Cellular sialoglycans are differentially required for endosomal and cell-surface entry of SARS-CoV-2 in lung cell lines.

Cell entry of severe acute respiratory coronavirus-2 (SARS-CoV-2) and other CoVs can occur via two distinct routes. Following receptor binding by the spike glycoprotein, membrane fusion can be triggered by spike cleavage either at the cell surface in a transmembrane serine protease 2 (TMPRSS2)-dependent manner or within endosomes in a cathepsin-dependent manner. Cellular sialoglycans have been proposed to aid in CoV attachment and entry, although their functional contributions to each entry pathway are unknown.

Skin-protective biological activities of bio-fermented extract by a consortium of microorganisms.

is a genus of plants in the Zingiberaceae family. It includes several species, some of which are used in cosmetics for their various properties, making them useful in skincare products, particularly for anti-aging, moisturizing, and brightening the skin. However, to date, there is no experimental evidence on its natural extracts obtained or modified using microorganisms (bio-fermentation) as an anti-aging agent.

One-Step Selective Labeling of Native Cell Surface Sialoglycans by Exogenous α2,8-Sialylation.

Exo-enzymatic glycan labeling strategies have emerged as versatile tools for efficient and selective installation of terminal glyco-motifs onto live cell surfaces. Through employing specific enzymes and nucleotide-sugar probes, cells can be equipped with defined glyco-epitopes for modulating cell function or selective visualization and enrichment of glycoconjugates. Here, we identifysialyltransferase Cst-II I53S as a tool for cell surface glycan modification, expanding the exo-enzymatic labeling toolkit to include installation of α2,8-disialyl epitopes.

Activation of TLR4 by viral glycoproteins: A double-edged sword?

Recognition of viral infection by pattern recognition receptors is paramount for a successful immune response to viral infection. However, an unbalanced proinflammatory response can be detrimental to the host. Recently, multiple studies have identified that the SARS-CoV-2 spike protein activates Toll-like receptor 4 (TLR4), resulting in the induction of proinflammatory cytokine expression.

Overview of The Canadian Clinician Investigator Trainees' Research Presented at CSCI-CITAC Joint Meeting.

The 2021 Annual Joint Meeting (AJM) and Young Investigators' Forum of the Canadian Society for Clinical Investigation / Société Canadienne de Recherches Clinique (CSCI/SCRC) and Clinician Investigator Trainee Association of Canada/Association des Cliniciens-Chercheurs en Formation du Canada (CITAC/ACCFC) was hosted virtually on November 14-16th, 2021. The theme of the AJM was "Communication, Collaboration, and Tools for the Next Generation of Clinician Scientists", and emphasized lectures, panels and interactive workshops designed to provide knowledge and skills for professional development of clinician investigator trainees. The opening remarks were given by Nicola Jones (President of CSCI/SCRC) and Adam Pietrobon (Past President of CITAC/ACCFC).

The green tea catechin EGCG provides proof-of-concept for a pan-coronavirus attachment inhibitor.

The COVID-19 pandemic caused by the severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) has emphasized the serious threat to human health posed by emerging coronaviruses. Effective broadly-acting antiviral countermeasures are urgently needed to prepare for future emerging CoVs, as vaccine development is not compatible with a rapid response to a newly emerging virus. The green tea catechin, epigallocatechin gallate (EGCG), has broad-spectrum antiviral activity, although its mechanisms against coronavirus (CoV) infection have remained unclear.

Adaptive laboratory evolution in S. cerevisiae highlights role of transcription factors in fungal xenobiotic resistance.

In vitro evolution and whole genome analysis were used to comprehensively identify the genetic determinants of chemical resistance in Saccharomyces cerevisiae. Sequence analysis identified many genes contributing to the resistance phenotype as well as numerous amino acids in potential targets that may play a role in compound binding. Our work shows that compound-target pairs can be conserved across multiple species.

Overview Of The Canadian Clinician Investigator Trainees' Research Presented At The 2020 CSCI-CITAC Joint Meeting.

