Vanstapel F, Blanckaert N
Department of Laboratory Medicine, University of California School of Medicine, San Francisco 94143-0134.
J Clin Invest. 1988 Sep;82(3):1113-22. doi: 10.1172/JCI113668.
Radiolabeled UDPGlc incubated with rough endoplasmic reticulum (RER)-derived microsomes from rat liver became associated with the vesicles. This microsomal uptake of nucleotide sugar was time and temperature dependent. Analysis of the molecular species containing radiolabel revealed that initial uptake represented entry of predominantly intact UDPGlc in the microsomes. Conclusive evidence for proper translocation of UDPGlc across the microsomal membrane into the intravesicular space was obtained by demonstrating that UDPGlc was transported into an osmotically sensitive compartment. Microsomal uptake of UDPGlc exhibited features characteristic of carrier-mediated transport including saturation, specificity, and countertransport. Inhibition and trans-stimulation studies showed that other uridine-containing nucleotide sugars and 5'-UMP were substrates of the postulated microsomal carrier system for UDPGlc, while cytosine- or guanosine-containing nucleotides and non-5'-uridine monophosphates were, at best, very poor substrates. UDPGlc translocation activities were lower in smooth microsomal fractions than in the RER-derived vesicles, indicating that contamination with Golgi membranes could not be responsible for microsomal transport of UDPGlc. Our findings suggest that rat liver endoplasmic reticulum possesses a carrier system mediating proper translocation of UDPGlc and 5'-uridine-substituted structural analogues across the membrane.
用放射性标记的尿苷二磷酸葡萄糖(UDPGlc)与源自大鼠肝脏粗面内质网(RER)的微粒体一起温育,会与这些囊泡结合。这种微粒体对核苷酸糖的摄取具有时间和温度依赖性。对含有放射性标记的分子种类进行分析表明,最初的摄取代表主要是完整的UDPGlc进入微粒体。通过证明UDPGlc被转运到一个对渗透压敏感的区室,获得了UDPGlc跨微粒体膜正确转运到囊泡内空间的确凿证据。微粒体对UDPGlc的摄取表现出载体介导转运的特征,包括饱和性、特异性和反向转运。抑制和反式刺激研究表明,其他含尿苷的核苷酸糖和5'-尿苷单磷酸(5'-UMP)是假定的UDPGlc微粒体载体系统的底物,而含胞嘧啶或鸟苷的核苷酸以及非5'-尿苷单磷酸充其量只是非常差的底物。UDPGlc的转运活性在光滑微粒体组分中比在源自RER的囊泡中更低,这表明被高尔基体膜污染不可能是UDPGlc微粒体转运的原因。我们的研究结果表明,大鼠肝脏内质网拥有一个载体系统,介导UDPGlc和5'-尿苷取代的结构类似物跨膜的正确转运。