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51.
Mohamed Abdel-Mohsen Xutao Deng Teri Liegler John C. Guatelli Mohamed S. Salama Hussam El-din A. Ghanem Andri Rauch Bruno Ledergerber Steven G. Deeks Huldrych F. Günthard Joseph K. Wong Satish K. Pillai 《Journal of virology》2014,88(1):763-767
Alpha interferon (IFN-α) suppresses human immunodeficiency virus type 1 (HIV-1) replication in vitro by inducing cell-intrinsic retroviral restriction mechanisms. We investigated the effects of IFN-α/ribavirin (IFN-α/riba) treatment on 34 anti-HIV-1 restriction factors in vivo. Expression of several anti-HIV-1 restriction factors was significantly induced by IFN-α/riba in HIV/hepatitis C virus (HCV)-coinfected individuals. Fold induction of cumulative restriction factor expression in CD4+ T cells was significantly correlated with viral load reduction during IFN-α/riba treatment (r2 = 0.649; P < 0.016). Exogenous IFN-α induces supraphysiologic restriction factor expression associated with a pronounced decrease in HIV-1 viremia. 相似文献
52.
Svend Roesen Madsen Carl Erik Olsen Hussam Hassan Nour-Eldin Barbara Ann Halkier 《Plant physiology》2014,166(3):1450-1462
In Arabidopsis (Arabidopsis thaliana), a strategy to defend its leaves against herbivores is to accumulate glucosinolates along the midrib and at the margin. Although it is generally assumed that glucosinolates are synthesized along the vasculature in an Arabidopsis leaf, thereby suggesting that the margin accumulation is established through transport, little is known about these transport processes. Here, we show through leaf apoplastic fluid analysis and glucosinolate feeding experiments that two glucosinolate transporters, GTR1 and GTR2, essential for long-distance transport of glucosinolates in Arabidopsis, also play key roles in glucosinolate allocation within a mature leaf by effectively importing apoplastically localized glucosinolates into appropriate cells. Detection of glucosinolates in root xylem sap unambiguously shows that this transport route is involved in root-to-shoot glucosinolate allocation. Detailed leaf dissections show that in the absence of GTR1 and GTR2 transport activity, glucosinolates accumulate predominantly in leaf margins and leaf tips. Furthermore, we show that glucosinolates accumulate in the leaf abaxial epidermis in a GTR-independent manner. Based on our results, we propose a model for how glucosinolates accumulate in the leaf margin and epidermis, which includes symplasmic movement through plasmodesmata, coupled with the activity of putative vacuolar glucosinolate importers in these peripheral cell layers.Feeding behavior of herbivorous insects and distribution of defense compounds in plants have been suggested to be a result of an arms race between plants and insects that has spanned millions of years (Ehrlich and Raven, 1964). Whether insects adapted first to plants or the other way around is an ongoing debate in this research field (Schoonhoven et al., 2005; Ali and Agrawal, 2012). Leaf margin accumulation of defense compounds has been demonstrated in various plant species (Gutterman and Chauser-Volfson, 2000; Chauser-Volfson et al., 2002; Kester et al., 2002; Cooney et al., 2012). In the model plant Arabidopsis (Arabidopsis thaliana), higher concentration of glucosinolates, which constitute a major part of the chemical defense system in this plant (Kliebenstein et al., 2001a; Halkier and Gershenzon, 2006), was found at the leaf midrib and margins compared with the leaf lamina (Shroff et al., 2008; Sønderby et al., 2010). This nonuniform leaf distribution of glucosinolates appeared to explain the feeding pattern of a generalist herbivore (Helicoverpa armigera), as it avoided feeding at the leaf margin and midrib (Shroff et al., 2008). A similar feeding pattern on Arabidopsis was observed for a different generalist herbivore, Spodoptera littoralis (Schweizer et al., 2013). Interestingly, S. littoralis was shown to favor feeding from Arabidopsis leaf margins in glucosinolate-deficient mutants (Schweizer et al., 2013), which could indicate an inherent preference for margin feeding and that Arabidopsis adapted to such behavior by accumulating defense compounds here. A damaged leaf margin may be more critical for leaf stability than damage to inner leaf parts (Shroff et al., 2008), further motivating protection of this tissue. The margin-feeding preference of S. littoralis might be explained by better nutritional value of the leaf margin cells (Schweizer et al., 2013), which has been shown to consist of specialized elongated cell files (Koroleva et al., 2010; Nakata and Okada, 2013).Other distribution patterns have been reported for glucosinolates in an Arabidopsis leaf. A study