Cloning, heterologous expression, and characterization of three aquaglyceroporins from Trypanosoma brucei

Trypanosoma brucei, causative for African sleeping sickness, relies exclusively on glycolysis for ATP production. Under anaerobic conditions, glucose is converted to equimolar amounts of glycerol and pyruvate, which are both secreted from the parasite. As we have shown previously, glycerol transport in T. brucei occurs via specific membrane proteins (Wille, U., Schade, B., and Duszenko, M. (1998) Eur. J. Biochem. 256, 245-250). Here, we describe cloning and biochemical characterization of the three trypanosomal aquaglyceroporins (AQP; TbAQP1-3), which show a 40-45% identity to mammalian AQP3 and -9. AQPs belong to the major intrinsic protein family and represent channels for small non-ionic molecules. Both TbAQP1 and TbAQP3 contain two highly conserved NPA motifs within the pore-forming region, whereas TbAQP2 contains NSA and NPS motifs instead, which are only occasionally found in AQPs. For functional characterization, all three proteins were heterologously expressed in yeast and Xenopus oocytes. In the yeast fps1Delta mutant, TbAQPs suppressed hypoosmosensitivity and rendered cells to a hyper-osmosensitive phenotype, as expected for unregulated glycerol channels. Under iso- and hyperosmotic conditions, these cells constitutively released glycerol, consistent with a glycerol efflux function of TbAQP proteins. TbAQP expression in Xenopus oocytes increased permeability for water, glycerol and, interestingly, dihydroxyacetone. Except for urea, TbAQPs were virtually impermeable for other polyols; only TbAQP3 transported erythritol and ribitol. Thus, TbAQPs represent mainly water/glycerol/dihydroxyacetone channels involved in osmoregulation and glycerol metabolism in T. brucei. This function and especially the so far not investigated transport of dihydroxyacetone may be pivotal for the survival of the parasite survival under non-aerobic or osmotic stress conditions.     

Molecular cloning, expression pattern and chromosomal mapping of pig CD9 antigen

CD9 is a member of the transmembrane-4 superfamily of surface molecules that seems to have a relevant role in cell migration and adhesion, as well as malignant progression. This work describes the isolation of the cDNA coding for the porcine CD9 molecule. Pig CD9 cDNA was isolated from a smooth muscle cDNA library and contains a 678-bp open reading frame with its predicted polypeptide sequence of 226 amino acids. The deduced amino acid sequence conserves the main characteristics of TM4 proteins, including the presence of four transmembrane domains. Like their homologous molecules from other species, pig CD9 has two extracellular regions of a different size with the minor loop bearing two possible glycosylation sites. The pig CD9 gene was localized to chromosome 5q25 by using a somatic cell hybrid panel. Analysis of CD9 expression in different porcine cells and tissues demonstrated that CD9 mRNA is ubiquitously expressed.     

Molecular cloning,expression pattern and chromosomal mapping of pig CD69

CD69 is a type II membrane protein belonging to C-type lectin family receptor, and expressed on activated leukocytes. Pig CD69 was cloned by RT-PCR using degenerate primers. Pig CD69 cDNA contains a 600 bp open reading frame with its predicted polypeptide sequence of 200 amino acids. Pig CD69 has 75%, 67%, and 57% sequence identity with cow, human, and mouse CD69, respectively. A splicing isoform, which lacks exon 2 encoding the transmembrane domain, was detected. Pig CD69 gene is located on Chromosome (Chr) 5q25 where the NKG2D gene was mapped. In RT-PCR analysis, pig CD69 mRNA was detected in activated PBL, NK cells, macrophages, monocytes, and granulocytes, but not in resting cells. The inducers for CD69 gene expression were PMA, PHA, LPS, G7 mAb, PNK-E mAb, PM16-6 mAb and the K562 cell line. Moreover, CD69 mRNA is expressed in bone marrow, spleen, thymus and lymph nodes but not in muscle, mammary gland, or the pig kidney cell line (LLC-PK(1)). These results indicate that pig Chr 5q25 contains the NK gene complex and CD69 can be used as an activation marker in pig cells of innate as well as acquired immune systems.     

