27 research outputs found
O-GlcNAcase Fragment Discovery with Fluorescence Polarimetry
The
attachment of the sugar N-acetyl-D-glucosamine (GlcNAc) to
specific serine and threonine residues on proteins is referred to
as protein O-GlcNAcylation. O-GlcNAc transferase (OGT) is the enzyme
responsible for carrying out the modification, while O-GlcNAcase (OGA)
reverses it. Protein O-GlcNAcylation has been implicated in a wide
range of cellular processes including transcription, proteostasis,
and stress response. Dysregulation of O-GlcNAc has been linked to
diabetes, cancer, and neurodegenerative and cardiovascular disease.
OGA has been proposed to be a drug target for the treatment of Alzheimer’s
and cardiovascular disease given that increased O-GlcNAc levels appear
to exert a protective effect. The search for specific, potent, and
drug-like OGA inhibitors with bioavailability in the brain is therefore
a field of active research, requiring orthogonal high-throughput assay
platforms. Here, we describe the synthesis of a novel probe for use
in a fluorescence polarization based assay for the discovery of inhibitors
of OGA. We show that the probe is suitable for use with both human
OGA, as well as the orthologous bacterial counterpart from <i>Clostridium perfringens</i>, <i>Cp</i>OGA, and the
lysosomal hexosaminidases HexA/B. We structurally characterize <i>Cp</i>OGA in complex with a ligand identified from a fragment
library screen using this assay. The versatile synthesis procedure
could be adapted for making fluorescent probes for the assay of other
glycoside hydrolases
Direct Monitoring of Protein O-GlcNAcylation by High-Resolution Native Mass Spectrometry
O-GlcNAcylation is one of the most
abundant metazoan nuclear-cytoplasmic post-translational modifications.
Proteins modified by O-GlcNAc play key cellular roles in signaling,
transcription, metabolism, and cell division. Mechanistic studies
on protein O-GlcNAcylation are hampered by the lack of methods that
can simultaneously quantify O-GlcNAcylation, determine its stoichiometry,
and monitor O-GlcNAcylation kinetics. Here, we demonstrate that high-resolution
native mass spectrometry can be employed to monitor the small mass
shifts induced by modification by O-GlcNAc on two known protein substrates,
CK2α and TAB1, without the need for radioactive labeling or
chemoenzymatic tagging using large mass tags. Limited proteolysis
enabled further localization of the O-GlcNAc sites. In peptide-centric
MS analysis, the O-GlcNAc moiety is known to be easily lost. In contrast,
we demonstrate that the O-GlcNAc is retained under native MS conditions,
enabling precise quantitative analysis of stoichiometry and O-GlcNAcylation
kinetics. Together, the data highlight that high resolution native
MS may provide an alternative tool to monitor kinetics on one of the
most labile of protein post-translational modifications, in an efficient,
reliable, and quantitative manner
Thio-linked UDP-peptide conjugates as O-GlcNAc transferase inhibitors
O-GlcNAc
transferase (OGT) is an essential glycosyltransferase
that installs the O-GlcNAc post-translational modification on the
nucleocytoplasmic proteome. We report the development of S-linked
UDP–peptide conjugates as potent bisubstrate OGT inhibitors.
These compounds were assembled in a modular fashion by photoinitiated
thiol–ene conjugation of allyl-UDP and optimal acceptor peptides
in which the acceptor serine was replaced with cysteine. The conjugate
VTPVC(S-propyl-UDP)TA (<i>K</i><sub>i</sub> = 1.3 μM)
inhibits the OGT activity in HeLa cell lysates. Linear fusions of
this conjugate with cell penetrating peptides were explored as prototypes
of cell-penetrant OGT inhibitors. A crystal structure of human OGT
with the inhibitor revealed mimicry of the interactions seen in the
pseudo-Michaelis complex. Furthermore, a fluorophore-tagged derivative
of the inhibitor works as a high affinity probe in a fluorescence
polarimetry hOGT assay
Activity-based E3 ligase profiling uncovers an E3 ligase with esterification activity
Ubiquitination is initiated by transfer of ubiquitin (Ub) from a ubiquitin-activating enzyme (E1) to a ubiquitin-conjugating enzyme (E2), producing a covalently linked intermediate (E2-Ub)(1). Ubiquitin ligases (E3s) of the 'really interesting new gene' (RING) class recruit E2-Ub via their RING domain and then mediate direct transfer of ubiquitin to substrates(2). By contrast, 'homologous to E6-AP carboxy terminus' (HECT) E3 ligases undergo a catalytic cysteine-dependent transthiolation reaction with E2-Ub, forming a covalent E3-Ub intermediate(3,4). Additionally, RING-between-RING (RBR) E3 ligases have a canonical RING domain that is linked to an ancillary domain. This ancillary domain contains a catalytic cysteine that enables a hybrid RING-HECT mechanism(5). Ubiquitination is typically considered a post-translational modification of lysine residues, as there are no known human E3 ligases with non-lysine activity. Here we perform activity-based protein profiling of HECT or RBR-like E3 ligases and identify the neuron-associated E3 ligase MYCBP2 (also known as PHR1) as the apparent single member of a class of RING-linked E3 ligase with esterification activity and intrinsic selectivity for threonine over serine. MYCBP2 contains two essential catalytic cysteine residues that relay ubiquitin to its substrate via thioester intermediates. Crystallographic characterization of this class of E3 ligase, which we designate RING-Cys-relay (RCR), provides insights into its mechanism and threonine selectivity. These findings implicate non-lysine ubiquitination in cellular regulation of higher eukaryotes and suggest that E3 enzymes have an unappreciated mechanistic diversity
