Ation, properties [2,4?]. Upon cytosolic entry, A-components mono-ADP-ribosylate globular (G)-actin at

Ation, properties [2,4?]. Upon cytosolic entry, A-components mono-ADP-ribosylate globular (G)-actin at

Ation, properties [2,4?]. Upon cytosolic entry, A-components mono-ADP-ribosylate globular (G)-actin at arginine-177 that then inhibits actin filament formation and destroys the cytoskeleton, ultimately rounding cells [2]. Iota, CDT, and CST toxins represent the iota family that share high sequence homology (81 identity among B components), form functional inter-species chimeras, and are cross-neutralized by heterologous antibody [1?3]. In contrast, C2 toxin does not form biologically-active chimeras with any iota-family components. The B components of iota-family and C2 toxins share only 44 sequence identity, and the latter uniquely binds to asparagine-linked carbohydrates on an unidentified cell-surface protein [8,9]. Recent reports reveal that lipolysis-stimulated lipoprotein receptor (LSR) is a cell-surfacereceptor for C. difficile CDT, C. perfringens iota toxin, and C. spiroforme CST [10,11]. In contrast, C. botulinum C2 toxin does not bind LSR [10]. These binary toxins form complexes on targeted cells after Emixustat (hydrochloride) release from the bacterium as separate proteins [1,2,12?7]. B components initially bind to the cell surface, either as monomer or ring-shaped homo-heptamers formed in solution, and the A components dock to B components on the cell surface. These AB complexes are internalized into endosomes, followed by A component(s) release into the cytosol via pores formed by B heptamers under acidic conditions [2,12,14?8]. Previous studies reveal that the protease-activated B component of iota toxin (Ib) associates with lipid rafts on Vero cells [14,17] via a pronase-susceptible protein not affected by other proteases, lipases, or lectins [13]. To facilitate discovery of potential proteins involved in the intoxication process, there was quantitative 18 O/16O-based proteomic profiling of lipid rafts isolated from Vero cells incubated with, and without, Ib [19]. Results revealed ninety different proteins with increased relative concentrations in lipid rafts from cells incubated with Ib. One of the proteins most get A 196 highly enriched in Ib-containing rafts was CD44, a type I cell-CD44 and Iota-Family Toxinssurface glycoprotein involved in diverse functions among different cell types [20,21]. We performed a series of experiments with cultured cells, as well as animals, to investigate whether CD44 is involved in the mode of action of clostridial binary toxins. Results implicate a role for CD44 during intoxication by the iota-family toxins.Results Reducing Agent or Antibody Against CD44 Inhibits Iota CytotoxicityDisulfide-driven clustering of CD44 on the cell surface promotes binding of a natural ligand (hyaluronan) to cells and is inhibited by a reducing agent like dithiothreitol (DTT) [22]. As iota toxin also forms oligomers on Vero and MDCK cells [14,16,17,23], and CD44 was our top proteomics-based candidate involved in intoxication of Vero cells, 15755315 we first examined if DTT had any overt effect upon iota intoxication. Figure 1A shows that either 5 or 10 mM DTT significantly delayed overt rounding due to iota activity, versus cells incubated with toxin alone. However, by 12 h the DTT-treated Vero cells eventually rounded due to iota toxin. In contrast, Vero cells incubated with high picomolar concentrations of C2 toxin were not protected by 10 mM DTT (data not shown). Control cells incubated with either 5 or 10 mM DTT alone showed no change in morphology. Regarding the effects of DTT upon each component of iota toxin, we first excluded that DTT (10 and.Ation, properties [2,4?]. Upon cytosolic entry, A-components mono-ADP-ribosylate globular (G)-actin at arginine-177 that then inhibits actin filament formation and destroys the cytoskeleton, ultimately rounding cells [2]. Iota, CDT, and CST toxins represent the iota family that share high sequence homology (81 identity among B components), form functional inter-species chimeras, and are cross-neutralized by heterologous antibody [1?3]. In contrast, C2 toxin does not form biologically-active chimeras with any iota-family components. The B components of iota-family and C2 toxins share only 44 sequence identity, and the latter uniquely binds to asparagine-linked carbohydrates on an unidentified cell-surface protein [8,9]. Recent reports reveal that lipolysis-stimulated lipoprotein receptor (LSR) is a cell-surfacereceptor for C. difficile CDT, C. perfringens iota toxin, and C. spiroforme CST [10,11]. In contrast, C. botulinum C2 toxin does not bind LSR [10]. These binary toxins form complexes on targeted cells after release from the bacterium as separate proteins [1,2,12?7]. B components initially bind to the cell surface, either as monomer or ring-shaped homo-heptamers formed in solution, and the A components dock to B components on the cell surface. These AB complexes are internalized into endosomes, followed by A component(s) release into the cytosol via pores formed by B heptamers under acidic conditions [2,12,14?8]. Previous studies reveal that the protease-activated B component of iota toxin (Ib) associates with lipid rafts on Vero cells [14,17] via a pronase-susceptible protein not affected by other proteases, lipases, or lectins [13]. To facilitate discovery of potential proteins involved in the intoxication process, there was quantitative 18 O/16O-based proteomic profiling of lipid rafts isolated from Vero cells incubated with, and without, Ib [19]. Results revealed ninety different proteins with increased relative concentrations in lipid rafts from cells incubated with Ib. One of the proteins most highly enriched in Ib-containing rafts was CD44, a type I cell-CD44 and Iota-Family Toxinssurface glycoprotein involved in diverse functions among different cell types [20,21]. We performed a series of experiments with cultured cells, as well as animals, to investigate whether CD44 is involved in the mode of action of clostridial binary toxins. Results implicate a role for CD44 during intoxication by the iota-family toxins.Results Reducing Agent or Antibody Against CD44 Inhibits Iota CytotoxicityDisulfide-driven clustering of CD44 on the cell surface promotes binding of a natural ligand (hyaluronan) to cells and is inhibited by a reducing agent like dithiothreitol (DTT) [22]. As iota toxin also forms oligomers on Vero and MDCK cells [14,16,17,23], and CD44 was our top proteomics-based candidate involved in intoxication of Vero cells, 15755315 we first examined if DTT had any overt effect upon iota intoxication. Figure 1A shows that either 5 or 10 mM DTT significantly delayed overt rounding due to iota activity, versus cells incubated with toxin alone. However, by 12 h the DTT-treated Vero cells eventually rounded due to iota toxin. In contrast, Vero cells incubated with high picomolar concentrations of C2 toxin were not protected by 10 mM DTT (data not shown). Control cells incubated with either 5 or 10 mM DTT alone showed no change in morphology. Regarding the effects of DTT upon each component of iota toxin, we first excluded that DTT (10 and.

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