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  • Title: Characterization of the binding and internalization of tetanus toxin in a neuroblastoma hybrid cell line.
    Author: Staub GC, Walton KM, Schnaar RL, Nichols T, Baichwal R, Sandberg K, Rogers TB.
    Journal: J Neurosci; 1986 May; 6(5):1443-51. PubMed ID: 3711989.
    Abstract:
    Tetanus toxin is known to bind neuronal tissue selectively. To study the interactions of this potent neurotoxin in an intact cell system, the binding of 125I-tetanus toxin was characterized in a neuroblastoma retina hybrid cell line, N18-RE-105. The binding of 125I-tetanus toxin to membranes prepared from N18-RE-105 cells showed many similarities to the interactions of 125I-toxin with rat synaptic membranes. The binding was decreased with increasing temperature, ionic strength, and pH. 125I-Toxin bound to membranes with high affinity: KD = 0.62 +/- 0.05 nM; Bmax = 196 +/- 45 pmol/mg protein. Quantitative thin-layer chromatography and acid-degradation analysis revealed that N18-RE-105 cells contained polysialogangliosides GD1a and GT1b in high concentrations. An assay was developed to quantitate surface-bound and internalized 125I-tetanus toxin by exploiting the observation that surface-bound 125I-toxin is susceptible to pronase digestion. When cells were incubated with 125I-tetanus toxin at 0 degree C, all of the bound 125I-toxin could be degraded with pronase. In contrast, when the incubations were performed at 37 degrees C, within 10 min about 50% of the total cell-associated 125I-toxin was pronase-resistant. Temperature pulse experiments demonstrated that 125I-tetanus toxin that was bound to cells at 0 degree C rapidly disappeared from the surface when the cells were warmed to 37 degrees C, as revealed by the appearance of pronase-resistant radioactivity. This internalization was sensitive to metabolic inhibitors.(ABSTRACT TRUNCATED AT 250 WORDS)
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