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81.
The amount of nitrogen required to complete an insect's life cycle may vary greatly among species that have evolved distinct life history traits. Myrmecophilous caterpillars in the Lycaenidae family produce nitrogen-rich exudates from their dorsal glands to attract ants for protection, and this phenomenon has been postulated to shape the caterpillar's host-plant choice. Accordingly, it was postulated that evolution towards myrmecophily in Lycaenidae is correlated with the utilization of nitrogen-rich host plants. Although our results were consistent with the evolutionary shifts towards high-nutrient host plants serving as exaptation for the evolution of myrmecophily in lycaenids, the selection of nitrogen-rich host plants was not confined to lycaenids. Butterfly species in the nonmyrmecophilous family Pieridae also preferred nitrogen-rich host plants. Thus, we conclude that nitrogen is an overall important component in the caterpillar diet, independent of the level of myrmecophily, as nitrogen can enhance the overall insect fitness and survival. However, when nitrogen can be obtained through alternative means, as in socially parasitic lycaenid species feeding on ant brood, the selective pressure for maintaining the use of nutrient-rich host plants is relaxed, enabling the colonization of nitrogen-poor host plants.  相似文献   
82.
NO is an important regulator of cardiovascular remodelling and function. ADMA, an endogenous L-arginine analogue, reduces NO production by inhibiting the activity of NOS. ADMA levels in turn, are regulated by DDAH, which metabolises ADMA. High levels of ADMA and dysregulated DDAH activity are risk factors for cardiovascular disease and morbidity. To investigate this link, the DDAH I null mouse has been recently generated and has a lethal phenotype. Studies on vascular function in the DDAH I heterozygous knockout mouse, which is viable, demonstrates a causal link between reduced DDAH I activity, increased ADMA levels and reduced NO signalling and vascular dysfunction. In another study, detailed in vitro analyses reveal that the DDAH/ADMA pathway critically regulates endothelial cell motility and angiogenesis and establishes some of the molecular mechanisms involved. These studies highlight the importance of DDAH and ADMA in regulating NO dependent vascular homeostasis.Key words: asymmetric dimethylarginine (ADMA), dimethylarginine dimethylaminohydrolase (DDAH), nitric oxide (NO), angiogenesis, endothelial, motilityNO is generated from L-arginine by NOS; a process which is competitively inhibited by the arginine analogues ADMA and L-NMMA. These endogenous factors are products of proteolytic degradation of methylated proteins. ADMA and L-NMMA are metabolised by DDAH I and II, thereby enhancing NO generation. Of relevance to vascular biology, dysfunctional DDAH activity and ADMA accumulation are risk factors for cardiovascular disorders, including hypertension, artherosclerosis, diabetes, insulin resistance, hypercholesterolemia and homocysteinemia (reviewed in ref. 1).The DDAH I null mouse was generated recently by Leiper et al.2 to facilitate investigation of the role of the DDAH/ADMA pathway in the pathology of cardiovascular disorders. While the absence of DDAH I causes a lethal phenotype, heterozygotes (HT) did not display any obvious abnormalities. However, ADMA levels were raised in tissues and plasma, in association with raised blood pressure and systemic vascular resistance, and reduced cardiac output and heart rate. Synthetic DDAH I inhibitors were designed by the authors and were shown by crystallography to bind to the active site of the enzyme and induce local distortions at this region. Confirming that loss of DDAH I was responsible for ADMA accumulation, these inhibitors enhanced ADMA levels in wildtype mice, and