Baïsse Bénédicte, Galisson Frédérique, Giraud Sylvain, Schapira Marc, Spertini Olivier
Service and Central Laboratory of Hematology, Centre Hospitalier Universitaire Vaudois, Bugnon 46, 1011 Lausanne, Switzerland.
BMC Evol Biol. 2007 Sep 14;7:166. doi: 10.1186/1471-2148-7-166.
P-selectin glycoprotein ligand-1 (PSGL-1) plays a critical role in recruiting leukocytes in inflammatory lesions by mediating leukocyte rolling on selectins. Core-2 O-glycosylation of a N-terminal threonine and sulfation of at least one tyrosine residue of PSGL-1 are required for L- and P-selectin binding. Little information is available on the intra- and inter-species evolution of PSGL-1 primary structure. In addition, the evolutionary conservation of selectin binding site on PSGL-1 has not been previously examined in detail. Therefore, we performed multiple sequence alignment of PSGL-1 amino acid sequences of 14 mammals (human, chimpanzee, rhesus monkey, bovine, pig, rat, tree-shrew, bushbaby, mouse, bat, horse, cat, sheep and dog) and examined mammalian PSGL-1 interactions with human selectins.
A signal peptide was predicted in each sequence and a propeptide cleavage site was found in 9/14 species. PSGL-1 N-terminus is poorly conserved. However, each species exhibits at least one tyrosine sulfation site and, except in horse and dog, a T [D/E]PP [D/E] motif associated to the core-2 O-glycosylation of a N-terminal threonine. A mucin-like domain of 250-280 amino acids long was disclosed in all studied species. It lies between the conserved N-terminal O-glycosylated threonine (Thr-57 in human) and the transmembrane domain, and contains a central region exhibiting a variable number of decameric repeats (DR). Interspecies and intraspecies polymorphisms were observed. Transmembrane and cytoplasmic domain sequences are well conserved. The moesin binding residues that serve as adaptor between PSGL-1 and Syk, and are involved in regulating PSGL-1-dependent rolling on P-selectin are perfectly conserved in all analyzed mammalian sequences. Despite a poor conservation of PSGL-1 N-terminal sequence, CHO cells co-expressing human glycosyltransferases and human, bovine, pig or rat PSGL-1 efficiently rolled on human L- or P-selectin. By contrast, pig or rat neutrophils were much less efficiently recruited than human or bovine neutrophils on human selectins. Horse PSGL-1, glycosylated by human or equine glycosyltransferases, did not interact with P-selectin. In all five species, tyrosine sulfation of PSGL-1 was required for selectin binding.
These observations show that PSGL-1 amino acid sequence of the transmembrane and cytoplasmic domains are well conserved and that, despite a poor conservation of PSGL-1 N-terminus, L- and P-selectin binding sites are evolutionary conserved. Functional assays reveal a critical role for post-translational modifications in regulating mammalian PSGL-1 interactions with selectins.
P-选择素糖蛋白配体-1(PSGL-1)通过介导白细胞在选择素上滚动,在炎症病变中募集白细胞发挥关键作用。PSGL-1 N端苏氨酸的核心2 O-糖基化以及至少一个酪氨酸残基的硫酸化是L-选择素和P-选择素结合所必需的。关于PSGL-1一级结构的种内和种间进化的信息很少。此外,PSGL-1上选择素结合位点的进化保守性此前尚未详细研究。因此,我们对14种哺乳动物(人类、黑猩猩、恒河猴、牛、猪、大鼠、树鼩、婴猴、小鼠、蝙蝠、马、猫、绵羊和狗)的PSGL-1氨基酸序列进行了多序列比对,并研究了哺乳动物PSGL-1与人类选择素的相互作用。
在每个序列中预测到一个信号肽,在9/14种动物中发现了一个前肽切割位点。PSGL-1的N端保守性较差。然而,每个物种至少有一个酪氨酸硫酸化位点,除马和狗外,还有一个与N端苏氨酸的核心2 O-糖基化相关的T[D/E]PP[D/E]基序。在所有研究物种中均发现了一个长度为250-280个氨基酸的粘蛋白样结构域。它位于保守的N端O-糖基化苏氨酸(人类中的苏氨酸-57)和跨膜结构域之间,包含一个中央区域,该区域有可变数量的十聚体重复序列(DR)。观察到种间和种内多态性。跨膜和细胞质结构域序列保守性良好。作为PSGL-1和Syk之间的衔接子并参与调节PSGL-1依赖的在P-选择素上滚动的埃兹蛋白结合残基在所有分析的哺乳动物序列中完全保守。尽管PSGL-1 N端序列保守性较差,但共表达人糖基转移酶和人、牛、猪或大鼠PSGL-1的CHO细胞能有效地在人L-或P-选择素上滚动。相比之下,猪或大鼠中性粒细胞在人选择素上的募集效率远低于人或牛中性粒细胞。经人或马糖基转移酶糖基化的马PSGL-1不与P-选择素相互作用。在所有五个物种中,PSGL-1的酪氨酸硫酸化是选择素结合所必需的。
这些观察结果表明,PSGL-1跨膜和细胞质结构域的氨基酸序列保守性良好,尽管PSGL-1 N端保守性较差,但L-和P-选择素结合位点在进化上是保守的。功能分析揭示了翻译后修饰在调节哺乳动物PSGL-1与选择素相互作用中的关键作用。