Intraperitoneal drain placement and outcomes after elective colorectal surgery: international matched, prospective, cohort study
Despite current guidelines, intraperitoneal drain placement after elective colorectal surgery remains widespread. Drains were not associated with earlier detection of intraperitoneal collections, but were associated with prolonged hospital stay and increased risk of surgical-site infections.Background Many surgeons routinely place intraperitoneal drains after elective colorectal surgery. However, enhanced recovery after surgery guidelines recommend against their routine use owing to a lack of clear clinical benefit. This study aimed to describe international variation in intraperitoneal drain placement and the safety of this practice. Methods COMPASS (COMPlicAted intra-abdominal collectionS after colorectal Surgery) was a prospective, international, cohort study which enrolled consecutive adults undergoing elective colorectal surgery (February to March 2020). The primary outcome was the rate of intraperitoneal drain placement. Secondary outcomes included: rate and time to diagnosis of postoperative intraperitoneal collections; rate of surgical site infections (SSIs); time to discharge; and 30-day major postoperative complications (Clavien-Dindo grade at least III). After propensity score matching, multivariable logistic regression and Cox proportional hazards regression were used to estimate the independent association of the secondary outcomes with drain placement. Results Overall, 1805 patients from 22 countries were included (798 women, 44.2 per cent; median age 67.0 years). The drain insertion rate was 51.9 per cent (937 patients). After matching, drains were not associated with reduced rates (odds ratio (OR) 1.33, 95 per cent c.i. 0.79 to 2.23; P = 0.287) or earlier detection (hazard ratio (HR) 0.87, 0.33 to 2.31; P = 0.780) of collections. Although not associated with worse major postoperative complications (OR 1.09, 0.68 to 1.75; P = 0.709), drains were associated with delayed hospital discharge (HR 0.58, 0.52 to 0.66; P < 0.001) and an increased risk of SSIs (OR 2.47, 1.50 to 4.05; P < 0.001). Conclusion Intraperitoneal drain placement after elective colorectal surgery is not associated with earlier detection of postoperative collections, but prolongs hospital stay and increases SSI risk
The structure of enteric human adenovirus 41 : A leading cause of diarrhea in children
Human adenovirus (HAdV) types F40 and F41 are a prominent cause of diarrhea and diarrhea-associated mortality in young children worldwide. These enteric HAdVs differ notably in tissue tropism and pathogenicity from respiratory and ocular adenoviruses, but the structural basis for this divergence has been unknown. Here, we present the first structure of an enteric HAdV-HAdV-F41-determined by cryo-electron microscopy to a resolution of 3.8 angstrom. The structure reveals extensive alterations to the virion exterior as compared to nonenteric HAdVs, including a unique arrangement of capsid protein IX. The structure also provides new insights into conserved aspects of HAdV architecture such as a proposed location of core protein V, which links the viral DNA to the capsid, and assembly-induced conformational changes in the penton base protein. Our findings provide the structural basis for adaptation of enteric HAdVs to a fundamentally different tissue tropism
Ohjaamon pulpettilaitteiden, kattokonsolien ja näyttöjen keskitetyn himmennysjärjestelmän toteutusvaihtoehtojen kartoitus ja kehitys
Työn tarkoituksena kehittää laivan ohjaamoon keskitetty himmennysjärjestelmä. Himmennysjärjestelmään tulisi liittää pulpettilaitteita, kattokonsoleita ja näyttöjä.
Esimerkki laivaksi otettiin NB 1378, Namibiaan toimitettava kalantutkimukseen menevä alus.
Työ aloitettiin selvittämällä mitä laitteita aluksen ohjaamo sisältää ja tutkimalla niiden layout-piirustuksia, samalla selvittäen miten laitteet olisi mahdollista liittää uuteen himmennysjärjestelmään.The purpose of this thesis is the development of centralized dimming system for a ship. Dimming system should be connected to booth equipment, roof consoles and monitors.
The example ship used in the thesis is NB 1378, fish research vessel.
The work began by identifying the equipment that is located in the ship's bridge and deck and studying their layout drawings