resulted in cardiovascular changes similar to those seen in the HT background. Inhibitor treatment also promoted ADMA release from wildtype blood vessels maintained ex vivo, indicating that the DDAH/ADMA pathway is directly responsible for maintaining cardiovascular function in this model.Evidence was also presented for a causal link between ADMA metabolism and reduced NO levels. In an ex vivo model, aortic rings from HT mice displayed enhanced phenylephrine-induced contraction and reduced acetylcholine-induced relaxation, while DDAH I inhibitors induced similar responses in aortic rings from wildtype mice; indicative of reduced levels of endothelial-derived NO. Further demonstrating an ADMA/NO-dependent mechanism, exogenous L-arginine restored a normal response to these vasomodulators in the HT model (by competing with ADMA for interaction with NOS). Similarly, cultured endothelial cells from HT vessels produced more ADMA and less NO than cells from wildtype vessels, and DDAH I inhibitors induced a similar phenotype in wildtype endothelial cells. The significance of DDAH I/ADMA and NO in vascular disease was tested in a disease model. Endotoxic shock was induced in rats by intravenous infusion of LPS, which induces excess NO production, resulting in systemic hypotension. After blood pressure had fallen by 20%, infusion of a DDAH I inhibitor was able to rapidly stabilise blood pressure, in accordance with inhibition of NO production through reduced ADMA metabolism. Thus, when DDAH I is reduced, ADMA is increased and endogenous NO inhibited, resulting in altered vascular function.Another related study investigated a mechanistic understanding of the role of ADMA/DDAH/NO in angiogenesis.3 The authors demonstrated that ADMA regulates endothelial cell motility and phenotype by inhibiting NO-dependent changes in activity of Rho-GTPases; key mediators of cytoskeletal dynamics and motility. Treatment of pulmonary artery endothelial cells with ADMA enhanced stress fibres and focal adhesion formation in conjunction with increased activity of RhoA in pull-down assays. In accordance with these observations, motility, tracked by time-lapse microscopy, was inhibited by ADMA treatment, and ADMA effects were reversed by a Rho kinase inhibitor (Y-27632) or by adenoviral-mediated gene transfer of a dominant negative RhoA mutant. RhoA activity is mediated by PKG, which mediates RhoA-Ser188 phosphorylation, preventing RhoA localization to the membrane and inhibiting its activity.4 In further support of a RhoA-dependent mechanism, ADMA reduced phosphorylation at RhoA-Ser188, while a PKG activator was also able to revert ADMA effects on motility. Further, a non-phosphorylatable mutant of RhoA, Ala188RhoA, or a specific PKG inhibitor, each inhibited cell motility to a similar level as ADMA treatment alone. Inhibition of NO production and endothelial cell motility by ADMA was also reversed by a NO donor, SNAP, or by DDAH I or II overexpression via adenovirus-mediated gene transfer. Thus, reduction of NO/PKG levels by ADMA reduces RhoA phosphorylation at Ser188 resulting in enhancement of RhoA activity and inhibition of cell motility.The significance of these molecular mechanisms to angiogenesis was demonstrated using endothelial cells and aortic ring explants from HT DDAH I and wildtype mice. HT endothelial cells, which secrete more ADMA and produce less NO than their wildtype counterparts, exhibit enhanced RhoA activity and stress fibre formation in conjunction with reduced motility. Reduced sprouting from ex vivo aortic rings was also observed in the HT model, which was mimicked by addition of exogenous ADMA in the wildtype background. These data demonstrate that in vivo, DDAH/ADMA levels are likely to play a key role in control of endothelial cell motility and angiogenesis by regulating NO production.  相似文献   
83.
