Nucleoporins Nup160 and Seh1 are required for disease resistance in Arabidopsis

Arabidopsis Nup160 and Seh1, encoding two predicted nucleoporins of the Nup107–160 nuclear pore sub-complex, were identified in a reverse genetics screen based on their requirement for basal disease resistance. Both genes also contribute to immunity conferred by Toll interleukin 1 receptor/nucleotide-binding/leucine-rich repeat (TNL)-type R proteins and constitutive resistance activated in the deregulated TNL mutant, snc1. Protein amounts of EDS1, a central regulator of TNL-triggered resistance, are reduced in seh1 and severely depleted in nup160 single mutants. Here, we investigate the impact of mutations in Nup160, Seh1 and a third complex member, MOS3/Nup96, on EDS1 protein accumulation in the snc1 auto-immune mutant background. In addition, we examine the subcellular localization of Seh1 in root tissues.     

ABCA1与NPC1在细胞内胆固醇转运中的作用

腺苷三磷酸结合盒转运蛋白A1（ATP-binding cassette transporter A1,ABCA1）是血浆高密度脂蛋白（high-density lipoprotein,HDL）颗粒形成之初的限速步骤。ABCA1通过膜泡运输脂质至细胞表面的HDL载脂蛋白的作用机制尚未完全阐明。C型尼曼-匹克病（Niemann-Pick disease type C,NPC）主要由NPC1基因突变引起,NPC1蛋白能促进胆固醇和其他脂质从晚期胞内体/溶酶体流入其他细胞结构。ABCA1和NPC1相互作用保持细胞内脂质平衡,与Tangier病和N C P病等病理过程密切相关。     

NPC1L1:固醇脂质吸收的关键蛋白质

NPC1L1是最近发现的一种与NPC1同源的蛋白质。在体内的分布有物种差异性,其亚细胞定位存在很大争议。近些年发现NPC1L1在固醇类脂质代谢途径中起着重要作用,是肠道吸收固醇类脂质尤其是胆固醇的关键蛋白质,这项新发现使得人们对固醇类脂质的吸收机制有了了解。高胆固醇血症是心血管系统疾病的一个高危因子,因此,对NPC1L1的研究具有重大的实际意义,正逐渐成为研究的热点。     

NP c 1L l 在高脂血症和动脉粥样硬化中的表达分析

目的：研究NPC1L1（Niemann-Pick C1 Like 1）mRNA在单纯高脂血症大鼠和动脉粥样硬化大鼠小肠组织中的表达与差异,探讨其与脂质代谢和动脉粥样硬化之间的关系。方法：通过半定量RT-PCR方法分别检测正常普食组、单纯高脂饲养组和动脉粥样大鼠组小肠组织中NPC1L1 mRNA的表达差异。结果：三个组别大鼠小肠组织中均存在NPC1L2 mRNA,单纯高脂饮食和动脉粥样大鼠小肠组织中NPC1L1 mRNA表达明显高于正常对照大鼠（P〈0．01）;单纯高脂饮食和动脉粥样大鼠小肠组织中NPC1L1 mRNA表达之间无明显差异（P〉0．05）。结论：血脂代谢紊乱与小肠组织中NPC1L1的高表达有关,NPC1L1可能参与了血脂紊乱的病理生理过程;NPC1L1与促成动脉粥样硬化的发生无明显相关性。     

The nucleoporin Nup358/RanBP2 promotes nuclear import in a cargo- and transport receptor-specific manner

In vertebrates, the nuclear pore complex (NPC), the gate for transport of macromolecules between the nucleus and the cytoplasm, consists of approximately 30 different nucleoporins (Nups). The Nup and SUMO E3-ligase Nup358/RanBP2 are the major components of the cytoplasmic filaments of the NPC. In this study, we perform a structure-function analysis of Nup358 and describe its role in nuclear import of specific proteins. In a screen for nuclear proteins that accumulate in the cytoplasm upon Nup358 depletion, we identified proteins that were able to interact with Nup358 in a receptor-independent manner. These included the importin α/β-cargo DBC-1 (deleted in breast cancer 1) and DMAP-1 (DNA methyltransferase 1 associated protein 1). Strikingly, a short N-terminal fragment of Nup358 was sufficient to promote import of DBC-1, whereas DMAP-1 required a larger portion of Nup358 for stimulated import. Neither the interaction of RanGAP with Nup358 nor its SUMO-E3 ligase activity was required for nuclear import of all tested cargos. Together, Nup358 functions as a cargo- and receptor-specific assembly platform, increasing the efficiency of nuclear import of proteins through various mechanisms.     