The 2020 Annual General Meeting (AGM) and Young Investigators’ Forum of the Canadian Society for Clinical Investigation / Société Canadienne de Recherches Clinique (CSCI/SCRC) and Clinician Investigator Trainee Association of Canada/Association des Cliniciens-Chercheurs en Formation du Canada (CITAC/ACCFC) was the first meeting to be hosted virtually. The theme was “Navigating Uncertainty, Embracing Change and Empowering the Next Generation of Clinician-Scientists”, and the meeting featured lectures and workshops that were designed to provide knowledge and skills for professional development of clinician investigator trainees. The opening remarks were given by Jason Berman (President of CSCI/SCRC), Tina Marvasti (President of CITAC/ACCFC) and Nicola Jones (University of Toronto Clinician Investigator Program Symposium Chair).

Hepatitis C Virus Glycan-Dependent Interactions and the Potential for Novel Preventative Strategies.

Chronic hepatitis C virus (HCV) infections continue to be a major contributor to liver disease worldwide. HCV treatment has become highly effective, yet there are still no vaccines or prophylactic strategies available to prevent infection and allow effective management of the global HCV burden. Glycan-dependent interactions are crucial to many aspects of the highly complex HCV entry process, and also modulate immune evasion.

SARS-CoV-2 RNA: Exclusive friends and common foes.

Infection with SARS-CoV-2 sets off a molecular arms race between virus replication and host cell defense. In this issue of Cell, Flynn, Belk, et al. integrate an advanced large-scale RNA-centered approach with custom CRISPR screens to functionally characterize the interactome of the SARS-CoV-2 RNA genome during infection.

A dual antibody test for accurate surveillance of SARS-CoV-2 exposure rates.

Accurate population surveillance of SARS-CoV-2 infection has been hampered by limited testing and inadequate serological assays. In a recent issue of , Hippich et al. describe a two-step antibody test with 100% specificity, revealing higher-than-reported SARS-CoV-2 exposure rates in children.

Fluorescence Polarization-Based Measurement of Protein-Ligand Interaction in Fungal Cell Lysates.

Fungi infect over a billion people worldwide and contribute substantially to human morbidity and mortality despite all available therapies. New antifungal drugs are urgently needed. Decades of study have revealed numerous protein targets of potential therapeutic interest for which potent, fungal-selective ligands remain to be discovered and developed.

Fungal-Selective Resorcylate Aminopyrazole Hsp90 Inhibitors: Optimization of Whole-Cell Anticryptococcal Activity and Insights into the Structural Origins of Cryptococcal Selectivity.

The essential eukaryotic chaperone Hsp90 regulates the form and function of diverse client proteins, many of which govern thermotolerance, virulence, and drug resistance in fungal species. However, use of Hsp90 inhibitors as antifungal therapeutics has been precluded by human host toxicities and suppression of immune responses. We recently described resorcylate aminopyrazoles (RAPs) as the first class of Hsp90 inhibitors capable of discriminating between fungal (, ) and human isoforms of Hsp90 in biochemical assays.

Structure-guided approaches to targeting stress responses in human fungal pathogens.

Fungi inhabit extraordinarily diverse ecological niches, including the human body. Invasive fungal infections have a devastating impact on human health worldwide, killing ∼1.5 million individuals annually.

Design and Synthesis of Fungal-Selective Resorcylate Aminopyrazole Hsp90 Inhibitors.

The molecular chaperone Hsp90, essential in all eukaryotes, plays a multifaceted role in promoting survival, virulence, and drug resistance across diverse pathogenic fungal species. The chaperone is also critically important, however, to the pathogen's human host, preventing the use of known clinical Hsp90 inhibitors in antifungal applications due to concomitant host toxicity issues. With the goal of developing Hsp90 inhibitors with acceptable therapeutic indices for the treatment of invasive fungal infections, we initiated a program to design and synthesize potent inhibitors with selective activity against fungal Hsp90 isoforms over their human counterparts.

Structural basis for species-selective targeting of Hsp90 in a pathogenic fungus.

New strategies are needed to counter the escalating threat posed by drug-resistant fungi. The molecular chaperone Hsp90 affords a promising target because it supports survival, virulence and drug-resistance across diverse pathogens. Inhibitors of human Hsp90 under development as anticancer therapeutics, however, exert host toxicities that preclude their use as antifungals.

Skin protection against dicarbonyl stress by the glyoxalase system.

Skin ageing is the result of intrinsic and photo-ageing, due to UV exposure, that both share important molecular features including alterations of proteins. Indeed, proteins can be modified by many molecular processes such as glycation. Glycation occurs when glucose or its derivates the dicarbonyl compounds glyoxal (GO) and methylglyoxal (MG) react with amines of proteins leading to the formation of advanced glycation endproducts (AGE).