GlyComb: A novel glycoconjugate data repository that bridges glycomics and proteomics.

The glycosylation of proteins and lipids is known to be closely related to the mechanisms of various diseases such as influenza, cancer, and muscular dystrophy. Therefore, it has become clear that the analysis of post-translational modifications of proteins, including glycosylation, is important to accurately understand the functions of each protein molecule and the interactions among them. In order to conduct large-scale analyses more efficiently, it is essential to promote the accumulation, sharing, and reuse of experimental and analytical data in accordance with the FAIR (Findability, Accessibility, Interoperability, and Re-usability) data principles. However, a FAIR data repository for storing and sharing glycoconjugate information, including glycopeptides and glycoproteins, in a standardized format did not exist. Therefore, we have developed GlyComb (https://glycomb.glycosmos.org) as a new standardized data repository for glycoconjugate data. Currently, GlyComb can assign a unique identifier to a set of glycosylation information associated with a specific peptide sequence or UniProt ID. By standardizing glycoconjugate data via GlyComb identifiers and coordinating with existing web resources such as GlyTouCan and GlycoPOST, a comprehensive system for data submission and data sharing among researchers can be established. Here we introduce how GlyComb is able to integrate the variety of glycoconjugate data already registered in existing data repositories to obtain a better understanding of the available glycopeptides and glycoproteins, and their glycosylation patterns. We also explain how this system can serve as a foundation for a better understanding of glycan function.

Bridging glycoinformatics and cheminformatics: integration efforts between GlyCosmos and PubChem.

The GlyCosmos Glycoscience Portal (https://glycosmos.org) and PubChem (https://pubchem.ncbi.nlm.nih.gov/) are major portals for glycoscience and chemistry, respectively. GlyCosmos is a portal for glycan-related repositories, including GlyTouCan, GlycoPOST, and UniCarb-DR, as well as for glycan-related data resources that have been integrated from a variety of 'omics databases. Glycogenes, glycoproteins, lectins, pathways, and disease information related to glycans are accessible from GlyCosmos. PubChem, on the other hand, is a chemistry-based portal at the National Center for Biotechnology Information. PubChem provides information not only on chemicals, but also genes, proteins, pathways, as well as patents, bioassays, and more, from hundreds of data resources from around the world. In this work, these 2 portals have made substantial efforts to integrate their complementary data to allow users to cross between these 2 domains. In addition to glycan structures, key information, such as glycan-related genes, relevant diseases, glycoproteins, and pathways, was integrated and cross-linked with one another. The interfaces were designed to enable users to easily find, access, download, and reuse data of interest across these resources. Use cases are described illustrating and highlighting the type of content that can be investigated. In total, these integrations provide life science researchers improved awareness and enhanced access to glycan-related information.

GALAXY ver3: updated web application for glycosylation profiling based on 3D HPLC map.

High-performance liquid chromatography (HPLC) elution data provide a useful tool for quantitative glycosylation profiling, discriminating isomeric oligosaccharides. The web application Glycoanalysis by the Three Axes of MS and Chromatography (GALAXY), which is based on the three-dimensional HPLC map of N-linked oligosaccharides with pyridyl-2-amination developed by Dr. Noriko Takahashi, has been extensively used for N-glycosylation profiling at molecular, cellular, and tissue levels. Herein, we describe the updated GALAXY as version 3, which includes new HPLC data including those of glucuronylated and sulfated glycans, an improved graphical user interface using modern technologies, and linked to glycan information in GlyTouCan and the GlyCosmos Portal. This liaison will facilitate glycomic analyses of human and other organisms in conjunction with multiomics data.

The international glycan repository GlyTouCan version 3.0.