The amyloid-beta (Abeta) peptide, which likely plays a key role in Alzheimer disease, is derived from the amyloid-beta precursor protein (APP) through consecutive proteolytic cleavages by beta-site APP-cleaving enzyme and gamma-secretase. Unexpectedly gamma-secretase inhibitors can increase the secretion of Abeta peptides under some circumstances. This "Abeta rise" phenomenon, the same inhibitor causing an increase in Abeta at low concentrations but inhibition at higher concentrations, has been widely observed. Here we show that the Abeta rise depends on the beta-secretase-derived C-terminal fragment of APP (betaCTF) or C99 levels with low levels causing rises. In contrast, the N-terminally truncated form of Abeta, known as "p3," formed by alpha-secretase cleavage, did not exhibit a rise. In addition to the Abeta rise, low betaCTF or C99 expression decreased gamma-secretase inhibitor potency. This "potency shift" may be explained by the relatively high enzyme to substrate ratio under conditions of low substrate because increased concentrations of inhibitor would be necessary to affect substrate turnover. Consistent with this hypothesis, gamma-secretase inhibitor radioligand occupancy studies showed that a high level of occupancy was correlated with inhibition of Abeta under conditions of low substrate expression. The Abeta rise was also observed in rat brain after dosing with the gamma-secretase inhibitor BMS-299897. The Abeta rise and potency shift are therefore relevant factors in the development of gamma-secretase inhibitors and can be evaluated using appropriate choices of animal and cell culture models. Hypothetical mechanisms for the Abeta rise, including the "incomplete processing" and endocytic models, are discussed.  相似文献   
84.
3-phosphoinositide-dependent kinase-1 (PDK1) phosphorylates and activates several kinases in the cAMP-dependent, cGMP-dependent and protein kinase C (AGC) family. Many putative PDK1 substrates have been identified, but have not been analyzed following transient and specific inhibition of PDK1 activity. Here, we demonstrate that a previously characterized PDK1 inhibitor, BX-795, shows biological effects that are not consistent with PDK1 inhibition. Therefore, we describe the creation and characterization of a PDK1 mutant, L159G, which can bind inhibitor analogues containing bulky groups that hinder access to the ATP binding pocket of wild type (WT) kinases. When expressed in PDK1(-/-) ES cells, PDK1 L159G restored phosphorylation of PDK1 targets known to be hypophosphorylated in these cells. Screening of multiple inhibitor analogues showed that 1-NM-PP1 and 3,4-DMB-PP1 optimally inhibited the phosphorylation of PDK1 targets in PDK1(-/-) ES cells expressing PDK1 L159G but not WT PDK1. These compounds confirmed previously assumed PDK1 substrates, but revealed distinct dephosphorylation kinetics. While PDK1 inhibition had little effect on cell growth, it sensitized cells to apoptotic stimuli. Furthermore, PDK1 loss abolished growth of allograft tumors. Taken together we describe a model system that allows for acute and reversible inhibition of PDK1 in cells, to probe biochemical and biological consequences.  相似文献   
85.
86.
An initial SAR study on a series of apamin-displacing 2-aminothiazole K(Ca)2 channel blockers is described. Potent inhibitors such as N-(4-methylpyridin-2-yl)-4-(pyridin-2-yl)thiazol-2-amine (13) are disclosed, and for select members of the series, the relationship between the observed activity in a thallium flux, a binding and a whole-cell electrophysiology assay is presented.  相似文献   
87.
88.
We studied temporal and spatial dynamics of extremely diverse moth ensembles (Lepidoptera: Pyraloidea) along a gradient of forest disturbance ranging from undisturbed primary tropical rain forest to different kinds of modified forest and open cultivated land at the margin of Mount Kinabalu National Park (Sabah, East Malaysia). We sampled moths by light trapping during two periods (March‐May and August‐September 1997). We collected a total of 7724 individuals representing 680 species during 78 light‐trapping nights at six study sites. Species diversity (Fisher's α) of ensembles in undisturbed primary forest was distinctly higher than in disturbed or secondary forest. More pyraloid moths were attracted in undisturbed primary forest. Samples from disturbed primary or old‐growth secondary forest were statistically indistinguishable from the undisturbed primary forest ensemble in regard to species composition. Thus, pyraloid ensembles from disturbed forest with tall trees remaining appeared to represent impoverished subsets of the undisturbed primary forest community. The more heavily disturbed sites had a distinct fauna and showed a stronger faunal differentiation among each other. Four species of the genus Eoophyla, in which aquatic larvae feed on algae in fast‐running streams benefited prominently from forest disturbance. Temporal variation of ensembles was remarkably concordant across the disturbance gradient. Relative abundance variation of the commonest species was identical at all sites. Overall, pyraloid moths responded more sensitively to anthropogenic habitat alteration than most other moth taxa studied thus far in tropical regions and allowed for an analysis of diversity patterns at a high temporal resolution.  相似文献   
89.
