed. Our findings uncover the role of ERα–NAMPT cross-talk in metastatic breast cancer and the utility of NAMPT inhibition and antiestrogen combination therapy in reducing tumor burden and metastasis, potentially leading to new avenues of metastatic breast cancer treatment.