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961.
Sissel Lund-Katz David Nguyen Padmaja Dhanasekaran Momoe Kono Margaret Nickel Hiroyuki Saito Michael C. Phillips 《Journal of lipid research》2010,51(3):606-617
The partitioning of apolipoprotein A-I (apoA-I) molecules in plasma between HDL-bound and -unbound states is an integral part of HDL metabolism. We used the surface plasmon resonance (SPR) technique to monitor in real time the reversible binding of apoA-I to HDL. Biotinylated human HDL2 and HDL3 were immobilized on a streptavidin-coated SPR sensor chip, and apoA-I solutions at different concentrations were flowed across the surface. The wild-type (WT) human and mouse apoA-I/HDL interaction involves a two-step process; apoA-I initially binds to HDL with fast association and dissociation rates, followed by a step exhibiting slower kinetics. The isolated N-terminal helix bundle domains of human and mouse apoA-I also exhibit a two-step binding process, consistent with the second slower step involving opening of the helix bundle domain. The results of fluorescence experiments with pyrene-labeled apoA-I are consistent with the N-terminal helix bundle domain interacting with proteins resident on the HDL particle surface. Dissociation constants (Kd) measured for WT human apoA-I interactions with HDL2 and HDL3 are about 10 µM, indicating that the binding is low affinity. This Kd value does not apply to all of the apoA-I molecules on the HDL particle but only to a relatively small, labile pool.Understanding the structure and function of HDL is significant because of the beneficial cardioprotective properties of this lipoprotein (1). The anti-atherogenic effects of HDL arise, in part, from its participation in the reverse cholesterol transport pathway where the principal HDL protein, apolipoprotein A-I (apoA-I), plays a central role (2). As a result, the structure-function relationships of apoA-I have been studied extensively (for reviews, see Refs. 3–5). Perhaps the most important characteristic of the apoA-I molecule is its ability to bind lipids; this interaction is mediated by the amphipathic α-helices present in the protein molecule (6). ApoA-I binds well to phospholipid (PL)-water interfaces and, under appropriate conditions, can solubilize the PL to create discoidal HDL particles (7, 8). The binding of apoA-I to a PL surface involves a two-step mechanism. First, α-helices in the C-terminal domain of the protein interact with the surface, and, second, the N-terminal helix bundle domain opens to allow more helix-lipid interactions to occur (5, 9). Although the binding of apoA-I to model PL particles has been studied extensively, the binding of apoA-I to HDL particles has not been investigated much because of the difficulty of separating free and bound apoA-I in this system. This lack of information about apoA-I/HDL interactions is significant because the cycling of apoA-I molecules on and off HDL particles occurs during the metabolism of HDL particles (10, 11), in particular to release apoA-I molecules into the preβ-HDL pool (10, 12). This recycling is consistent with the well-established ability of apolipoproteins, such as apoA-I, to exchange spontaneously between different populations of lipoprotein particles (13–16) and PL vesicles (17, 18). As a rule, any remodeling event that depletes HDL particles of PL induces particle fusion and dissociation of that fraction of the apoA-I molecules that is in a labile pool (19). At this stage, quantitative understanding of the kinetics of apoA-I interactions with HDL particles is unavailable.Here, we exploit surface plasmon resonance (SPR) to monitor in real time the association and dissociation reactions in the apoA-I/HDL system. SPR has been used to derive quantitative information about the binding of both lipoproteins (20) and apoE (21–23) to proteoglycans. As far as the application of SPR to the HDL system is concerned, the binding of several plasma remodeling factors to HDL immobilized on a sensor chip has been investigated successfully (24–26). Also, the conformation of apoA-I in HDL was explored by comparing the binding of HDL particles to anti-apoA-I monoclonal antibodies immobilized on an SPR chip (27). We have extended these approaches to study the binding of apoA-I to HDL particles. The results show that apoA-I can bind reversibly and with low affinity to HDL particles by a two-step mechanism. 相似文献
962.
