Deoxyarbutin targets mitochondria to trigger p53-dependent senescence of glioblastoma cells.

Cellular senescence is a natural barrier of the transition from premalignant cells to invasive cancer. Pharmacological induction of senescence has been proposed as a possible anticancer strategy. In this study, we found that deoxyarbutin inhibited the growth of glioblastoma (GBM) cells by inducing cellular senescence, independent of tyrosinase expression.

Structural basis of chitin utilization by a GH20 β-N-acetylglucosaminidase from Vibrio campbellii strain ATCC BAA-1116.

Vibrio species play a crucial role in maintaining the carbon and nitrogen balance between the oceans and the land through their ability to employ chitin as a sole source of energy. This study describes the structural basis for the action of the GH20 β-N-acetylglucosaminidase (VhGlcNAcase) in chitin metabolism by Vibrio campbellii (formerly V. harveyi) strain ATCC BAA-1116.

NAG-thiazoline is a potent inhibitor of the Vibrio campbellii GH20 β-N-Acetylglucosaminidase.

Vibrio spp. play a vital role in the recycling of chitin in oceans, but several Vibrio strains are highly infectious to aquatic animals and humans. These bacteria require chitin for growth; thus, potent inhibitors of chitin-degrading enzymes could serve as candidate drugs against Vibrio infections.

Novel GH-20 β-N-acetylglucosaminidase inhibitors: Virtual screening, molecular docking, binding affinity, and anti-tumor activity.

β-N-acetylglucosaminidases (GlcNAcases) play a crucial role in the metabolism of glycan-conjugated proteins/lipids in humans. Elevated levels of serum GlcNAcases have been associated with certain types of cancer, and GlcNAcases therefore serve as drug targets. Here, we employed virtual screening to identify two novel GlcNAcase inhibitors from the National Cancer Institute (NCI) Drug Library using a bacterial GH-20 GlcNAcase (VhGlcNAcase) as a search model.

Potent inhibition of a GH20 exo-β-N-acetylglucosaminidase from marine Vibrio bacteria by reaction intermediate analogues.

Exo-β-N-acetylglucosaminidases (GlcNAcases) are hydrolytic enzymes involved in the metabolism of chitin in bacteria and in eukaryotic glycosphingolipid metabolism, with genetic defects in human GlcNAcases (HexA and HexB) resulting in Tay-Sachs and Sandhoff diseases, respectively. Here, we determined the effects of three known inhibitors of exo-β-N-acetylglucosaminidases (PUGNAc, NHAcCAS and NHAcDNJ) on a GH20 exo-β-N-GlcNAcase (VhGlcNAcase) from the pathogenic bacterium Vibrio harveyi, in dose-response experiments. The inhibitors were shown to modify the kinetic parameters (both K and k), yielding significant decreases in the overall efficiency of the enzyme in hydrolyzing the natural substrate diNAG.

Investigation of Ionization Pattern of the Adjacent Acidic Residues in the DXDXE Motif of GH-18 Chitinases Using Theoretical pK Calculations.

GH-18 chitinases are chitinolytic enzymes, primarily responsible for the recycling of insoluble chitin biomaterials. These enzymes contain three invariant acidic active-site residues within a DXDXE motif, which play a synergistic role in the catalytic cycle of chitin degradation. We employed a pK calculation approach to approximate the protonation states of residues D1, D2, and E in the DXDXE motif of 75 GH-18 chitinases.

Probing the Catalytic Mechanism of Vibrio harveyi GH20 β-N-Acetylglucosaminidase by Chemical Rescue.

Background: Vibrio harveyi GH20 β-N-acetylglucosaminidase (VhGlcNAcase) is a chitinolytic enzyme responsible for the successive degradation of chitin fragments to GlcNAc monomers, activating the onset of the chitin catabolic cascade in marine Vibrios.

Methods: Two invariant acidic pairs (Asp303-Asp304 and Asp437-Glu438) of VhGlcNAcase were mutated using a site-directed mutagenesis strategy. The effects of these mutations were examined and the catalytic roles of these active-site residues were elucidated using a chemical rescue approach.

Expression, purification, crystallization and preliminary crystallographic analysis of a GH20 β-N-acetylglucosaminidase from the marine bacterium Vibrio harveyi.

Vibrio harveyi β-N-acetylglucosaminidase (VhGlcNAcase) is a new member of the GH20 glycoside hydrolase family responsible for the complete degradation of chitin fragments, with N-acetylglucosamine (GlcNAc) monomers as the final products. In this study, the crystallization and preliminary crystallographic data of wild-type VhGlcNAcase and its catalytically inactive mutant D437A in the absence and the presence of substrate are reported. Crystals of wild-type VhGlcNAcase were grown in 0.