Topically applied 1,25-dihydroxyvitamin D3 enhances the suppressive activity of CD4+CD25+ cells in the draining lymph nodes

The immunomodulatory effects of vitamin D have been described following chronic oral administration to mice or supplementation of cell cultures with 1,25-dihydroxyvitamin D(3) (1,25(OH)(2)D(3)), the active form of vitamin D. In this study, topically applied 1,25(OH)(2)D(3), enhanced the suppressive capacity of CD4(+)CD25(+) cells from the draining lymph nodes. The effects of topical 1,25(OH)(2)D(3) were compared with those of UVB irradiation, which is the environmental factor required for 1,25(OH)(2)D(3) production in skin. CD4(+) cells from the skin-draining lymph nodes (SDLN) of either 1,25(OH)(2)D(3)-treated or UVB-irradiated mice had reduced capacity to proliferate to Ags presented in vitro, and could suppress Ag-specific immune responses upon adoptive transfer into naive mice. This regulation was lost upon removal of CD4(+)CD25(+) cells. Furthermore, purified CD4(+)CD25(+) cells from the SDLN of 1,25(OH)(2)D(3)-treated or UVB-irradiated mice compared with equal numbers of CD4(+)CD25(+) cells from control mice had increased capacity to suppress immune responses in both in vitro and in vivo assay systems. Following the sensitization of recipient mice with OVA, the proportion of CD4(+)Foxp3(+) cells of donor origin significantly increased in recipients of CD4(+)CD25(+) cells from the SDLN of 1,25(OH)(2)D(3)-treated mice, indicating that these regulatory T cells can expand in vivo with antigenic stimulation. These studies suggest that 1,25(OH)(2)D(3) may be an important mediator by which UVB-irradiation exerts some of its immunomodulatory effects.     

Chimpanzee (Pan troglodytes schweinfurthii) Group Sleep and Pathogen-Vector Avoidance: Experimental Support for the Encounter-Dilution Effect

International Journal of Primatology - Sleep is essential for survival, yet it represents a time of extreme vulnerability, including through exposure to parasites and pathogens transmitted by...     

Attempting to reduce regurgitation and reingestion in a captive chimpanzee through increased feeding opportunities: a case study

Persistent regurgitation and reingestion is an abnormal behavior seen in many captive NHPs, particularly gorillas and chimpanzees. Successful reduction of regurgitation in captive gorillas has been achieved by providing browse, such as branches and leaves, and feeding continuously throughout the day. However, this modality has not been tested in chimpanzees. The authors tested these methods in a 15-year-old male chimpanzee (Pan troglodytes) with a seven-year history of regurgitation and reingestion by alternately providing additional opportunities to forage or giving daily browse. The results show that providing browse on a daily basis models the feeding behavior of wild chimpanzees and is a successful way to reduce regurgitation and reingestion in a chimpanzee unresponsive to previous dietary changes.     

Identification of the Primary Lesion of Toxic Aluminum in Plant Roots

Despite the rhizotoxicity of aluminum (Al) being identified over 100 years ago, there is still no consensus regarding the mechanisms whereby root elongation rate is initially reduced in the approximately 40% of arable soils worldwide that are acidic. We used high-resolution kinematic analyses, molecular biology, rheology, and advanced imaging techniques to examine soybean (Glycine max) roots exposed to Al. Using this multidisciplinary approach, we have conclusively shown that the primary lesion of Al is apoplastic. In particular, it was found that 75 µm Al reduced root growth after only 5 min (or 30 min at 30 µm Al), with Al being toxic by binding to the walls of outer cells, which directly inhibited their loosening in the elongation zone. An alteration in the biosynthesis and distribution of ethylene and auxin was a second, slower effect, causing both a transient decrease in the rate of cell elongation after 1.5 h but also a longer term gradual reduction in the length of the elongation zone. These findings show the importance of focusing on traits related to cell wall composition as well as mechanisms involved in wall loosening to overcome the deleterious effects of soluble Al.Acid soils, in which soluble aluminum (Al) is elevated, comprise approximately 4 billion ha of the global ice-free land or approximately 40% of the world’s total arable land (Eswaran et al., 1997). Although it has been known for over a century that Al decreases plant root growth, the underlying reasons for its toxic effects remain elusive. In a highly cited review of literature, Horst et al. (2010) stated that the “mechanism of Al-induced inhibition of root elongation is still not well understood, and it is a matter of debate whether the primary lesions of Al toxicity are apoplastic or symplastic.” For example, in the symplast, Al has been reported to cause interference with DNA synthesis and mitosis, disrupt the function of the Golgi apparatus, damage membrane integrity, and inhibit mitochondrial functions. In the apoplast, Al may rigidify the cell wall (prevent loosening), inhibit cell wall enzymes, such as expansin, and cause cell rupturing (for review, see Rengel, 1997; Horst et al., 2010). The identification of numerous processes influenced by Al (such as those listed above) has occurred for a number of reasons. First, it is almost certain that Al does, indeed, have multiple mechanisms by which it reduces growth in both the short and long term. Second, there has been a lack of studies that have related the changes observed in these processes to the actual underlying changes in root elongation rate (RER). Thus, there typically has been no clear separation of the primary and secondary toxic effects of Al. Although some studies have examined the speed with which Al reduces RER, these studies have generally (1) been at comparatively coarse time steps and (2) not taken the additional step of relating these changes in RER to the underlying mechanism of toxicity (for example, see Llugany et al., 1995; Parker, 1995; Kidd et al., 2001; and Blamey et al., 2004).In this study, we used kinematic analyses as the basis for elucidating the underlying mechanisms by which Al exerts toxic effects on the growth of soybean (Glycine max) roots. First, after exposure to Al, we captured digital images every 0.5 to 1 min so as to calculate changes in overall RER with a resolution of 5 to 10 min. Second, we examined whether these changes in overall RER resulted from either or both (1) changes in the length of the root elongation zone (LEZ) or (2) changes in elemental elongation rate (EER), which is defined as the change in length per unit length of a small portion of tissue (Silk, 1992), as a measure of the rate at which individual cells elongate. Based upon these data, it seemed that Al is toxic by at least three separate but interrelated mechanisms. To provide additional information on these mechanisms, we: (1) used kinematic analyses to investigate the effects of aminoethoxyvinyl-Gly (AVG), an ethylene synthesis inhibitor; (2) examined changes in auxin distribution and movement in the root apex using a highly active synthetic auxin-response element (referred to as DR5) with a minimal promoter-GUS reporter gene (DR5::GUS); (3) investigated rapid changes in the mechanical properties of root cell walls using creep analysis; and (4) used synchrotron-based low-energy x-ray fluorescence spectromicroscopy (LEXRF) and high-resolution secondary ion mass spectroscopy (NanoSIMS) to examine the spatial distribution of Al on cellular and subcellular levels in roots exposed to Al for only 30 min. This integrated approach has allowed us to identify the sequence of processes whereby Al reduces the growth of soybean roots in the short term.     

