Project description:In eukaryotes, E1 initiates the ubiquitin cascade by adenylation and thioesterification of the ubiquitin C-terminus and subsequent transfer of ubiquitin to E2 enzymes. A clinical-grade small molecule that binds to the E1 ATP binding site and covalently derivatizes the ubiquitin C-terminus effectively shuts down E1 enzymatic activity. However, mutation at or near the ATP binding site of E1 causes resistance, mandating alternative approaches to blocking what is otherwise a promising cancer target. Here, we identified a helix-in-groove interaction between the N-terminal alpha-1 helix of E2 and a pocket within the ubiquitin fold domain of E1 as a druggable site of protein interaction. By generating and optimizing stapled alpha-helical peptides (SAHs) modeled after the E2 alpha-1 helix, we achieve site-specific engagement of E1, induce a consequential conformational change, and effectively block E1 enzymatic activity, resulting in a generalized disruption of E2 ubiquitin-charging that suppresses ubiquitination of cellular proteins. Thus, we provide a blueprint for an alternative E1-targeting strategy for the treatment of cancer. Hydrogen exchange mass spectrometry was used to characterize the predominant E1 enzyme in mammals (UBE1, a 118 kDa multi-domain enzyme that catalyzes both ubiquitin adenylation and thioesterification) in the unbound state. We then interrogated the structural impact of UBE1 interaction with the stapled peptide SAH-UBE2A and several mutants. The observed peptide-induced exposure of the ubiquitin-fold domain (UFD) linker hinge in UBE1 was consistent with an inhibitory mechanism whereby SAH-UBE2A locks UBE1 into its proximal UFD conformation.

Project description:Purpose: The goals of this study : Estrone(E1) vs Estradial (E2) in breast cancer inflammatory signaling and breast cancer progression. Is HSD17B14 that convert E2 to E1 the oncogene.

Project description:This study was designed to define erythropoietin (EPO) regulated genes in murine bone marrow erythroid progenitor cells at two stages of development, designated E1, and E2. E1 cells correspond to CFUe- like progenitors, while E2 cells are proerythroblasts.

Project description:This study was designed to define erythropoietin (EPO) regulated genes in murine bone marrow erythroid progenitor cells at two stages of development, designated E1, and E2. E1 cells correspond to CFUe- like progenitors, while E2 cells are proerythroblasts. 14 samples were analyzed. 8 samples belong to the E1 stage and the remaning 6 samples correspond to the E2 stage. In the E1 stage, there are 4 controls and 4 treatment samples. The 4 samples in each group are biological replicates. Likewise in the E2 stage, there are 3 control and 3 treatment samples and the 3 samples in each group are biological replicates.

Project description:Embryo mortality (EM) contributes to infertility, but its exact mechanism is poorly understood. It was hypothesized that bovine EM pregnancies have impaired conceptus-derived interferon-tau (IFNT) release and action and are associated with altered transcriptome responses. The objective was to discover transcriptome response in EM tissues (endometrium [ENDO], corpus luteum [CL] and peripheral blood mononuclear cells [PBMC]) in lactating Holstein-Friesian cows. Two experiments (E1, E2) in day 16 pregnant (exposed to semen; E1:n=13, E2:n=15) or non-pregnant (NP; not exposed to semen; E1:n=7, E2:n=7) cows were completed. Uterine flushings (UF) and tissues were collected. Pregnant cows were also classified based on conceptus morphology and appearance for EM (E1:n=5, E2:n=6) or normal (N) conceptuses (E1:n=8, E2:n=9). Conceptuses and tissues were RNA sequenced and analyzed. The N conceptuses were longer (P<0.05) than EM conceptuses. The IFNT protein concentrations in UF were greater in N compared to EM and NP cows in E1 but not for E2. The ENDO conjugated ISG15 concentrations were greater in N (E1) than EM and NP cows but N (E2) were only greater than NP not EM cows. The major up-regulated canonical pathway in EM conceptuses was T helper 1 (Th1) and Th2. The ENDO had a massive increase in interferon stimulated genes in N and EM compared to NP cows. Estradiol-associated genes were up-regulated in EM compared to N ENDO for E2. The PBMC in E1 reflected up-regulation of genes associated Th1 immune responses in EM compared to N cows. Luteolytic pathways were upregulated in EM CL compared to N cows. This disruption of maternal recognition of pregnancy in EM pregnancies entails a massive T helper immune response within the conceptus, estradiol re-modelling of the ENDO, abnormal immune system in PBMC, luteolysis cascade in CL and, potentially, loss of pregnancy.