Aim The objective of this study was to describe and interpret the changes in faunal composition in the moth family Geometridae (Lepidoptera) along a small‐scale elevational gradient in a tropical montane rain forest. This gradient was compared with a large‐scale latitudinal gradient in Europe. Location Investigations were carried out in the province Zamora‐Chinchipe in southern Ecuador along a gradient ranging from 1040 to 2677 m above sea level at twenty‐two sites. Methods Moths were sampled with light‐traps in three field periods in 1999 and 2000 and subsequently sorted and determined to species or morphospecies. Results We analysed 13,938 specimens representing 1010 species of geometrid moths. The proportional contribution of subtaxa to the local geometrid fauna changes along the elevational gradient at all systematic levels considered. While proportions of species of the subfamilies Ennominae, Sterrhinae and Geometrinae significantly decrease, the proportion of Larentiinae increases with increasing altitude. Changes also occur within the subfamilies Ennominae and Larentiinae. The host–plant specialist ennomine tribes Cassymini, Macariini and Palyadini completely vanish, and the proportion of the tribe Boarmiini decreases at high altitudes. In contrast, the remaining tribes (mostly comprising polyphagous species) either do not show proportional changes (Azelinini, Nacophorini, Nephodiini, Ourapterygini) or even increase (Caberini, ‘Cratoptera group’). Within Larentiinae, the species proportion of the genus Eois decreases, whereas concomitantly the proportion of Eupithecia increases. There is a remarkable similarity between the altitudinal patterns in Ecuador and those found along the latitudinal gradient in Europe. Main conclusions Species of the subfamily Larentiinae seem to be particularly well‐adapted to harsh environmental conditions, towards both high altitudes and latitudes. They might disproportionately profit from lower predation at higher altitudes. Many changes in the faunal composition can be explained by expected host–plant requirements of the species involved. Our results show that diversity estimates based on taxon ratios which are assumed to be constant must be regarded with caution because such ratios can change rapidly along environmental gradients.  相似文献   
90.
Alpha‐diversity of geometrid moths was investigated along an elevational gradient in a tropical montane rainforest in southern Ecuador. Diversity was measured using 1) species number, 2) extrapolated species number (Chao 1 estimator), 3) rarefied species number, and 4) Fisher's alpha. When applied to the empirical data set, 1 and 2 strongly depended on the sample size, whereas 3 and 4 were suitable and reliable measures of local diversity. At single sites, up to 292 species were observed, and extrapolation estimates range from 244 to 445 species. Values for Fisher's alpha are among the highest ever measured for this moth family, and range from 69 to 131 per site. In contrast to theoretical assumptions and empirical studies in other regions of the world, the diversity of geometrid moths remained consistently high along the entire gradient studied. Diversity measures correlated with neither altitude nor ambient temperature. The large subfamily Ennominae has previously been assumed to be a group that occurs mainly at low and medium elevations. However, no decline in diversity was found in the study area. The diversity of the other large subfamily, Larentiinae, even increased from the lowest elevations and was highest at elevations above 1800 m. The roles of a decreasing diversity of potential host‐plants, decreasing structural complexity of the vegetation, increasingly unfavourable climatic conditions and possible physiological adaptations in determining herbivore species richness are discussed. A relatively low predation pressure might be an advantage of high‐altitude habitats. The physiognomy of the Andes (folded mountains, large areas at high altitudes) might also have allowed speciation events and the development of a species‐rich high‐altitude fauna. There is evidence that the species‐richness of other groups of herbivorous insects in the same area declines as altitude increases. This emphasises difficulties that are associated with biodiversity indicator groups, and calls for caution when making generalisations from case studies.  相似文献   
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