Project description:The objective of the experiment was to compare the secretome of wild type mouse prostate oganoids (WT-mPrOs) to the one obtained from mPrOs bearing a doxycycline inducible ERG expression vector system (ERGM40 mPrOs).

Project description:We introduce a method for generating transgene-free and high-quality naive human induced pluripotent stem cells (iPSCs) using a modified Sendai virus (SeV) vector reprogramming system. This reprogramming method realizes the derivation of naive iPSCs from various somatic cells accompanied with fast and robust SeV vector removal at early passages. The established naive iPSCs have superior differentiation ability compared with iPSCs derived from conventional methods.

Project description:Self-pollen rejection in the Brassicaceae is determined by the diploid genotype of the pollen-producing plant, and it has long been known that the alleles show a dominance hierarchy. How this hierarchy is controlled and evolves has been a classical puzzle since the pre-molecular days of genetics. Here, we uncover the system of at least 17 small RNA (sRNA) producing loci and their multiple target sites that collectively control the dominance hierarchy among alleles of a self-incompatible Arabidopsis species. Our results demonstrate that natural selection shapes a dynamic repertoire of sRNA/targets interactions by jointly acting on sRNA genes, their processing precision and their target sites. It is remarkable that a single gene can evolve such a complex system of regulation among its own alleles. Sequencing of small RNAs from A. halleri floral buds, with this single exception (Al14, from A. lyrata).

Project description:We introduce a method for generating transgene-free and high-quality naive human induced pluripotent stem cells (iPSCs) using a modified Sendai virus (SeV) vector reprogramming system. This reprogramming method realizes the derivation of naive iPSCs from various somatic cells accompanied with fast and robust SeV vector removal at early passages. The established naive iPSCs have superior naive-specific differentiation ability compared with iPSCs derived from conventional methods.

Project description:We introduce a method for generating transgene-free and high-quality naive human induced pluripotent stem cells (iPSCs) using a modified Sendai virus (SeV) vector reprogramming system. This reprogramming method realizes the derivation of naive iPSCs from various somatic cells accompanied with fast and robust SeV vector removal at early passages. The established naive iPSCs have superior naive-specific differentiation ability compared with iPSCs derived from conventional methods.

Project description:Self-pollen rejection in the Brassicaceae is determined by the diploid genotype of the pollen-producing plant, and it has long been known that the alleles show a dominance hierarchy. How this hierarchy is controlled and evolves has been a classical puzzle since the pre-molecular days of genetics. Here, we uncover the system of at least 17 small RNA (sRNA) producing loci and their multiple target sites that collectively control the dominance hierarchy among alleles of a self-incompatible Arabidopsis species. Our results demonstrate that natural selection shapes a dynamic repertoire of sRNA/targets interactions by jointly acting on sRNA genes, their processing precision and their target sites. It is remarkable that a single gene can evolve such a complex system of regulation among its own alleles.

Project description:Loss of function assays were performed in differentiating IBAs using short hairpin RNAs (shRNAs) against a set of candidate transcription factors: NFIA, DBP, HOXA4, ZFP467, SOX18, ELF3, YBX2 and PPARa. Gene expression profiles of the perturbed and non perturbed (controls including non transduced cells, cells transduced with scrambled and GFP constructs) transcriptomes were measured at Day 6 of differentiation using a novel multiplex, bulk mRNA-seq barcoding method which employs a 3' sequencing approach. This method allowed the measurement of the deviation of the perturbed transcriptome from the non-perturbed transcriptome.

Project description:A small molecule compound, here called 154, has a dual inhibitor effect of IL6/STAT3 and AR pathway, which reduces AR and STAT3 transcriptional activity in LNCaP cells. To profile the effected genes by compound 154 prostate LNCaP cells were treated with DMSO and compound 154 at 1 uM and 0.4 uM in duplicates in 6-well plate, cells were harvested at 24 hours. All the cells were harvested and total RNA was extracted using Qiazol method followed by Agilent DNA microarray analysis.

Project description:BAF57, a component of the SWI/SNF chromatin remodeling complex conglomerate,modulates androgen receptor activity to promote prostate cancer. However the molecular consequences of tumor associated BAF57 elevation have remianed undefined in advanced disease such as castration resistant prostate cancer and/or metastasis Global gene expression analyses were performed in models mimicking tumor-associated BAF57 expression. These analyses demonstrated that BAF57 deregulation circumvented androgen mediated signaling and elicited upregulation of M-NM-12 integrin and other migration and metastasis related gene signatures. LNCaP cells were transfected to overexpress BAF57 and validated for BAF57 transcript induction. Appropriate vector control transfected cells were also used. Vector and BAF57 transfected samples were treated with 0.1% vehicle with a 1nM DHT vector control. Gene expression analyses were performed on biological duplicates.

Project description:Human tubulin beta class IVa (TUBB4A) is a member of the β-tubulin family. In most normal tissues, expression of TUBB4A is little to none, but it is highly expressed in human prostate cancer. Here we show that high expression levels of TUBB4A are associated with aggressive prostate cancers and poor patient survival, especially for African-American men. Additionally, in prostate cancer cells, TUBB4A knockout (KO) reduces cell growth and migration but induces DNA damage through increased γH2AX and 53BP1. Furthermore, during constricted cell migration, TUBB4A interacts with MYH9 to protect the nucleus, but either TUBB4A KO or MYH9 knockdown leads to severe DNA damage and reduces the NF-κB signaling response. Also, TUBB4A KO retards tumor growth and metastasis. Functional analysis reveals that TUBB4A/GSK3β binds the N-terminal of MYH9, and TUBB4A KO reduces MYH9-mediated GSK3β ubiquitination and degradation, leading to increased activation of GSK3β/β-catenin signaling and to the epithelial-mesenchymal transition. Likewise, prostate-specific deletion of Tubb4a reduces spontaneous tumor growth and metastasis via inhibition of NF-κB, cyclin D1, and c-MYC signaling activation. Our results suggest an oncogenic role of TUBB4A and provide a potentially new actionable therapeutic target for prostate cancers with TUBB4A overexpression.