Project description:Conventional ubiquitination involves the ATP-dependent formation of amide bonds between the ubiquitin C-terminus and primary amines in substrate proteins. Recently, SdeA, an effector protein of pathogenic Legionella pneumophila, was shown to mediate NAD-dependent and ATP-independent ubiquitin transfer to host proteins. Yet, the molecular mechanism of this ubiquitination reaction and its relevance for cellular processes remained elusive. Here, we report the identification of a phosphodiesterase (PDE) domain in SdeA that efficiently catalyses arginine phosphoribosylation of ubiquitin via an ADP-ribose intermediate . The PDE domain also catalyzes a chemically and structurally distinct type of substrate ubiquitination by conjugating phosphoribosylated ubiquitin to serine residues of protein substrates via a phosphodiester bond. Furthermore, phosphoribosylation of ubiquitin prevents activation of E1 and E2 enzymes of the conventional ubiquitination cascade thereby diminishing numerous cellular processes including mitophagy, TNF signaling and proteasomal degradation. We propose that phosphoribosylation of ubiquitin is a potent modulator of ubiquitin functions in mammalian cells.

Project description:In this project, the protein mixture in the adhesive strip samples was analyzed by means of intragel enzymatic hydrolysis and high-resolution biomass spectrometry. Among them, 10 ubiquitination modification sites were identified in the samples E1+E2+HERC5+ISG15+N, the target protein was identified in the samples E1+E2+HERC5+N and N, but the target modification was not identified on the target protein.

Project description:Ubiquitin and ubiquitin-like proteins (UBLs) are directed to targets by cascades of E1, E2, and E3 enzymes. The largest ubiquitin E3 subclass consists of cullin-RING ligases (CRLs), which contain one each of several cullins (CUL1, -2, -3, -4, or -5) and RING proteins (RBX1 or -2). CRLs are activated by ligation of the UBL NEDD8 to a conserved cullin lysine. How is cullin NEDD8ylation specificity established? Here we report that, like UBE2M (also known as UBC12), the previously uncharacterized E2 UBE2F is a NEDD8-conjugating enzyme in vitro and in vivo. Biochemical and structural analyses indicate how plasticity of hydrophobic E1-E2 interactions and E1 conformational flexibility allow one E1 to charge multiple E2s. The E2s have distinct functions, with UBE2M/RBX1 and UBE2F/RBX2 displaying different target cullin specificities. Together, these studies reveal the molecular basis for and functional importance of hierarchical expansion of the NEDD8 conjugation system in establishing selective CRL activation. Mol Cell 33:483-495, 2009. Keywords: Comparison of gene expression profiles

Project description:Oxysterol Binding Protein (OSBP) extracts cholesterol from the ER to deliver it to the TGN via the counter exchange and subsequent hydrolysis of the phosphoinositide PI(4)P. Here, we show that this pathway is essential in polarized epithelial cells where it contributes not only to the proper subcellular distribution of cholesterol, but also to the trans-Golgi sorting and trafficking of numerous plasma membrane cargo proteins with apical or basolateral localization. Reducing the expression of OSBP, blocking its activity or inhibiting a PI4Kinase that fuels OSBP with PI(4)P abolishes the epithelial phenotype. Waves of cargo enrichment in the TGN in phase with OSBP and PI(4)P dynamics suggest that OSBP promotes the formation of lipid gradients along the TGN, which help cargo sorting. During their transient passage through the trans-Golgi, polarized plasma membrane proteins get close to OSBP, but fail to be sorted when OSBP is silenced. Thus, OSBP lipid exchange activity is decisive for polarized cargo sorting and distribution in epithelial cells.

Project description:Key conserved features of these transporters include a 22 beta-strand barrel that traverses the outer membrane and houses a plug domain that occludes solute passage until the transporter is activated. Some B. theta TBDTs are also predicted to include two additional domains termed the N-terminal extension (NTE) and the Secretin and TonB N-terminus (STN) domain. The precise rearrangement of the plug domain to allow solute passage through the barrel is poorly understood but is facilitated by pairing to an inner membrane complex that harnesses proton motive force. This complex in E. coli includes the proteins TonB, ExbB, and ExbD. Recent structural analysis of this complex reveals the inner membrane spanning ExbB in a pentameric arrangement enclosed around a dimer of ExbD that extends into the periplasm. The structure of the complex with TonB has not been determined but other characterization of TonB suggests at least one copy of TonB interacts with the ExbBD complex via the TonB N-terminal membrane spanning -helix. This N-terminal -helix is followed by a linker region that spans the periplasm and a well-ordered C-terminal domain. The C-terminal domains of characterized TonB proteins share a common fold of three antiparallel -sheets with two -helices (28, 29). The final -strand at the C-terminus directly contacts the TBDT for -sheet pairing with the N-terminal extension of the TBDT plug domain called the TonBox.