investigating spatiotemporal metabolic shifts during senescence in Arabidopsis reported that fully expanded mature leaves exhibited a glucosinolate gradient from base to tip, with highest level of glucosinolates at the leaf base (Watanabe et al., 2013). In contrast to the horizontal plane, less has been reported on distribution of glucosinolates in the vertical plane of a leaf. A localization study of cyanogenic glucosides, defense molecules related to glucosinolates (Halkier and Gershenzon, 2006), determined that these compounds primarily were located in the epidermis of sorghum (Sorghum bicolor; Kojima et al., 1979). Whereas epidermis-derived trichomes in Arabidopsis were recently demonstrated to contain glucosinolates and to express glucosinolate biosynthetic genes (Frerigmann et al., 2012), no studies have investigated glucosinolates in the epidermal cell layer.Based on promoter-GUS studies, biosynthesis of glucosinolates in leaves of Arabidopsis has been associated with primarily major and minor veins in leaves and silique walls (Mikkelsen et al., 2000; Reintanz et al., 2001; Tantikanjana et al., 2001; Chen et al., 2003; Grubb et al., 2004; Schuster et al., 2006; Gigolashvili et al., 2007; Li et al., 2011; Redovniković et al., 2012). The discrepancy between vasculature-associated glucosinolate biosynthesis and margin accumulation of glucosinolates suggests that transport processes must be involved in establishing the distribution pattern of glucosinolates within a leaf.Plant transport systems include the apoplastic xylem, the symplastic phloem, and plasmodesmata. Xylem transport is mainly driven by an upward pull generated by transpiration from aerial plant organs, thereby directing transport to sites of rapid evaporation (such as leaf margins; Sattelmacher, 2001). Phloem flow is facilitated by an osmosis-regulated hydrostatic pressure difference between source and sink tissue, primarily generated by Suc bulk flow (Lucas et al., 2013). Plasmodesmata are intercellular channels that establish symplasmic pathways between neighboring cells, and most cell types in a plant are symplastically connected via plasmodesmata (Roberts and Oparka, 2003). Translocation of small molecules in these channels is driven by diffusion and is regulated developmentally as well as spatially to form symplastically connected domains (Roberts and Oparka, 2003; Christensen et al., 2009). To what extent any of these transport processes are involved in establishing specific distribution patterns of glucosinolates within leaves is not known.Recently, two plasma membrane-localized, glucosinolate-specific importers, GLUCOSINOLATE TRANSPORTER1 (GTR1) and GTR2, were identified in Arabidopsis (Nour-Eldin et al., 2012). In leaf, their expression patterns were shown to be in leaf veins (GTR1 and GTR2) and surrounding mesophyll cells (GTR1; Nour-Eldin et al., 2012). Absence of aliphatic and indole glucosinolates in seeds of the gtr1gtr2 double knockout (dKO) mutant (gtr1gtr2 dKO) demonstrated that these transporters are essential for long-distance glucosinolate transport to the seeds and indicates a role in phloem loading (Nour-Eldin et al., 2012). Another study investigating long-distance transport of glucosinolates in the 3-week-old wild type and gtr1gtr2 dKO indicated that GTR1 and GTR2 were involved in bidirectional transport of aliphatic glucosinolates between root and shoot via both phloem and xylem pathways (Andersen et al., 2013). The authors suggested a role for GTR1 and GTR2 in the retention of long-chained aliphatic glucosinolates in roots by removing the compounds from the xylem (Andersen et al., 2013).Identification of the glucosinolate transporters GTR1 and GTR2 has provided a molecular tool to investigate the role of transport processes in establishing leaf glucosinolate distribution. In this study, we have performed a detailed spatial investigation of the distribution of an exogenously fed glucosinolate (sinigrin) and endogenous glucosinolates within mature wild-type and gtr1gtr2 dKO Arabidopsis leaves, achieved by collecting and analyzing leaf parts at the horizontal (y axis: petiole, base, and tip; x axis: midrib, lamina, and margin) as well as at the vertical leaf plane (z axis: abaxial epidermis). Furthermore, we analyze wild-type and gtr1gtr2 dKO root xylem sap and leaf apoplastic fluids for glucosinolates. Based on our results, we propose a model where GTR1 and GTR2 import glucosinolates from the apoplast to the symplast and where the glucosinolate distribution pattern within an Arabidopsis leaf is established via symplasmic movement of glucosinolates through plasmodesmata, coupled with the activity of putative vacuolar glucosinolate importers in peripheral cell layers. 相似文献
53.
