Project description:Leishmania cosmid library screens with DDD01012248 and DDD00050500

Project description:Overexpression library screen - Oxidosqualene cyclase targeting compound in Leishmania donovani

Project description:To identify possible novel targets for the treatment of plexiform neurofibroma formation through a synthetic lethal shRNA library screen in the tumorigenic cell of origin, Schwann cells.

Project description:Epigenetic library screen reveals novel targets for uveal melanoma

Project description:Little is known about genes that promote melanoma cell growth and proliferation. siRNAs may be used to address the role of individual genesin these processes. RNAi library screens were used in the past to gain a comprehensive overview of all genes involved in cell growth, proliferation, migration and other cellular processes. A large-scale loss-of-function screen for eight different melanoma cell lines was performed using a pooled lentiviral shRNA library (GeneNet Human 50K lentiviral shRNA Library,cat#SI206B-1, System Biosciences) to identify genes relevant for melanoma cell growth and proliferation. shRNAs that lead to cell death or reduced growth of transduced melanoma cells are negatively selected and thereby underrepresented in the final cellular shRNA pool and vice versa. The shRNAs of the shRNA library (3-5 per gene) have complementary sequences to probes on the custom Affymetrix microarray HG-U133Plus2 and were analysed using this array.

Project description:The genomic DNAs of strains JPCM5 and 263 of L. infantum, strains LV39 and Friedlin of L. major and strains Parrot-TarII and S125 of L. tarentolae were used in comparative genomic hybridizations to reveal the intra-species and inter-species gene content, and to validate L. tarentolae Parrot-TarII genome sequencing results. Leishmania (Sauroleishmania) tarentolae was first isolated in the lizard Tarentola mauritanica. This species is not known to be pathogenic to humans but is often used as a model organism for molecular analyses or protein overproduction. The Leishmania tarentolae Parrot-TarII strain genome sequence was resolved by high-throughput sequencing technologies. The L. tarentolae genome was first assembled de novo and then aligned against the reference L. major Friedlin genome to facilitate contig positioning and annotation, providing a 23-fold coverage of the genome. This is the first non-pathogenic to humans kinetoplastid protozoan genome to be described, and it provides an opportunity for comparison with the completed genomes of the pathogenic Leishmania species. A high synteny was observed in de novo assembled contigs between all sequenced Leishmania species. A number of limited chromosomal regions diverged between L. tarentolae and L. infantum, while remaining syntenic with L. major. Globally, over 90% of the L. tarentolae gene content was shared with the other Leishmania species. There were 250 L. major genes absent from L. tarentolae, and interestingly these missing genes were primarily expressed in the intracellular amastigote stage of the pathogenic parasites. This implies that L. tarentolae may have impaired ability to survive as an intracellular parasite. In contrast to other Leishmania genomes, two gene families were expanded in L. tarentolae, namely the leishmanolysin (GP63) and a gene related to the promastigote surface antigen (PSA31C). Overall, L. tarentolae appears to have a gene content more adapted to the insect stage rather than the mammalian one. This may partly explain its inability to replicate within mammalian macrophages and its suspected preferred life style as promastigote in the lizards.

Project description:Screen of Leishmania mexicana transporter mutants in mice

Project description:Synthetic lethal siRNA screen using a kinome library containing 939 druggable genes in the TN-IBC cell line SUM149PT, in combination with EPA treatment.

Project description:Illumina sequencing data used in HIV-CRISPR screen with an ISG-specific sgRNA library (PIKAHIV) to find genes that block infection by the N74D and P90A HIV-1 capsid mutant viruses in THP-1 monocytic cells. For more information on the library and approach see Ohainle et al. eLife 2018 (PMID: 30520725). All screens performed here were done in a clonal ZAP-KO cell line (ZAP may inhibit the HIV-CRISPR vector used in the screen). Here we screen the Cyclophilin A-binding deficient mutant P90A and the CPSF6-binding deficient mutant N74D together with a wild type HIV-1 virus. The N74D screen was performed both with IFN treatment and without. These two HIV-1 capsid mutant viruses are hypersensitive to the effects of IFN.

Project description:Uveal melanoma (UM) is the most common primary ocular cancer in adults, which metastasizes mainly to the liver in around half of the cases. The limited potency of current treatment options for metastatic UM necessitates an urgent exploration of novel therapeutic approaches to improve patient prognosis. We conducted a large epigenetic compound library screen with the currently most well characterized, focused epigenetics library available, which consists of 932 potent, cell permeable, medically active, epigenetic-directed small molecule modulators. Our screening identified two new lead compounds, which so-far have been unappreciated for UM. Romidepsin, an HDAC inhibitor with specificity for class I HDACs, was the most efficient compound in-vitro, as well as the BET inhibitor Mivebresib, which showed minimal toxicity on normal cells. RNA sequencing and pathway analysis revealed an upregulation of PRC-associated gene targets induced by HDAC inhibition, while BET inhibition appears to act through retinoic acid related pathways. Mivebresib treatment in a metastatic uveal melanoma mouse model resulted in longer survival times and reduced metastasis to the spinal cord and brain. The results of our drug screen indicate a vulnerability for HDAC and BET inhibition for UM cells. The BET inhibitor Mivebresib may be a promising candidate for future synergistic and clinical trials.