Project description:Here, we systematically profile the methylation sensitivity of 18 human TFs spanning 11 structural families using chemically synthesized DNA libraries containing position-specific 5-methylcytosines (5mC) in CpG, non-CpG, and hemi-methylated contexts, measured via high-throughput protein-binding microarrays. Our results reveal extensive TF sensitivity to methylation state, position, and strand orientation—including strong binding of several TFs to non-CpG and hemi-methylated sites. The presence of 5mC can dramatically alter TF-DNA interactions: transforming low-affinity sites into high-affinity ones by enabling new contacts, or silencing otherwise favorable motifs through steric hindrance. Genomic analyses further show that the methylation-sensitive sequences identified in vitro are represented within enhancers and regulatory elements, exhibiting distinct methylation patterns across cell types. Together, our findings uncover a previously hidden layer of methylation-dependent TF-DNA recognition, broadening the understanding of epigenetics in transcriptional regulation.

Project description:Here, we systematically profile the methylation sensitivity of 18 human TFs spanning 11 structural families using chemically synthesized DNA libraries containing position-specific 5-methylcytosines (5mC) in CpG, non-CpG, and hemi-methylated contexts, measured via high-throughput protein-binding microarrays. Our results reveal extensive TF sensitivity to methylation state, position, and strand orientation—including strong binding of several TFs to non-CpG and hemi-methylated sites. The presence of 5mC can dramatically alter TF-DNA interactions: transforming low-affinity sites into high-affinity ones by enabling new contacts, or silencing otherwise favorable motifs through steric hindrance. Genomic analyses further show that the methylation-sensitive sequences identified in vitro are represented within enhancers and regulatory elements, exhibiting distinct methylation patterns across cell types. Together, our findings uncover a previously hidden layer of methylation-dependent TF-DNA recognition, broadening the understanding of epigenetics in transcriptional regulation.

Project description:Here, we systematically profile the methylation sensitivity of 18 human TFs spanning 11 structural families using chemically synthesized DNA libraries containing position-specific 5-methylcytosines (5mC) in CpG, non-CpG, and hemi-methylated contexts, measured via high-throughput protein-binding microarrays. Our results reveal extensive TF sensitivity to methylation state, position, and strand orientation—including strong binding of several TFs to non-CpG and hemi-methylated sites. The presence of 5mC can dramatically alter TF-DNA interactions: transforming low-affinity sites into high-affinity ones by enabling new contacts, or silencing otherwise favorable motifs through steric hindrance. Genomic analyses further show that the methylation-sensitive sequences identified in vitro are represented within enhancers and regulatory elements, exhibiting distinct methylation patterns across cell types. Together, our findings uncover a previously hidden layer of methylation-dependent TF-DNA recognition, broadening the understanding of epigenetics in transcriptional regulation.

Project description:This study aimed to understand the role of ILF2 upregulation in metastatic melanoma cutaneous progression and DNA damage response. The goal of RPPA analysis was to determine the protein expression profiles in DP-0574 and IM-0223 melanoma cell lines with ILF2 overexpression (ILF2-OV) or control empty vector (EV). By analysis of RPPA in both metastatic melanoma cell lines, we found that ILF2-OV controls significantly increased RAD50 expression.

Project description:One of the first-line chemotherapy regimes for gastric cancer is a combination treatment of epirubicin, cisplatin, and 5-fluorouracil (ECF). Chemoresistance remains the major obstacle to achieving successful results from gastric cancer treatment. Understanding acquired or pre-existing resistance to anticancer drugs is essential to the development of a therapeutic modality for gastric cancer. In this study, we established ECF-resistant (ECF-R) gastric cancer cell lines. We found that nerve injury–induced protein 2 (Ninjurin2, NINJ2) functioned as a biomarker for ECF-R in both gastric cancer cells. We also investigated the NINJ2 binding molecule and downstream pathway using both LC-MS/MS and phospho-antibody arrays.

Project description:Histone deacetylase inhibitors (HDACi) are currently used as anticancer drugs; however, no clinical trials proved efficacy in pancreatic adenocarcinoma (PDAC). Ivaltinostat, a novel intravenous HDACi, presented cell growth inhibition and improved chemo-sensitivity in PDAC. This phase I/II study demonstrated ivaltinostat with gemcitabine and erlotinib can be administered safely to improve survivals in patients with untreated advanced PDAC. In addition, we proposed potential blood markers to predict response to ivaltinostat treatment based on correlative studies.

Project description:To identify differentially phosphorylated proteins between wild-type and Pak1-deficient mouse breast cancer cells, we performed a comparative study by using phospho-antibody arrays.

Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:Current seasonal and pre-pandemic influenza vaccines induce short-lived predominantly strain-specific and limited heterosubtypic responses. To better understand how vaccine adjuvants AS03 and MF59 may provide improved antibody responses to vaccination, we interrogated serum from subjects who received 2 doses of inactivated monovalent influenza A/Indonesia/05/2005 vaccine with or without AS03 or MF59 using hemagglutinin (HA) microarrays (NCT01317758 and NCT01317745). The arrays were designed to reflect both full length and globular head HA derived from 17 influenza A subtypes (H1 to H16 and H18) and influenza B strains. We observed significantly increased strain-specific and broad homo- and hetero-subtypic antibody responses with both AS03 and MF59 adjuvanted vaccination with AS03 achieving a higher titer and breadth of IgG responses relative to MF59. Adjuvanted vaccine was also associated with the elicitation of stalk directed antibody. We established good correlation of the array antibody responses to H5 antigens with standard HA inhibition and microneutralization titers.

Project description:Current seasonal and pre-pandemic influenza vaccines induce short-lived predominantly strain-specific and limited heterosubtypic responses. To better understand how vaccine adjuvants AS03 and MF59 may provide improved antibody responses to vaccination, we interrogated serum from subjects who received 2 doses of inactivated monovalent influenza A/Indonesia/05/2005 vaccine with or without AS03 or MF59 using hemagglutinin (HA) microarrays (NCT01317758 and NCT01317745). The arrays were designed to reflect both full length and globular head HA derived from 17 influenza A subtypes (H1 to H16 and H18) and influenza B strains. We observed significantly increased strain-specific and broad homo- and hetero-subtypic antibody responses with both AS03 and MF59 adjuvanted vaccination with AS03 achieving a higher titer and breadth of IgG responses relative to MF59. Adjuvanted vaccine was also associated with the elicitation of stalk directed antibody. We established good correlation of the array antibody responses to H5 antigens with standard HA inhibition and microneutralization titers.