Glycans serve important roles in signaling events and cell-cell communication, and they are recognized by lectins, viruses and bacteria, playing a variety of roles in many biological processes. However, there was no system to organize the plethora of glycan-related data in the literature. Thus GlyTouCan (https://glytoucan.org) was developed as the international glycan repository, allowing researchers to assign accession numbers to glycans. This also aided in the integration of glycan data across various databases. GlyTouCan assigns accession numbers to glycans which are defined as sets of monosaccharides, which may or may not be characterized with linkage information. GlyTouCan was developed to be able to recognize any level of ambiguity in glycans and uniquely assign accession numbers to each of them, regardless of the input text format. In this manuscript, we describe the latest update to GlyTouCan in version 3.0, its usage, and plans for future development.

MCAW-DB: A glycan profile database capturing the ambiguity of glycan recognition patterns.

Glycan-binding protein (GBP) interaction experiments, such as glycan microarrays, are often used to understand glycan recognition patterns. However, oftentimes the interpretation of glycan array experimental data makes it difficult to identify discrete GBP binding patterns due to their ambiguity. It is known that lectins, for example, are non-specific in their binding affinities; the same lectin can bind to different monosaccharides or even different glycan structures. In bioinformatics, several tools to mine the data generated from these sorts of experiments have been developed. These tools take a library of predefined motifs, which are commonly-found glycan patterns such as sialyl-Lewis X, and attempt to identify the motif(s) that are specific to the GBP being analyzed. In our previous work, as opposed to using predefined motifs, we developed the Multiple Carbohydrate Alignment with Weights (MCAW) tool to visualize the state of the glycans being recognized by the GBP under analysis. We previously reported on the effectiveness of our tool and algorithm by analyzing several glycan array datasets from the Consortium of Functional Glycomics (CFG). In this work, we report on our analysis of 1081 data sets which we collected from the CFG, the results of which we have made publicly and freely available as a database called MCAW-DB. We introduce this database, its usage and describe several analysis results. We show how MCAW-DB can be used to analyze glycan-binding patterns of GBPs amidst their ambiguity. For example, the visualization of glycan-binding patterns in MCAW-DB show how they correlate with the concentrations of the samples used in the array experiments. Using MCAW-DB, the patterns of glycans found to bind to various GBP-glycan binding proteins are visualized, indicating the binding "environment" of the glycans. Thus, the ambiguity of glycan recognition is numerically represented, along with the patterns of monosaccharides surrounding the binding region. The profiles in MCAW-DB could potentially be used as predictors of affinity of unknown or novel glycans to particular GBPs by comparing how well they match the existing profiles for those GBPs. Moreover, as the glycan profiles of diseased tissues become available, glycan alignments could also be used to identify glycan biomarkers unique to that tissue. Databases of these alignments may be of great use for drug discovery.

Repeated resection for extrahepatic recurrences after hepatectomy for ruptured hepatocellular carcinoma.

In March 1999, a 54-year-old man with chronic hepatitis C was referred to our hospital because of ruptured hepatocellular carcinoma (HCC) located in Couinaud's segments 4 and 8. He underwent central bisegmentectomy of the liver with partial resection of the diaphragm. After the first surgery, extrahepatic metastases were found on different occasions in the abdominal wall, thoracic cavity, and greater omentum and were all surgically resected. In February 2001, the serum protein induced by vitamin K absence or antagonist-II (PIVKA-II) level increased markedly to 19,000 mAU/l. Magnetic resonance imaging showed a massive right subphrenic tumor with invasion to the right diaphragm and posterior segment of the liver. The patient underwent en bloc resection of the tumor, diaphragm, posterior segment of the liver, and right lower pulmonary lobe. After the surgery, the PIVKA-II level rapidly decreased, and it has remained within the normal range to date. Two years after the last surgery, the patient is doing well without any extrahepatic recurrence, although small intrahepatic recurrences have been completely treated by radiofrequency ablation and transcatheter arterial chemoembolization. Ruptured HCC often exacerbates the risk of peritoneal dissemination and is usually difficult to completely resect. This is an extremely rare case of a patient who successfully underwent five repeated resections for extrahepatic recurrences after hepatectomy for ruptured HCC.