Native Chromatin Proteomics Reveals a Role for Specific Nucleoporins in Heterochromatin Organization and Maintenance

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Human NPC1L1 and NPC1 can functionally substitute for the ncr genes to promote reproductive development in C. elegans

The NPC1 and NPC1L1 are related genes whose general role is in cholesterol trafficking. However, reduction of activity of these genes results in very different phenotypes. Niemann–Pick C disease type 1 is a neurodegenerative disease with no current treatment, where cholesterol accumulates in lysosomes. The disease arises due to autosomal recessive mutations in the NPC1 gene. The NPC1L1 gene has recently been identified as the target for the drug ezetimibe (Zetia), a cholesterol absorption inhibitor, and has been shown to be an intestinal cholesterol transporter. We demonstrate that human NPC1L1, as well as human NPC1, can functionally substitute for the Caenorhabditis elegans genes ncr-1 and/or ncr-2. These genes are known to play a role in the process of dauer formation, a process which can be modulated by cholesterol in sensitized genetic backgrounds. Our results demonstrate that these human proteins retain some functional conservation, though their biological roles are vastly different.     

兔抗人热激蛋白70样蛋白1多克隆抗体的制备与初步鉴定

目的：制备兔抗人热激蛋白70样蛋白1（HSP70L1）的多克隆抗体并进行初步鉴定。方法：在大肠杆菌中重组表达融合蛋白GST-HSP70L1和His-HSP70L1并纯化;将GST-HSP70L1融合蛋白用于免疫新西兰大耳白兔获得多克隆抗体,用His-HSP70L1对抗血清进行分离纯化,得到抗HSP70L1多克隆抗体,用Western印迹、免疫沉淀对其进行初步鉴定。结果：获得了高表达的GST-HSP70L1和His-HSP70L1重组融合蛋白;纯化获得抗HSP70L1抗体,此抗体可用于Western印迹和免疫沉淀实验。结论：获得了兔抗人HSP70L1的多克隆抗体,为进一步研究HSP70L1的生物功能提供了有用的工具。     

The Clathrin Adaptor Proteins ARH,Dab2, and Numb Play Distinct Roles in Niemann-Pick C1-Like 1 Versus Low Density Lipoprotein Receptor-mediated Cholesterol Uptake

The uptake of circulating low density lipoproteins (LDL) is mediated by LDL receptor (LDLR) through clathrin-dependent endocytosis. At the early stage of this process, adaptor proteins ARH and Dab2 specifically bind the endocytic signal motif in LDLR and recruit clathrin/AP2 to initiate internalization. On the other hand, intestinal cholesterol is absorbed by Niemann-Pick C1-Like 1 (NPC1L1) through clathrin-dependent endocytosis. Another adaptor protein, Numb recognizes the endocytic motif in NPC1L1 C terminus and couples NPC1L1 to endocytic machinery. The ARH, Dab2, and Numb proteins contain a homogeneous phosphotyrosine binding (PTB) domain that directly binds endocytic motifs. Because ARH, Dab2, and Numb are all PTB domain family members, the emerging mystery is whether these adaptors act complementally in LDLR and NPC1L1 endocytosis. Here, we found that ARH and Dab2 did not bind NPC1L1 and were not required for NPC1L1 internalization. Similarly, Numb lacked the ability to interact with the LDLR C terminus and was dispensable for LDL uptake. Only the Numb isoforms with shorter PTB domain could facilitate NPC1L1 endocytosis. Besides the reported function in intestinal cholesterol absorption, Numb also mediated cholesterol reabsorption from bile in liver. We further identified a Numb variant with G595D substitution in humans of low blood LDL-cholesterol. The G595D substitution impaired NPC1L1 internalization and cholesterol reabsorption, due to attenuating affinity of Numb to clathrin/AP2. These results demonstrate that Numb specifically regulates NPC1L1-mediated cholesterol absorption both in human intestine and liver, distinct from ARH and Dab2, which selectively participate in LDLR-mediated LDL uptake.     