Hiroyasu Sakai Yasuhiro Yamada Masahito Shimizu Kuniaki Saito Hisataka Moriwaki Akira Hara 《Chemico-biological interactions》2010,184(3):423-430
Colorectal cancer (CRC) is one of the most serious complications of inflammatory bowel disease. Tumor necrosis factor-α (Tnfα) is a major mediator of inflammation and there is increasing evidence that Tnfα/Tnf-receptor-1 (Tnfr1) signaling may act as an endogenous tumor promoter for colon carcinogenesis. In fact, a previous study revealed that mice lacking Tnfr1 develop significantly fewer colonic tumors in the inflammation-related CRC model. In addition, antibodies against Tnfα have been shown to inhibit the development of inflammation-related CRC. In the present study, Apc Min/+; Tnfα ?/? mice were treated with 2% dextran sodium sulfate (DSS) and the tumor development was compared with Apc Min/+; Tnfα +/+ control mice in order to investigate the role of Tnfα by itself in the inflammation-related CRC. Surprisingly, there were no detectable differences in either the severity of colonic inflammation or the expression of DSS-induced chemokines and cytokines (Ccl2, Cxcl1, Tnfβ, Il1β, Il6, and Cox-2) that relate to the colonic inflammation and tumorigenesis between these two groups. Furthermore, the genetic ablation of Tnfα did not suppress the colon tumorigenesis in comparison to the wild-type mice. Our observations suggest that intricate inflammatory responses promote the inflammation-related mouse colon tumorigenesis. 相似文献
963.
Kaku Sawada Shigeru Ariki Takashi Kojima Atsushi Saito Masami Yamazoe Chiaki Nishitani Takeyuki Shimizu Motoko Takahashi Hiroaki Mitsuzawa Shin-ichi Yokota Norimasa Sawada Nobuhiro Fujii Hiroki Takahashi Yoshio Kuroki 《The Journal of biological chemistry》2010,285(11):8434-8443
Pulmonary collectins, surfactant proteins A (SP-A) and D (SP-D), play important roles in innate immunity of the lung. Legionella pneumophila is a bacterial respiratory pathogen that can replicate within macrophages and causes opportunistic infections. L. pneumophila possesses cytolytic activity, resulting from insertion of pores in the macrophage membrane upon contact. We examined whether pulmonary collectins play protective roles against L. pneumophila infection. SP-A and SP-D bound to L. pneumophila and its lipopolysaccharide (LPS) and inhibited the bacterial growth in a Ca2+-dependent manner. The addition of LPS in the culture blocked the inhibitory effects on L. pneumophila growth by the collectins, indicating the importance of LPS-collectin interaction. When differentiated THP-1 cells were infected with L. pneumophila in the presence of SP-A and SP-D, the number of permeable cells was significantly decreased, indicating that pulmonary collectins inhibit pore-forming activity of L. pneumophila. The number of live bacteria within the macrophages on days 1–4 after infection was significantly decreased when infection was performed in the presence of pulmonary collectins. The phagocytosis experiments with the pH-sensitive dye-labeled bacteria revealed that pulmonary collectins promoted bacterial localization to an acidic compartment. In addition, SP-A and SP-D significantly increased the number of L. pneumophila co-localized with LAMP-1. These results indicate that pulmonary collectins protect macrophages against contact-dependent cytolytic activity of L. pneumophila and suppress intracellular growth of the phagocytosed bacteria. The promotion of lysosomal fusion with Legionella-containing phagosomes constitutes a likely mechanism of L. pneumophila growth suppression by the collectins. 相似文献
964.
Protein folding is a prominent chaperone function of the Hsp70 system. Refolding of an unfolded protein is efficiently mediated by the Hsc70 system with either type 1 DnaJ protein, DjA1 or DjA2, and a nucleotide exchange factor. A surface plasmon resonance technique was applied to investigate substrate recognition by the Hsc70 system and demonstrated that multiple Hsc70 proteins and a dimer of DjA1 initially bind independently to an unfolded protein. The association rate of the Hsc70 was faster than that of DjA1 under folding-compatible conditions. The Hsc70 binding involved a conformational change, whereas the DjA1 binding was bivalent and substoichiometric. Consistently, we found that the bound 14C-labeled Hsc70 to the unfolded protein became more resistant to tryptic digestion. The gel filtration and cross-linking experiments revealed the predominant presence of the DjA1 dimer. Furthermore, the Hsc70 and DjA1 bound to distinct sets of peptide array sequences. All of these findings argue against the generality of the widely proposed hypothesis that the DnaJ-bound substrate is targeted and transferred to Hsp70. Instead, these results suggest the importance of the bivalent binding of DjA1 dimer that limits unfavorable transitions of substrate conformations in protein folding. 相似文献
965.