Paola Karina García Carlos Alberto Cano Camilo Alberto González Ronald Leonel García Mady Arroyave 《Revista espa?ola de geriatría y gerontología》2014
Introduction
Kidney transplantation is the treatment of choice in patients with end- stage renal disease. Renal transplantation in without fear of ethical conflicts is the best treatment option in the elderly. The objective is to describe the demographic and clinical characteristics of patients over 60 years old with at least one year of renal transplantation in a single center of Colombia.Methods
This is a cohort study of patients over 60 years old from a single center in Bogota, Colombia. About 28 patients were analyzed between June 2004 and March 2012.Results
The mean age was 65 years old, with 89% males. The main cause of chronic kidney disease was diabetic nephropathy, followed by hypertensive nephrosclerosis. Most of them (96.4%) were deceased donor transplants with a mean age of 40 years old, cold ischemia time was 12 hours and there was a mismatch of 3.25 (±1.29). Major comorbidities were hypertension, diabetes, dyslipidemia, and coronary arterial disease. Almost 17% had delayed graft dysfunction. Serum creatinine at 6 and 12 months was 1.27 mg/dl (±0.31) and 1.25 mg/dl (±0.33), respectively. Only 10% of patients had acute cellular rejection. Humoral rejections were not documented. The patient survival at 1 year was 89.7%, and death-censored graft survival was 96.4%. The most frequent cause of death was acute myocardial infarction.Conclusions
Proper selection of kidney transplant recipients shows satisfactory results in survival, with low morbidity in patients older than 60 years. 相似文献54.
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59.
Sahar Shoman Mohamed Nabil Ashraf Tabl Hussam Ghanem Sherif El kafrawy 《Memórias do Instituto Oswaldo Cruz》2014,109(6):722-727
Epstein-Barr virus (EBV) plays a major role in liver pathology. Similar to other
members of the herpesvirus family, EBV establishes a persistent infection in more
than 90% of adults. The aim of this study was to evaluate the impact of EBV and
chronic hepatitis C co-infection (HCV) on biochemical and immunological responses in
patients. The study was conducted in 62 patients and 33 apparently healthy controls.
Patients were divided into three groups: group I, consisting of 31 patients with
chronic hepatitis C infection (CHC), group II, consisting of eight patients with EBV
infection and without HCV infection and group III, consisting of 23 patients with EBV
and chronic HCV. The percentage of CD3+ cells, helper CD4+
cells and CD19+ B-cells was measured by flow cytometry. Human interferon-γ
(IFN-γ) and interleukin (IL)-15 levels were measured by an ELISA. The levels of liver
alanine aminotransferase and aspartate aminotransferase enzymes were higher in
EBV/HCV patients compared to that in EBV and HCV mono-infected patients. EBV/HCV
patients had significantly reduced percentages of CD3+ and CD4+
cells compared to EBV patients. Serum IFN-γ levels were significantly reduced in
EBV/HCV patients (3.86 pg/mL) compared to CHC patients (6.76 pg/mL) and normal
controls (4.69 pg/mL). A significant increase in serum IL-15 levels was observed in
EBV/HCV patients (67.7 pg/mL) compared to EBV patients (29.3 pg/mL). Taken together,
these observations suggest that HCV and EBV co-infection can potentiate immune
response dampening in patients. 相似文献
60.
Mohammed M. Alanazi Ibrahim H. Eissa Nawaf A. Alsaif Ahmad J. Obaidullah Wael A. Alanazi Abdullah F. Alasmari Hussam Albassam Hazem Elkady Alaa Elwan 《Journal of enzyme inhibition and medicinal chemistry》2021,36(1):1760
Vascular endothelial growth factor receptor-2 (VEGFR-2) plays a critical role in cancer angiogenesis. Inhibition of VEGFR-2 activity proved effective suppression of tumour propagation. Accordingly, two series of new 3-methylquinoxaline derivatives have been designed and synthesised as VEGFR-2 inhibitors. The synthesised derivatives were evaluated in vitro for their cytotoxic activities against MCF-7and HepG2 cell lines. In addition, the VEGFR-2 inhibitory activities of the target compounds were estimated to indicate the potential mechanism of their cytotoxicity. To a great extent, the results of VEGFR-2 inhibition were highly correlated with that of cytotoxicity. Compound 27a was the most potent VEGFR-2 inhibitor with IC50 of 3.2 nM very close to positive control sorafenib (IC50 = 3.12 nM). Such compound exhibited a strong cytotoxic effect against MCF-7 and HepG2, respectively with IC50 of 7.7 and 4.5 µM in comparison to sorafenib (IC50 = 3.51 and 2.17 µM). In addition, compounds 28, 30f, 30i, and 31b exhibited excellent VEGFR-2 inhibition activities (IC50 range from 4.2 to 6.1 nM) with promising cytotoxic activity. Cell cycle progression and apoptosis induction were investigated for the most active member 27a. Also, the effect of 27a on the level of caspase-3, caspase-9, and BAX/Bcl-2 ratio was determined. Molecular docking studies were implemented to interpret the binding mode of the target compounds with the VEGFR-2 pocket. Furthermore, toxicity and ADMET calculations were performed for the synthesised compounds to study their pharmacokinetic profiles 相似文献