Methods Used in Economic Evaluations of Chronic Kidney Disease Testing — A Systematic Review

BackgroundThe prevalence of chronic kidney disease (CKD) is high in general populations around the world. Targeted testing and screening for CKD are often conducted to help identify individuals that may benefit from treatment to ameliorate or prevent their disease progression.AimsThis systematic review examines the methods used in economic evaluations of testing and screening in CKD, with a particular focus on whether test accuracy has been considered, and how analysis has incorporated issues that may be important to the patient, such as the impact of testing on quality of life and the costs they incur.MethodsArticles that described model-based economic evaluations of patient testing interventions focused on CKD were identified through the searching of electronic databases and the hand searching of the bibliographies of the included studies.ResultsThe initial electronic searches identified 2,671 papers of which 21 were included in the final review. Eighteen studies focused on proteinuria, three evaluated glomerular filtration rate testing and one included both tests. The full impact of inaccurate test results was frequently not considered in economic evaluations in this setting as a societal perspective was rarely adopted. The impact of false positive tests on patients in terms of the costs incurred in re-attending for repeat testing, and the anxiety associated with a positive test was almost always overlooked. In one study where the impact of a false positive test on patient quality of life was examined in sensitivity analysis, it had a significant impact on the conclusions drawn from the model.ConclusionFuture economic evaluations of kidney function testing should examine testing and monitoring pathways from the perspective of patients, to ensure that issues that are important to patients, such as the possibility of inaccurate test results, are properly considered in the analysis.     

Computational Analysis of an Autophagy/Translation Switch Based on Mutual Inhibition of MTORC1 and ULK1

We constructed a mechanistic, computational model for regulation of (macro)autophagy and protein synthesis (at the level of translation). The model was formulated to study the system-level consequences of interactions among the following proteins: two key components of MTOR complex 1 (MTORC1), namely the protein kinase MTOR (mechanistic target of rapamycin) and the scaffold protein RPTOR; the autophagy-initiating protein kinase ULK1; and the multimeric energy-sensing AMP-activated protein kinase (AMPK). Inputs of the model include intrinsic AMPK kinase activity, which is taken as an adjustable surrogate parameter for cellular energy level or AMP:ATP ratio, and rapamycin dose, which controls MTORC1 activity. Outputs of the model include the phosphorylation level of the translational repressor EIF4EBP1, a substrate of MTORC1, and the phosphorylation level of AMBRA1 (activating molecule in BECN1-regulated autophagy), a substrate of ULK1 critical for autophagosome formation. The model incorporates reciprocal regulation of mTORC1 and ULK1 by AMPK, mutual inhibition of MTORC1 and ULK1, and ULK1-mediated negative feedback regulation of AMPK. Through analysis of the model, we find that these processes may be responsible, depending on conditions, for graded responses to stress inputs, for bistable switching between autophagy and protein synthesis, or relaxation oscillations, comprising alternating periods of autophagy and protein synthesis. A sensitivity analysis indicates that the prediction of oscillatory behavior is robust to changes of the parameter values of the model. The model provides testable predictions about the behavior of the AMPK-MTORC1-ULK1 network, which plays a central role in maintaining cellular energy and nutrient homeostasis.     

Dog breed stereotype and exposure to negative behavior: effects on perceptions of adoptability

The purpose of the study was to determine if brief exposure to a dog behaving badly or in a friendly manner affects subsequent perceptions of the target dog's and other dogs' adoptability. Participants viewed a videotape of an adoptable German shepherd behaving either aggressively or prosocially and were then asked to rate the characteristics and adoptability of the same and different dogs. The results showed that people who saw the aggressive behavioral schema perceived only the target dog and a dog of the same breed to be significantly less adoptable than dogs of other breeds (p<.01). Results of a principal components analysis showed participants perceived the adoptability of dogs to be related to "sociability": Adoptable dogs were more approachable, friendly, intelligent, and less dangerous and aggressive (p<.01). Brief exposure to a misbehaving dog prior to making a decision to adopt may unfairly penalize other dogs perceived to be similar to the misbehaving dog.