Identification of potentially embryogenic microspores in Brassica napus

Studies were undertaken with Brassica napus L. cv. Topas to identify buds containing microspores predisposed to embryogenesis in vitro and to investigate bud and microspore development in relation to this process. No significant correlation was found between the final embryo number and bud components. There appears to be a developmental window of less than 8 h duration during which microspores are very likely to form embryos: over 70% of the microspores can undergo division and up to 70% of these can form embryos. Embryos were mainly obtained from late uninuucleate to early binucleate microspores: the former contained mainly a G2 or M phase nucleus located at the microspore periphery and the latter a generative nucleus (associated with the intine) and a vegetative nucleus. Observations indicated that only the vegetative nucleus contributed to embryo formation. The first embryogenic division occurred between 8 and 16 h for uninucleate- and between 8 and 48 h for binucleate-derived embryos.     

Standardization of PCR-RFLP analysis of nsSNP rs1468384 of NPC1L1 gene

Niemann-Pick C1-like 1 (NPC1L1) protein, a newly identified sterol influx transporter, located at the apical membrane of the enterocyte, which may actively facilitate the uptake of cholesterol by promoting the passage of sterols across the brush border membrane of the enterocyte. It effects intestinal cholesterol absorption and intracellular transport and as such is an integral part of complex process of cholesterol homeostasis. The study of population data for the distribution of these single nucleotide polymorphisms (SNP) of NPC1L1 has lead to the identification of six non-synonymous single nucleotide polymorphisms (nsSNP). The in vitro analysis using the software MuPro and StructureSNP shows that nsSNP M510I (rs1468384), which involves A→G base pair change leads to decrease in the stability of the protein. A reproducible and a cost-effective PCR-RFLP based assay was developed to screen for the SNP among population data. This SNP has been studied in Caucasian, Asian, and African American populations. Till date, no data is available on Indian population. The distribution of M510I NPC1L1 genotype was estimated in the North Western Indian Population as a test case. The allele distribution in Indian Population differs significantly from that of other populations. The methodology thus proved to be robust enough to bring out these differences.     

类Tc1转座子研究进展

转座子广泛存在于各种生物基因组中,能在染色体不同位点间转座,并在基因组中大量扩增.转座子的活动能引起生物基因组或基因的重组和变异,加速生物多样性及其进化速率,被视为生物基因组进化的内在驱动.转座子分2类：反转座子和DNA转座子.类Tc1转座子是DNA转座子超级家族中种类最多、分布最广的一类.本文简要概述了类Tc1转座子的结构特征,及其扩增、转座和迸发的机制,并展望了其应用和研究方向.     

Expression patterns of sterol transporters NPC1 and NPC2 in the cnidarian–dinoflagellate symbiosis

The symbiotic interaction between cnidarians (e.g., corals and sea anemones) and photosynthetic dinoflagellates of the genus Symbiodinium is triggered by both host–symbiont recognition processes and metabolic exchange between the 2 partners. The molecular communication is crucial for homeostatic regulation of the symbiosis, both under normal conditions and during stresses that further lead to symbiosis collapse. It is therefore important to identify and fully characterise the key players of this intimate interaction at the symbiotic interface. In this study, we determined the cellular and subcellular localization and expression of the sterol‐trafficking Niemann–Pick type C proteins (NPC1 and NPC2) in the symbiotic sea anemones Anemonia viridis and Aiptasia sp. We first established that NPC1 is localised within vesicles in host tissues and to the symbiosome membranes in several anthozoan species. We demonstrated that the canonical NPC2‐a protein is mainly expressed in the epidermis, whereas the NPC2‐d protein is closely associated with symbiosome membranes. Furthermore, we showed that the expression of the NPC2‐d protein is correlated with symbiont presence in healthy symbiotic specimens. As npc2‐d is a cnidarian‐specific duplicated gene, we hypothesised that it probably arose from a subfunctionalisation process that might result in a gain of function and symbiosis adaptation in anthozoans. Niemann–Pick type C proteins may be key players in a functional symbiosis and be useful tools to study host–symbiont interactions in the anthozoan–dinoflagellate association.     

