Project description:Hypoxia regulates fibroblast function by changing intracellular signaling and secretion factors, which influences the states of nearby cells. In this work, we investigated the effects of conditioned medium (CM) from human adult dermal fibroblasts (HDFs) cultured in normoxic and hypoxic conditions on cervical cancer (HeLa) cells. The HeLa cells showed decreased cell viability, in-creased apoptosis, and cell cycle arrest in response to CM from hypoxic-cultured HDFs (H-CM) compared with CM from normoxic-cultured HDFs (N-CM). Among the proteins up-regulated (> 2-fold) in H-CM compared with N-CM, LTBR decreased the viability of HeLa cells. Among the intracellular proteins down-regulated (> 2-fold) in HeLa cells treated with H-CM compared with N-CM, the most enriched biological process GO term and KEGG pathway were protein deubiq-uitination and hsa05166:HTLV-I infection, respectively. In the protein–protein interaction net-work of intracellular proteins with altered expression (> 2-fold), 1 up-regulated (TNF) and 8 down-regulated (ESR1, MCL1, TBP, CD19, LCK, PCNA, CHEK1, and POLA1) hub proteins were defined. Among the down-regulated hub proteins, the most enriched biological process GO term and KEGG pathway were leading strand elongation and hsa05166:HTLV-I infection, respectively. This study reveals that H-CM had enhanced anti-cancer effects on cervical cancer cells compared with N-CM, and it induced intracellular signaling patterns related to those enhanced anti-cancer effects.

Project description:Hypoxia regulates fibroblast function by changing intracellular signaling and secretion factors, which influences the states of nearby cells. In this work, we investigated the effects of conditioned medium (CM) from human adult dermal fibroblasts (HDFs) cultured in normoxic and hypoxic conditions on cervical cancer (HeLa) cells. The HeLa cells showed decreased cell viability, in-creased apoptosis, and cell cycle arrest in response to CM from hypoxic-cultured HDFs (H-CM) compared with CM from normoxic-cultured HDFs (N-CM). Among the proteins up-regulated (> 2-fold) in H-CM compared with N-CM, LTBR decreased the viability of HeLa cells. Among the intracellular proteins down-regulated (> 2-fold) in HeLa cells treated with H-CM compared with N-CM, the most enriched biological process GO term and KEGG pathway were protein deubiq-uitination and hsa05166:HTLV-I infection, respectively. In the protein–protein interaction net-work of intracellular proteins with altered expression (> 2-fold), 1 up-regulated (TNF) and 8 down-regulated (ESR1, MCL1, TBP, CD19, LCK, PCNA, CHEK1, and POLA1) hub proteins were defined. Among the down-regulated hub proteins, the most enriched biological process GO term and KEGG pathway were leading strand elongation and hsa05166:HTLV-I infection, respectively. This study reveals that H-CM had enhanced anti-cancer effects on cervical cancer cells compared with N-CM, and it induced intracellular signaling patterns related to those enhanced anti-cancer effects.

Project description:Phosphotyrosine (pY) enrichment is critical for expanding fundamental and clinical understanding of cellular signaling by mass spectrometry-based proteomics. However, current pY enrichment methods exhibit a high cost per sample and limited reproducibility due to expensive affinity reagents and manual processing. We present rapid-robotic phosphotyrosine proteomics (R2-pY), which uses a magnetic particle processor and pY superbinders or antibodies. R2-pY can handle up to 96 samples in parallel, requires 2 days to go from cell lysate to mass spectrometry injections, and results in global proteomic, phosphoproteomic and tyrosine-specific phosphoproteomic samples. We benchmark the method on HeLa cells stimulated with pervanadate and serum and report over 4000 unique pY sites from 1 mg of peptide input, strong reproducibility between replicates, and phosphopeptide enrichment efficiencies above 99%. R2-pY extends our previously reported R2-P2 proteomic and global phosphoproteomic sample preparation framework, opening the door to large-scale studies of pY signaling in concert with global proteome and phosphoproteome profiling.

Project description:Global phosphoproteomic mapping of early mitotic exit in human hela cells, HCD

Project description:We present a computational method for building a regulatory network from global phosphoproteomic and transcription profiling data. To recover the critical missing links between signaling events and transcriptional responses, we relate changes in chromatin accessibility to changes in expression and then uses these links to connect proteomic and transcriptome data. We applied our approach to integrate epigenomic, phosphoproteomic and transcriptome changes induced by the variant III mutation of the epidermal growth factor receptor (EGFRvIII) in a cell line model of glioblastoma multiforme (GBM).

Project description:SrfJ is an effector of the type III secretion systems of the Gram-negative intracellular pathogen Salmonella enterica serovar Typhimurium. To study the effects of this effector on global gene expression in host cells, we have expressed SrfJ on human HeLa cells through transient transfection. The comparison with HeLa cells transfected with a plasmid not expressing SrfJ, revealed a number of genes that are differentially expressed when SrfJ is present.

Project description:Transcriptome analysis of depletion of DYRK1A in HeLa cells Global gene expression profiling has shown upregulation of many genes in the context of DYRK1A depletion in HeLa cells. Many of these genes deregulated by DYRK1A are involved in immune response system. Transcriptome analysis of siRNA against DYRK1A transfected in HeLa cells on GeneChipM-BM-. Human Exon 1.0 ST Arrays (Affimetrix). Control HeLa cells have been transfected with the same concentration of siRNA non-targeting (siNT). Experiment has been done experimental triplicates.

Project description:HeLa cell extracts with or without GSK3 enzyme inhibition were assayed using protein microarrays in order to detect GSK3-dependent changes in protein polyubiquitination. HeLa lysates in triplicates were supplemented with ubiquitin and incubated on protein microarrays (ProtoArray 5.0; Invitrogen) in the presence or absence of the GSK3 inhibitor SB-216763. Polyubiquitination of the arrayed proteins was detected using specific antibodies. ProtoArray 5.0 contains over 9,000 full-length human proteins purified and arrayed in duplicate under native conditions to maximize functionality.

Project description:BAG3 (BCL2-associated athanogene 3) is a member of the BAG protein family. BAG3 affects a wide variety of cellular events including cell proliferation, apoptosis and autophagy. Recently our data demonstrated that knockout (KO) of BAG3 induces the cell growth arrest in human cervical carcinoma HeLa cells. In the present study, to identify genes involved in the cell growth arrest by BAG3-KO in HeLa cells, global-scale gene expression analysis was carried out using a GeneChip® system.

Project description:ELABELA (ELA) is a peptide hormone required for heart development that signals via the Apelin Receptor (APLNR, APJ). ELA is also abundantly secreted by human embryonic stem cells (hESCs), which do not express APLNR. Here we show that ELA signals in a paracrine fashion in hESCs to maintain self-renewal. ELA inhibition by CRISPR/Cas9-mediated deletion, shRNA or neutralizing antibodies causes reduced hESC growth, cell death and loss of pluripotency. Global phosphoproteomic and transcriptomic analyses of ELA-pulsed hESCs show that it activates PI3K/AKT/mTORC1 signaling required for cell survival. ELA promotes hESC cell cycle progression and protein translation, and blocks stress-induced apoptosis. INSULIN and ELA have partially overlapping functions in hESC medium, but only ELA can potentiate the TGFβ pathway to prime hESCs towards the endoderm lineage. We propose that ELA, acting through an alternate cell-surface receptor, is an endogenous secreted growth factor in human embryos and hESCs that promotes growth and pluripotency. Global Transcriptomic Analysis of INSULIN versus ELA-pulsed human embryonic stem cells was performed to elucidate the functional overlap between these two ligands