Last J A, Kaizu T
Environ Health Perspect. 1980 Apr;35:131-7. doi: 10.1289/ehp.8035131.
Tracheal slices incubated with radioactive precursors in tissue culture medium secrete labeled mucus glycoproteins into the culture medium. We have used an in vivtro approach, a combined method utilizing exposure to pneumotoxins in vivo coupled with quantitation of mucus secretion rates in vitro, to study the effects of inhaled pollutants on mucus biosynthesis by rat airways. In addition, we have purified the mucus glycoproteins secreted by rat tracheal explants in order to determine putative structural changes that might by the basis for the observed augmented secretion rates after exposure of rats to H2SO4 aerosols in combination with high ambient levels of ozone. After digestion with papain, mucus glycoproteins secreted by tracheal explants may be separated into five fractions by ion-exchange chromatography, with recovery in high yield, on columns of DEAE-cellulose. Each of these five fractions, one neutral and four acidic, migrates as a single unique spot upon cellulose acetate electrophoresis at pH values of 8.6 and 1.2. The neutral fraction, which is labeled with [3H] glucosamine, does not contain radioactivity when Na2 35SO4 is used as the precursor. Acidic fractions I-IV are all labeled with either 3H-glucosamine or Na2 35SO4 as precursor. Acidic fraction II contains sialic acid as the terminal sugar on its oligosaccharide side chains, based upon its chromatographic behavior on columns of wheat-germ agglutinin-Agarose. Treatment of this fraction with neuraminidase shifts its elution position in the gradient to a lower salt concentration, coincident with acidic fraction I. After removal of terminal sialic acid residues with either neuraminidase or low pH treatment, the resultant terminal sugar on the oligosaccharide side chains is fucose. These results are identical with those observed with mucus glycoproteins secreted by cultured human tracheal explants and purified by these same techniques.
在组织培养基中用放射性前体孵育的气管切片会将标记的黏液糖蛋白分泌到培养基中。我们采用了一种体内外相结合的方法,即先在体内暴露于肺毒素,再在体外定量黏液分泌速率,来研究吸入污染物对大鼠气道黏液生物合成的影响。此外,我们还纯化了大鼠气管外植体分泌的黏液糖蛋白,以确定在大鼠暴露于硫酸气溶胶并结合高环境水平臭氧后观察到的分泌速率增加可能基于的假定结构变化。用木瓜蛋白酶消化后,气管外植体分泌的黏液糖蛋白可通过离子交换色谱法在DEAE - 纤维素柱上分离成五个组分,且回收率高。这五个组分中,一个是中性的,四个是酸性的,在pH值为8.6和1.2的醋酸纤维素电泳上均迁移为单个独特的斑点。用[³H]葡糖胺标记的中性组分,当使用Na₂³⁵SO₄作为前体时不含有放射性。酸性组分I - IV均用³H - 葡糖胺或Na₂³⁵SO₄作为前体进行标记。基于其在麦胚凝集素 - 琼脂糖柱上的色谱行为,酸性组分II在其寡糖侧链上含有唾液酸作为末端糖。用神经氨酸酶处理该组分后,其在梯度洗脱中的位置会移至较低盐浓度处,与酸性组分I一致。用神经氨酸酶或低pH处理去除末端唾液酸残基后,寡糖侧链上的所得末端糖是岩藻糖。这些结果与通过相同技术纯化的培养人气管外植体分泌的黏液糖蛋白所观察到的结果相同。