Cloning and expression of embryogenesis-regulating genes in Araucaria angustifolia (Bert.) O. Kuntze (Brazilian Pine)

Angiosperm and gymnosperm plants evolved from a common ancestor about 300 million years ago. Apart from morphological and structural differences in embryogenesis and seed origin, a set of embryogenesis-regulating genes and the molecular mechanisms involved in embryo development seem to have been conserved alike in both taxa. Few studies have covered molecular aspects of embryogenesis in the Brazilian pine, the only economically important native conifer in Brazil. Thus eight embryogenesis-regulating genes, viz., ARGONAUTE 1, CUP-SHAPED COTYLEDON 1, WUSCHEL-related WOX, S-LOCUS LECTIN PROTEIN KINASE, SCARECROW-like, VICILIN 7S, LEAFY COTYLEDON 1, and REVERSIBLE GLYCOSYLATED POLYPEPTIDE 1, were analyzed through semi-quantitative RT-PCR during embryo development and germination. All the eight were found to be differentially expressed in the various developmental stages of zygotic embryos, seeds and seedling tissues. To our knowledge, this is the first report on embryogenesis-regulating gene expression in members of the Araucariaceae family, as well as in plants with recalcitrant seeds.     

Membrane topology of human NPC1L1, a key protein in enterohepatic cholesterol absorption

The Niemann-Pick C1 Like 1 (NPC1L1) is a predicted polytopic membrane protein that is critical for cholesterol absorption. NPC1L1 takes up free cholesterol into cells through vesicular endocytosis. Ezetimibe, a clinically used cholesterol absorption inhibitor, blocks the endocytosis of NPC1L1 thereby inhibiting cholesterol uptake. Human NPC1L1 is a 1,332-amino acid protein with a putative sterol-sensing domain (SSD) that shows sequence homo­logy to HMG-CoA reductase (HMGCR), Niemann-Pick C1 (NPC1), and SREBP cleavage-activating protein (SCAP). Here, we use protease protection and immunofluorescence in selectively permeabilized cells to study the topology of human NPC1L1. Our data indicate that NPC1L1 contains 13 transmembrane helices. The NH₂-terminus of NPC1L1 is in the lumen while the COOH-terminus projects to the cytosol. human NPC1L1 contains seven small cytoplasmic loops—four small and three large luminal loops—one of which has been reported to bind ezetimibe. Ezetimibe-glucuronide, the major metabolite of ezetimibe in vivo, can block the internalization of NPC1L1 and cholesterol. The membrane topology of NPC1L1 is similar to that of NPC1, and the putative SSD of NPC1L1 is oriented in the same manner as those of HMGCR, NPC1, and SCAP. The defined topology of NPC1L1 provides necessary information for further dissecting the functions of the different domains of NPC1L1.     

The Cytosolic Adaptor AP‐1A Is Essential for the Trafficking and Function of Niemann‐Pick Type C Proteins

Niemann‐Pick type C (NPC) disease is a fatal neurodegenerative disorder characterized by over‐accumulation of low‐density lipoprotein‐derived cholesterol and glycosphingolipids in late endosomes/lysosomes (LE/L) throughout the body. Human mutations in either NPC1 or NPC2 genes have been directly associated with impaired cholesterol efflux from LE/L. Independent from its role in cholesterol homeostasis and its NPC2 partner, NPC1 was unexpectedly identified as a critical player controlling intracellular entry of filoviruses such as Ebola. In this study, a yeast three‐hybrid system revealed that the NPC1 cytoplasmic tail directly interacts with the clathrin adaptor protein AP‐1 via its acidic/di‐leucine motif. Consequently, a nonfunctional AP‐1A cytosolic complex resulted in a typical NPC‐like phenotype mainly due to a direct impairment of NPC1 trafficking to LE/L and a partial secretion of NPC2. Furthermore, the mislocalization of NPC1 was not due to cholesterol accumulation in LE/L, as it was not rescued upon treatment with Mβ‐cyclodextrin, which almost completely eliminated intracellular free cholesterol. Our cumulative data demonstrate that the cytosolic clathrin adaptor AP‐1A is essential for the lysosomal targeting and function of NPC1 and NPC2.