Ichinose M Saito M Kondo N Nishiyasu T 《American journal of physiology. Heart and circulatory physiology》2006,290(4):H1419-H1426
We investigated the time-dependent modulation of arterial baroreflex (ABR) control of muscle sympathetic nerve activity (MSNA) that occurs during isometric handgrip exercise (IHG). Thirteen healthy subjects performed a 3-min IHG at 30% maximal voluntary contraction, which was followed by a period of imposed postexercise muscle ischemia (PEMI). The ABR control of MSNA (burst incidence and strength and total activity) was evaluated by analyzing the relationship between spontaneous variations in diastolic arterial pressure (DAP) and MSNA during supine rest, at each minute of IHG, and during PEMI. We found that 1) the linear relations between DAP and MSNA variables were shifted progressively rightward until the third minute of IHG (IHG3); 2) 2 min into IHG (IHG2), the DAP-MSNA relations were shifted upward and were shifted further upward at IHG3; 3) the sensitivity of the ABR control of total MSNA was increased at IHG2 and increased further at IHG3; and 4) during PEMI, the ABR operating pressure was slightly higher than at IHG2, and the sensitivity of the control of total MSNA was the same as at IHG2. During PEMI, the DAP-burst strength and DAP-total MSNA relations were shifted downward from the IHG3 level to the IHG2 level, whereas the DAP-burst incidence relation remained at the IHG3 level. These results indicate that during IHG, ABR control of MSNA is modulated in a time-dependent manner. We suggest that this modulation of ABR function is one of the mechanisms underlying the progressive increase in blood pressure and MSNA during the course of isometric exercise. 相似文献
966.
The entire cloned human adenovirus type 5 (Ad5) genome is known to be able to generate infectious virus after transfection into 293 cells when the both ends of the genome are exposed by digestion with appropriate restriction enzymes. However, when one or both ends of the genome are tagged with nucleotides and are not intact, whether the tagged end of the viral genome was remained tagged or corrected to be intact during the generation of viral clones has been unclear and, if such oligonucleotide removal occurs, how does the virus remove these tagged sequences and thereby restore its proper structure? Here, we show in our semi‐quantitative study that the generation efficiency of virus clones decreases depending on the length of nucleotide tags at the both ends and that both the oligonucleotide tags were precisely removed during virus generation with restoration of the proper terminal sequences. Interestingly the viral genome of which one end was tagged, while the other was attached about 12‐kb sequences, did generate intact viral clones at a reduced but significant efficiency. From these results, we here propose a possible mechanism whereby the terminal‐protein‐deoxycytidine complex enters from the enzyme‐cleaved end and reaches deoxyguanine at the initiating position of DNA synthesis in vivo. A replication origin at one end, embedded deeply in double‐stranded DNA, can be activated by two cycles of one‐directional full‐length DNA synthesis initiated by the other exposed replication origin about 30 kilobases away. We also describe new cassette cosmids which can use not only PacI but also BstBI for construction of an adenovirus vector, without reducing construction efficiency. 相似文献
967.
