Project description:Systematically profiling the interactome of 1,144 unique wild-type and mutant phosphotyrosine residues of receptor tyrosine kinases by affinity enrichment - mass spectrometry (AE-MS), followed by a subset of novel interactors validation by competition assay.

Project description:Estrogens receptor a (ERα) is essential for breast tumors,since about seventy percent of breast cancers are detected as ERα positive.Recent studies suggest that ERα is related with the epithelial cell morphology. Recently, it has demonstrated that the suppression of ERα induced epithelial-mesenchymal transition (EMT) in the MCF-7 breast cacner cells. Interestingly, the loss of ERa resulted in strong differences on the gene expression profile of a variety of genes. Therefore, the aim of the RNA-seq is to elucidate the effect of the silencing of ERα on the mRNA levels of a larger variety of genes, thus revealing possible target genes which may be implicated on the aggressive phenotype and behavior of the ERα-suppresed MCF-7/SP10+ breast cancer cells. For this reason total RNA from both MCF-7/SP10+ cells and of their internal control MCF-7/C cells was extracted in 3 biological replicates and 3 technical replicates.

Project description:HTRA1 proteolysis of TSP1 inhibits immune suppression in age-related macular degeneration. A minor haplotype of the 10q26 locus conveys the strongest genetic risk for age related macular degeneration (AMD), a major cause of blindness affecting millions of individuals worldwide. Here we show that monocytes (Mo) from homozygous carriers of the 10q26 AMD-risk haplotype overexpress the High-Temperature Requirement A Serine Peptidase 1 (HTRA1), which locates to mononuclear phagocytes (MP) in eyes of patients with AMD. Elevated HTRA1 led to significant subretinal Mo persistence and promoted pathogenic MP accumulation due to the hydrolysis of Thrombospondin 1 (TSP1). Mechanistically, we demonstrate that HTRA1 separates TSP1’s two CD47- binding Valine-Valine-Methionine-sites that are necessary for efficient CD47 activation and repression of osteopontin (OPN) secretion, a mediator of inflammation and wound healing. Accordingly, OPN was overexpressed in early Mo-derived macrophages in 10q26 risk carriers and OPN deletion or inhibition fully reversed HTRA1- induced pathogenic MP persistence. Our observations provide new insights into the molecular mechanisms of MP accumulation in inflammation and show that HTRA1 resistant CD47 agonists and OPN inhibitors can provide a powerful tool to reverse HTRA1’s pro-inflammatory effect and restore retinal immune suppression in AMD, critical for retinal homeostasis.

Project description:Plant proteases are key regulators of plant cell processes such as seed development, immune responses, senescence and programmed cell death (PCD). Apoplastic papain-like cysteine proteases (PLCPs) are hubs in plant-microbe interactions and play an important role during abiotic stresses. The apoplast is a crucial interface for the interaction between plant and microbes. So far, apoplastic maize PLCPs and their function have been mostly described for aerial parts. In this study, we focused on apoplastic PLCPs in the roots of maize plants. We have analyzed the phylogeny of maize PLCPs and investigated their protein abundance after salicylic acid treatment. Using activity-based protein profiling (ABPP) we have identified a novel root-specific PLCP belonging to the RD21-like subfamily, as well as three salicylic acid activated PLCPs. The root specific PLCP CP1C shares sequence and structural similarities to known CP1-like proteases. Biochemical analysis of recombinant CP1C revealed different substrate specificities and inhibitor affinities compared to the related proteases. This study characterized a root-specific PLCP and identifies differences between the SA-dependent activation of PLCPs in roots and leaves.

Project description:Aim of this study is to unveil the global transcriptomic expression levels upon Knockout of ZEB1 in triple negative breast cancer cells Hs578T.

Project description:Aim of this study is to unveil the global transcriptomic expression levels upon Knockout of Snai1 in triple negative breast cancer cells Hs578T.

Project description:The aim of this work was to elucidate the role of the lncRNA LINC00707 in HaCaT cells and study whether its downregulation mimics the effects of TGFβ treatment. To this end we used the HaCaT cells that were either transfected with a non-targeting shRNA (shC) and treated with TGFβ1 for 24 h (shC+TGFβ) or stably transfected with two different shRNAs targeting LINC00707 (shLINC00707#2 and shLINC00707#3). Then we analysed gene expression using Ion torrent AmpliseqTM.

Project description:The aim of this work was to elucidate the role of LKB1/STK11 and PARD3 in glioblastoma multiforme cells. For this we silenced the expression of these proteins using specific siRNA in two different patient-derived glioblastoma stem cells, U3031MG and U3034MG, then we analysed how the knock-down of these genes affects gene expression using Ion torrent AmpliseqTM.

Project description:The aim of this work was to elucidate the role of the transcription factor CXXC5 in glioblastoma and study its involvement in the regulation of TGFβ and BMP target genes in this context. To this end we used the patient derived glioblastoma stem cells U3034MG that were either transfected with siRNA targeting CXXC5 or with a non-targeting pool (as control) followed by stimulation with either 5ng/ml TGFβ or 30ng/ml BMP7 for 24 h. Then we analysed how silencing CXXC5 affects the expression of TGFβ and/or BMP7 target genes using Ion torrent AmpliseqTM.

Project description:TGFB2-AS1 is a long non-coding RNA which is induced by ΤGFβ signaling. In order to assess the importance of TGFB2-AS1 on the regulation of gene expression, we performed an AmpliSeq transcriptomic array in human keratinocytes (HaCaT), which stably over-express TGFB2-AS1 or control pcDNA3 empty vector. In addition, cells were stimulated with TGFβ1 for 24 hours, in order to observe the effects of TGFB2-AS1 on gene expression, downstream of TGFβ signaling. RNA from the following four conditions was used in this experiment: 1) pcDNA3, 2) pcDNA3+TGFβ1, 3) pcDNA3-TGFB2-AS1, 4) pcDNA3-TGFB2-AS1+TGFβ1. Biological triplicates were used per condition.