囊性纤维化小鼠模型中糖胺聚糖的器官特异性过硫酸化和细胞外基质的改变

Warren G. Hill , Gregory S. Harper , Tina Rozaklis , Richard C. Boucher , John J. Hopwood
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引用次数: 26

摘要

囊性纤维化(CF)是一种由质膜氯离子通道-囊性纤维化跨膜电导调节剂(CFTR)功能丧失引起的致命性遗传性疾病。它的特征是黏稠的粘液分泌物,有异常的糖基化和硫酸化。CFTR基因敲除小鼠的发展使得研究CF糖缀合物过硫酸化现象的体内实验成为可能。观察注射[35S]硫酸盐的4只CF小鼠和5只对照小鼠在48 h后12种组织合成的糖胺聚糖(GAGs)的磺化程度差异。CF小鼠的肝脏和胰腺对GAGs的[35S]硫酸盐的掺入量(dpm/μg)显著高于对照组,而CF小鼠的回肠、空肠、结肠、盲肠、脾脏、气管和胆囊的掺入量均高于对照组,但不显著。肺和鼻中隔无差异,CF小鼠鼻黏膜明显降低(P<0.05)。强阴离子交换高效液相色谱法对软骨素/硫酸皮肤素成分的结构分析表明,CF小鼠的肝脏和回肠中含有的硫酸总含量明显高于对照组。然而,对于其他器官,更高的同位素掺入的解释是,GAGs内[35S]硫酸盐的比活性提高了40-50%。这一发现暗示了循环中不同的硫酸盐摄取动力学或CF小鼠改变了硫酸盐池。CF小鼠回肠和胆囊中软骨素/硫酸皮肤素与硫酸肝素的比例也发生了变化(P<0.05)。我们得出结论,一些CF器官的细胞外基质结构可能异常,一些器官的糖缀合物硫酸化和其他器官的硫酸盐利用受到CFTR损失的影响。本研究首次提供了CFTR对糖缀合物硫酸化影响的体内证据,并提示了CFTR功能障碍的其他继发性表现与细胞外基质异常有关。
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Organ-Specific Over-sulfation of Glycosaminoglycans and Altered Extracellular Matrix in a Mouse Model of Cystic Fibrosis

Cystic fibrosis (CF) is a fatal inherited disease caused by the loss of function of a plasma membrane chloride channel—the cystic fibrosis transmembrane conductance regulator (CFTR). It is characterized by viscous mucous secretions which have abnormal glycosylation and sulfation. The development of a CFTR knockout mouse has allowedin vivoexperiments aimed at investigating the over-sulfation phenomenon reported for CF glycoconjugates. Four CF and five control mice injected with [35S]sulfate were examined for differences in the sulfation of glycosaminoglycans (GAGs) synthesized by 12 tissues after 48 h. The liver and pancreas of CF mice incorporated significantly higher amounts of [35S]sulfate into GAGs (dpm/μg) than the controls, while the ileum, jejunum, colon, cecum, spleen, trachea, and gall bladder of CF mice exhibited higher incorporation levels that were not significant. The lung and nasal septum were not different, and the nasal mucosa of CF mice was significantly lower (P< 0.05). Structural analysis of the chondroitin/dermatan sulfate component by strong anion-exchange HPLC revealed that the liver and ileum of CF mice incorporated significantly more total sulfate than controls. However, for other organs, the explanation for higher isotope incorporation was a 40–50% higher specific activity of [35S]sulfate within GAGs. This finding implied different uptake kinetics of sulfate from the circulation or that CF mice have altered sulfate pools. CF mice also had altered proportions of chondroitin/dermatan sulfate to heparan sulfate in the ileum and gall bladder (P< 0.05). We conclude that extracellular matrix architecture in some CF organs may be abnormal and that sulfation of glycoconjugates by some organs and sulfate utilization in others have been affected by the loss of CFTR. This study provides the firstin vivoevidence for an influence of CFTR on glycoconjugate sulfation and suggests other secondary manifestations of CFTR dysfunction associated with abnormalities of the extracellular matrix.

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