Firefly luciferase and fatty acyl-CoA synthetase are members of the acyl-CoA synthetase super family, which consists of a large N-terminal domain and a small C-terminal domain. Previously we found that firefly luciferase has fatty acyl-CoA synthetic activity, and also identified that the homolog of firefly luciferase in Drosophila melanogaster (CG6178) is a fatty acyl-CoA synthetase and is not a luciferase. In this study, we constructed chimeric proteins by exchanging the domain between Photinus pyralis luciferase (PpLase) and Drosophila CG6178, and determined luminescence and fatty acyl-CoA synthetic activities. A chimeric protein with the N-terminal domain of PpLase and the C-terminal domain of CG6178 (Pp/Dm) had luminescence activity, showing approximately 4% of the activity of wild-type luciferase. The Pp/Dm protein also had fatty acyl-CoA synthetic activity and the substrate specificity was similar to PpLase. In contrast, a chimeric protein with the N-terminal domain of CG6178 and the C-terminal of PpLase (Dm/Pp) had only fatty acyl-CoA synthetase activity, and the substrate specificity was similar to CG6178. These results suggest that the N-terminal domain of firefly luciferase is essential for substrate recognition, and that the C-terminal domain is indispensable but not specialized for the luminescence reaction. 相似文献
968.
Inoue Y Kawahara H Shirahata S Sugimoto Y 《Bioscience, biotechnology, and biochemistry》2006,70(9):2248-2253
Fructose was focused on as an alternative sugar source to glucose in a hybridoma culture medium because it decreases lactate production during cultivation, leading to cell and product stability. But, not all human hybridoma cell lines grew well in a fructose-based serum-free medium. We found that the addition of all-trans-retinoic acid to the fructose-based medium improved the growth and monoclonal antibody production of hybridoma cell lines by up-regulation of fructose incorporation that represented increased expression of the fructose transporter, GLUT5. Selective activation of retinoid nuclear receptor by synthetic ligands showed that both retinoic acid receptors and retinoid X receptors might be related to the improvement of the fructose-based hybridoma culture. This study might be applicable to cell cultures susceptible to lactate and pH changes as well as hybridoma cultures. 相似文献
969.
Inoue H Kobayashi-Hattori K Horiuchi Y Oishi Y Arai S Takita T 《Bioscience, biotechnology, and biochemistry》2006,70(5):1134-1139
We investigated the regulatory effects of structural differences among methylxanthine derivatives on the elevation of body fat percentage in developmental-stage rats. Caffeine, theophylline and theobromine were used as the methylxanthines. High-fat diets (20% lard) containing each methylxanthine (0.025%) were administered to male Sprague-Dawley rats for 12 weeks, with the result that the body fat percentage was generally reduced in each methylxanthine-fed group. The abdominal adipose tissue weight in the caffeine group was also significantly lower than that in the control group, the serum cholesterol and triglyceride levels in the caffeine group also being significantly lower than the levels in the control group. The study results suggest that caffeine could contribute most to preventing arteriosclerotic diseases. 相似文献
970.
To clarify the alternative mechanisms to vitamin E (VE) regulating lipid peroxide accumulation in the liver after docosahexaenoic acid (DHA) ingestion, we examined the relationship between the DHA-induced lipid peroxide formation and induction of the xenobiotic transporters, Ral-binding GTPase-activating protein (RalBP1) and multidrug resistance-associated proteins 1, 2 and 3 (MRP1-3), in the liver of rats fed with DHA. The test diets contained DHA and linoleic acid (LA) (8.7% and 2.1% of total energy, respectively) with different levels of dietary VE (normal and low: 68 and 7.7 mg of alpha-tocopherol equivalent per kg diet, respectively), and the control diet contained LA alone (11.5% of total energy). The rats were fed with these experimental diets for 14 d. The proportions of DHA in the liver, kidney and heart were higher in the DHA-fed groups than in the LA-fed group. The tissue thiobarbituric acid values as an index of lipid peroxidation were also significantly higher in the DHA-fed groups, but the value did not differ between the DHA-fed groups with different VE levels. In the liver, there were no significant differences in the glutathione S-transferase (GST) and aldehyde dehydrogenase (ALDH) activities or in the expression of GST M2, RalBP1, MRP1 and MRP2 mRNA. However, the obvious induction of expression of liver MRP3 mRNA and tendency to produce the protein were recognized after DHA ingestion. This study is the first to report the gene expression of MRP3 by DHA ingestion. There might exist, therefore, some relationship between the DHA intake and MRP3 induction in regulating lipid peroxide accumulation in the liver. 相似文献