Changes in retinal aquaporin-9 (AQP9) expression in glaucoma

The eye contains numerous water channel proteins and the roles of AQPs (aquaporins) in the retina are blurred, especially under disease conditions. The purpose of this study was to investigate the expression of AQP9 gene and proteins affected by elevated IOP (intraocular pressure) in a rat model of glaucoma induced by intravitreous injection of hypertonic saline into the episcleral veins. The gene and protein expressions of AQP9 were investigated by real-time PCR and Western blotting. The immunoreactive expression of AQP9, AQP4 and GFAP (glial fibrillary acidic protein) in the optic nerve of rats exposed to experimentally elevated IOP was detected by immunofluorescence microscopy. The mRNA and protein expression levels of AQP9 were up-regulated in the retina of an animal model of glaucoma. The immunoreactivities of the AQP9, AQP4 and GFAP were also detected and increased in the optic nerve region. The expression of AQP9 was up-regulated in this glaucoma model and the immunoreactivities of the AQP4 and GFAP were also detected as co-localizing with AQP9 in the optic nerve region, indicating retina ganglion cells were surrounded by activated astrocytes. This may indicate that the injured neurons may rely on the astrocytes. The alterations of AQP expression may compensate the glaucomatous damage.     

斜纹夜蛾水通道蛋白1（AQP1）基因的克隆、分子特性和表达分析

水通道蛋白(aquaporin, AQP)是生物体中一种重要的跨膜通道蛋白, 它通过一些中性小分子化合物的运输, 从而参与了昆虫对食物中水分再吸收、抗寒和抗干燥等重要生理机制。为研究斜纹夜蛾中水通道蛋白的基因特征和时空表达特征, 本研究利用同源克隆和RACE技术获得了斜纹夜蛾水通道蛋白1（AQP1）基因的两个转录异构体, 并将其分别命名为SL-AQP1A （GenBank登录号： KC999953）和SL-AQP1B （GenBank登录号： KC999954）,其中SL-AQP1B比SL-AQP1A在推导的编码区5′端连续性缺失81个碱基, 而其他序列完全一致; 同源分析显示推导的SL-AQP1与家蚕为代表的水通道蛋白1具有较高的同源性。拓扑学和三级结构模拟显示其有经典的6个全跨膜结构域、2个半跨膜结构域、2个保守的NPA (asparagine-proline-alanine, 天冬氨酸-脯氨酸-丙氨酸)结构基序及选择性水孔构件ar/R （aromatic arginine, 芳香族精氨酸）。qRT-PCR结果显示, SL-AQP1整体时空表达差异性十分明显, 并且SL-AQP1B的表达量显著高于SL-AQP1A; SL-AQP1在卵期和预蛹期有较高的表达量, 在中肠、马氏管、血淋巴、消化腺中有相对较高的表达量, 暗示其在斜纹夜蛾中存在重要的渗透压调节作用。本文结果为进一步研究水通道蛋白在斜纹夜蛾中的作用提供了一定的分子基础。     

Aquaporin molecular characterization in the sea-bass (Dicentrarchus labrax): the effect of salinity on AQP1 and AQP3 expression

Euryhaline fish possess the ability to compensate for environmental salinity changes through hydro-mineral regulation. A number of proteins have been studied in order to understand water and ion exchanges, known as fish osmoregulation. Sea-bass (Dicentrarchus labrax) cDNA sequences encoding a homologue of mammalian aquaporin (termed AQP1) and a homologue of mammalian aquaglyceroporin (termed AQP3) have been isolated and sequenced. The aquaporin amino acid sequences share respectively more than 60% and 65% identity with other known aquaporins. We have shown that salinity influences aquaporin expression levels in the gill, kidney and digestive tract, the main osmoregulatory organs. AQP1 may have a major osmoregulatory role in water transport in kidney and gut in SW-acclimated fish, whereas AQP3 could be implicated in gill water transport in FW-acclimated fish.     

