Department of Biochemistry and Molecular Biology, Bio21 Molecular Science and Biotechnology Institute, The University of Melbourne, Parkville, Victoria, Australia.
Int J Parasitol. 2012;42(3):239-47. doi: 10.1016/j.ijpara.2011.12.004. Epub 2012 Jan 11.
Trypanosomatid parasites express a number of mono- and diacylated proteins that are targeted to distinct regions of the plasma membrane including the cell body, the flagellum and the flagellar pocket. The extent to which the acylation status and other protein motifs regulate the targeting and/or retention of these proteins to the distinct membrane domains is poorly defined. We have previously described a family of small myristoylated proteins (SMPs) that are either monoacylated (myristoylated) or diacylated (myristoylated and palmitoylated) and targeted to distinct plasma membrane domains. Diacylated SMP-1 is a major constituent of the flagellar membrane, whereas monoacylated SMP-2 resides in the flagellar pocket in Leishmania major. Here, we show that a third SMP family member, monoacylated SMP-4, localizes predominantly to the pellicular membrane. Density gradient centrifugation of detergent-insoluble membranes indicated that SMP-4 was associated with detergent-insoluble domains but was not tightly associated with the subpellicular cytoskeleton. Based on the localisation of truncated SMP proteins, we conclude that the flagellum targeting of SMP-1 is primarily dependent on the dual-acylation motif. In contrast, the localisation of SMP-4 to the cell body membrane is dependent on N-terminal myristoylation and a C-terminal peptide subdomain with a predicted α-helical structure. Strikingly, a SMP-1 chimera containing the SMP-4 C-terminal extension was selectively trafficked to the distal tip of the flagellum and failed to complement the loss of native SMP-1 in a Δsmp1/2 double knockout strain. Collectively, these results suggest that dual acylation is sufficient to target some SMP proteins to the flagellum, while the unique C-terminal extensions of these proteins may confer additional membrane targeting signals that are important for both localisation and SMP function.
动基体门原虫寄生虫表达许多单酰化和双酰化蛋白,这些蛋白被靶向到质膜的不同区域,包括细胞体、鞭毛和鞭毛囊中。酰化状态和其他蛋白结构域在多大程度上调节这些蛋白到不同膜域的靶向和/或保留尚不清楚。我们之前描述了一小族豆蔻酰化蛋白(SMPs),它们要么单酰化(豆蔻酰化),要么双酰化(豆蔻酰化和棕榈酰化),并靶向到不同的质膜区域。双酰化 SMP-1 是鞭毛膜的主要成分,而单酰化 SMP-2 位于利什曼原虫的鞭毛囊中。在这里,我们表明第三个 SMP 家族成员,单酰化 SMP-4,主要定位于质膜。去污剂不溶性膜的密度梯度离心表明 SMP-4 与去污剂不溶性域相关,但与亚质膜细胞骨架没有紧密相关。基于截断 SMP 蛋白的定位,我们得出结论,SMP-1 的鞭毛靶向主要依赖于双酰化基序。相比之下,SMP-4 定位于细胞体膜依赖于 N 端豆蔻酰化和 C 端肽亚域,该亚域具有预测的α-螺旋结构。引人注目的是,含有 SMP-4 C 端延伸的 SMP-1 嵌合体被选择性地运送到鞭毛的远端尖端,并且不能在Δsmp1/2 双敲除菌株中补充缺失的天然 SMP-1。总的来说,这些结果表明双酰化足以将一些 SMP 蛋白靶向到鞭毛,而这些蛋白的独特 C 端延伸可能赋予了额外的膜靶向信号,这些信号对定位和 SMP 功能都很重要。