Implications of aquaglyceroporins 7 and 9 in glycerol metabolism and metabolic syndrome

The discovery of water channel protein (aquaporin [AQP]) has made a great impact on life sciences. So far, 13 AQPs have been identified in human. AQP3, 7, 9, and 10 are subcategorized as aquaglyceroporins which permeabilize glycerol as well as water. Many investigators have demonstrated that AQPs play a crucial role in the maintenance of water homeostasis, but the physiological significance of some AQPs as glycerol channels remains elusive. Adipocyte is a major source of glycerol, which is one of the substrates for hepatic gluconeogenesis. This review focuses on recent studies on glycerol metabolism through AQP7 and AQP9, and briefly discusses the importance of glycerol channel in adipocytes, liver, and heart.     

Molecular characterization,expression patterns and subcellular localization of Myotrophin (MTPN) gene in porcine skeletal muscle

Myotrophin (MTPN) is an effective growth factor in promoting skeletal muscle growth in vitro and vivo and has been purified from porcine skeletal muscle. However, in pigs, the information on MTPN gene is very limited. In this study, we cloned cDNA sequences and analyzed the genomic structure of porcine MTPN gene. The deduced amino acid sequence of porcine MTPN contains two the ankyrin repeat domains. RT-PCR analysis revealed that porcine MTPN gene was widely expressed in many tissues, a high expression level was observed in the spleen, liver and uterus, and transient transfection indicated that porcine MTPN proteins was located in cytoplasms within Pig Kidney Epithelial cells (PK15). Quantitative real-time PCR (qRT-PCR) analyses showed that MTPN expression peaked at embryonic 65 day post conception (dpc). During postnatal muscle development, MTPN expression was down-regulated from the 3 day to the 180 day in Yorkshire pigs. This result suggests that the MTPN gene may be important gene for skeletal muscle growth and provides useful information for further studies on its roles in porcine skeletal muscle.     

Molecular characterization of water-selective AQP (EbAQP4) in hagfish: insight into ancestral origin of AQP4

Hagfish (Eptatretus burgeri) are agnathous and are the earliest vertebrates still in existence. Pavement cells adjacent to the mitochondria-rich cells show orthogonal arrays of particles (OAPs) in the gill of hagfish, a known ultrastructural morphology of aquaporin (AQP) in mammalian freeze-replica studies, suggesting that an AQP homolog exists in pavement cells. We therefore cloned water channels from hagfish gill and examined their molecular characteristics. The cloned AQP [E. burgeri AQP4 (EbAQP4)] encodes 288 amino acids, including two NPA motifs and six transmembrane regions. The deduced amino acid sequence of EbAQP4 showed high homology to mammalian and avian AQP4 (rat, 44%; quail, 43%) and clustered with AQP4 subsets by the molecular phylogenetic tree. The osmotic water permeability of Xenopus oocytes injected with EbAQP4 cRNA increased eightfold compared with water-injected controls and was not reversibly inhibited by 0.3 mM HgCl(2). EbAQP4 mRNA expression in the gill was demonstrated by the RNase protection assay; antibody raised against the COOH terminus of EbAQP4 also detected (by Western blot analysis) a major approximately 31-kDa band in the gill. Immunohistochemistry and immunoelectron microscopy showed EbAQP4 localized along the basolateral membranes of gill pavement cells. In freeze-replica studies, OAPs were detected on the protoplasmic face of the split membrane comprising particles 5-6 nm long on the basolateral side of the pavement cells. These observations suggest that EbAQP4 is an ancestral water channel of mammalian AQP4 and plays a role in basolateral water transport in the gill pavement cells.     

Molecular characterization of a tandem-repeat galectin-9 (RuGlec9) from Korean rose bitterling (Rhodeus uyekii)

Galectin-9 is a b-galactoside-binding lectin that regulates many cellular functions, ranging from cell adhesion to pathogen recognition. We isolated and characterized the cDNA of tandem-repeat galectin-9 (RuGlec9) from the Korean rose bitterling (Rhodeus uyekii), an endemic Korean fish belonging to the Acheilognathinae subfamily of the Cyprinidae family. RuGlec9 cDNA is 1486 bp long and encodes a polypeptide of 323 amino acids containing two carbohydrate-recognition domains connected by a linker peptide. The deduced amino acid sequence of RuGlec9 shows 45-84% amino acid sequence identity to other galectin-9 sequences, including those from mammals and fish. RuGlec9 appeared in a large cluster with other galectin-9 sequences from fish and is more closely related to galectin-9 from Danio rerio than to those of other fish and mammals. RuGlec9 mRNA was expressed highly in the testis, spleen, intestine, stomach, and liver, and moderately in the brain, kidney, ovary, and gills of normal Korean rose bitterling. RuGlec9 mRNA expression in the spleen was increased by lipopolysaccharide. These results suggest that RuGlec9 plays a role in innate immunity in Korean rose bitterling.     

Molecular characterization of three 3-hydroxy-3-methylglutaryl-CoA reductase genes including pathogen-induced Hmg2 from pepper (Capsicum annuum)

Sesquiterpene phytoalexins, a class of plant defense metabolites, are synthesized from the cytosolic acetate/mevalonate pathway in isoprenoids biosynthetic system of plants. The 3-hydroxy-3-methylglutaryl-CoA reductase (HMGR) catalyzes the synthesis of mevalonate, which is the specific precursor of this pathway, as a multi gene family. Three kinds of cDNA clones encoding HMGR were isolated from Korean red pepper (Capsicum annuum L. cv. NocKwang) and the HMGR2 gene (Hmg2) was especially obtained from a cDNA library constructed with Phytophthora capsici-infected pepper root RNAs. The Hmg2 encoding a 604-amino-acid peptide had typical features as an elicitor-induced isoform among HMGRs on its gene structure and had a predicted amino acid sequence homology. In addition, the expression of Hmg2 was rapidly induced within 1 h in response to a fungal pathogen and continuously increased up to 48 h. Together with sesquiterpene cyclase gene that was strongly induced 24 h after pathogen-infection, the Hmg2 and farnesyl pyrophosphate synthase gene were coordinately and sequentially regulated for the biosynthesis of defense-related sesquiterpene phytoalexins in pepper.     

Molecular cloning, characterization and expression analysis of tumor necrosis factor receptor-associated factor 3 (TRAF3) from pearl oyster Pinctada fucata

TRAF3 is a highly versatile regulator that negatively regulates JNK and alternative nuclear factor-κB signalling, but positively controls type I interferon production. To investigate TRAF3 function in innate immune responses among invertebrate especially mollusk, we characterized TRAF3 (PfTRAF3) from pearl oyster Pinctada fucata, one of the most important bivalve mollusks for seawater pearl production. PfTRAF3 cDNA is 2261 bp with an open reading frame of 1623 bp encoding a putative protein of 541 amino acids. The deduced PfTRAF3 contains a RING finger domain, two TRAF domains with zinc finger domains and a conserved C-terminal meprin and TRAF homology (MATH) domain. Comparison and phylogenetic analysis revealed that PfTRAF3 from mollusk shared a higher identity with Ciona intestinalis TRAF3 from urochordata, Branchiostoma belcheri TRAF3 from cephalochordate, and even TRAF3 from vertebrate than with insect homologues. Furthermore, gene expression analyses suggested that PfTRAF3 was involved in the immune response to Vibrio alginolyticus.     

Molecular cloning, expression analysis, and chromosomal localization of human syntaxin 8 (STX8)

We report the cloning of a cDNA encoding human syntaxin 8 (STX8), using the regulator (R) domain of the cystic fibrosis transmembrane conductance regulator (CFTR) as a bait to screen a human fetal lung cDNA library by the yeast two-hybrid system. This gene was found broadly transcribed and its mRNA size is about 1.3 kb. The STX8 gene maps to chromosomal band 17p12 and it encodes a 236-amino-acid protein. Syntaxin 8 contains in its C-terminal half a coiled-coil domain found highly conserved in the t-SNARE (SNAP receptor on target membrane) superfamily of proteins, which are involved in vesicular trafficking and docking. In syntaxin 8, a C-terminal hydrophobic domain may constitute a transmembrane anchor. It was recently shown that CFTR-mediated chloride currents can be regulated by syntaxin 1A, a t-SNARE family member, through direct protein-protein interaction. This raises the possibility that syntaxin 8 may also be involved in such regulations.