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[
Environ Pollut,
2021]
The surface modifications of nanoparticles (NPs), are well-recognized parameters that affect the toxicity, while there has no study on toxicity of Al(2)O(3) NPs with different surface modification. Therefore, for the first time, this study pays attention to evaluating the toxicity and potential mechanism of pristine Al(2)O(3) NPs (p-Al(2)O(3)), hydrophilic (w-Al(2)O(3)) and lipophilic (o-Al(2)O(3)) modifications of Al(2)O(3) NPs both in vitro and in vivo. Applied concentrations of 10, 20, 40, 80,100 and 200 μg/mL for 24 h exposure on Caenorhabditis elegans (C. elegans), while 100 μg/mL of Al(2)O(3) NPs significantly decreased the survival rate. Using multiple toxicological endpoints, we found that o-Al(2)O(3) NPs (100 μg/mL) could induce more severe toxicity than p-Al(2)O(3) and w-Al(2)O(3) NPs. After uptake by C. elegans, o-Al(2)O(3) NPs increased the intestinal permeability, easily swallow and further destroy the intestinal membrane cells. Besides, cytotoxicity evaluation revealed that o-Al(2)O(3) NPs (100 μg/mL) are more toxic than p-Al(2)O(3) and w-Al(2)O(3). Once inside the cell, o-Al(2)O(3) NPs could attack mitochondria and induce the over-production of reactive oxygen species (ROS), which destroy the intracellular redox balance and lead to apoptosis. Furthermore, the transcriptome sequencing and RT-qPCR data also demonstrated that the toxicity of o-Al(2)O(3) NPs is highly related to the damage of cell membrane and the imbalance of intracellular redox. Generally, our study has offered a comprehensive sight to the adverse effects of different surface modifications of Al(2)O(3) NPs on environmental organisms and the possible underlying mechanisms.
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[
Vet Parasitol,
2004]
Ngaoundere Gudali zebu cattle naturally exposed to Simulium damnosum s.l. and Culicoides spp. bites were examined during 4 years for O. ochengi adult worm acquisition, Onchocerca ochengi and Onchocerca gutturosa skin microfilaria dynamics, and IgG1 and IgG2 antibody subclass responses. Eleven animals acquired a total of 465 O. ochengi nodules (average of 17 per female and 72 per male). The O. ochengi nodule load was highly variable in individual animals and exacerbated in mature male cattle. Three patterns of acquisition of O. ochengi (resistant to new infestation, early susceptibility and late susceptibility), not associated with Simulium biting intensity (P > 0.05), were distinguished. The minimum prepatent periods for O. ochengi nodules, O. ochengi microfilariae and O. gutturosa microfilariae were 10, 20 and 21 months, respectively. The O. ochengi microfilaria density significantly (P < 0.001) increased with age, was higher in young mature bulls than female animals (P < 0.001) and finally reached highest levels (P < 0.005) during the dry season. Antibody responses to Ov10/Ov11 recombinant O. volvulus antigens were predominantly of the IgG1 subclass. High levels of this subclass (not IgG2) observed in new born calves declined to almost zero levels at the age of 5-8 months but IgG1 levels significantly increased (P < 0.05) with age subsequently during patency. Put together the acquisition and accumulation of O. ochengi parasites in zebu cattle, apart from being season, sex (gender) and host age associated, may also suggest a density-dependent regulation of parasite establishment in a proportion of the exposed population.
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[
Parasitol Res,
1987]
The midbody regions of female worms of six Onchocerca species (O. flexuosa, O. tarsicola, O. lienalis, O. gutturosa, O. armillata, O. gibsoni) were studied by transmission electron microscopy. The cuticular layering was rather similar in all species with the ridges built up by the cortical layers and the inner cuticular striations by the median or basal layers. Differences in the epicuticular morphology were considerable. O. flexuosa and O. lienalis had a thin epicuticle without protuberances, the epicuticle of O. armillata carried small knobs, and O. tarsicola, O. gutturosa, and O. gibsoni had a thick trilaminar epicuticle with long protuberances. Extreme hypertrophy of hypodermis and reductions of somatic musculature were observed in O. flexuosa and O. gibsoni. Less extended thickenings of the hypodermis were observed in the other species. No degenerative alterations were found in the muscle cells of O. gutturosa and O. lienalis. The intestinal lumen of most of the species was in a central position, but in O. tarsicola and O. gibsoni the lumen was reduced to small clefts between the intestinal cells. In these species, numerous electron-dense, concentric granules were observed in the cytoplasm of the intestinal cells. The proportions of the various organs differed considerably from species to species, e.g., the uteri contained the embryos filed one behind the other in O. tarsicola, whereas 50 or more embryos were found beside one another in cross-sections of the uterus of O. gibsoni. The comparative study showed that O. gibsoni and O. volvulus have many derived morphological characteristics in common and that in the other species more primitive stages of development of these morphological marks can be observed.
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[
Ann Parasitol Hum Comp
]
O. gibsoni is redescribed; the hypoderma and the musculature of the female body are studied on transversal sections and compared to several other species of Onchocerca. These structures and the general morphology show the autonomy of a small line of asiatic and african Onchocerca of Bovines (O. gibsoni, O. dukei, O. ochengi and, probably, the other nodular Onchocerca of Bovinae), to which the human parasite, O. volvulus, belongs. The presence of O. gibsoni in Africa is doubtful.
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[
Pathogens,
2020]
We investigated urinary N-acetyltyramine-O,-glucuronide (NATOG) levels as a biomarker for active <i>Onchocerca volvulus</i> infection in an onchocerciasis-endemic area in the Democratic Republic of Congo with a high epilepsy prevalence. Urinary NATOG was measured in non-epileptic men with and without <i>O. volvulus</i> infection, and in <i>O. volvulus-</i>infected persons with epilepsy (PWE). Urinary NATOG concentration was positively associated with microfilarial density (<i>p</i> < 0.001). The median urinary NATOG concentration was higher in PWE (3.67 M) compared to men without epilepsy (1.74 M), <i>p</i> = 0.017; and was higher in persons with severe (7.62 M) compared to mild epilepsy (2.16 M); <i>p</i> = 0.008. Non-epileptic participants with and without <i>O. volvulus</i> infection had similar NATOG levels (2.23 M and 0.71 M, <i>p</i> = 0.426). In a receiver operating characteristic curve analysis to investigate the diagnostic value of urinary NATOG, the area under the curve was 0.721 (95% CI: 0.633-0.797). Using the previously proposed cut-off value of 13 M to distinguish between an active <i>O. volvulus</i> infection and an uninfected state, the sensitivity was 15.9% and the specificity 95.9%. In conclusion, an <i>O. volvulus</i> infection is associated with an increased urinary NATOG concentration, which correlates with the individual parasitic load. However, the NATOG concentration has a low discriminating power to differentiate between infected and uninfected individuals.
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[
Proc Natl Acad Sci U S A,
2012]
O-GlcNAcylation is an abundant posttranslational modification in the brain implicated in human neurodegenerative diseases. We have exploited viable null alleles of the enzymes of O-GlcNAc cycling to examine the role of O-GlcNAcylation in well-characterized Caenorhabditis elegans models of neurodegenerative proteotoxicity. O-GlcNAc cycling dramatically modulated the severity of the phenotype in transgenic models of tauopathy, amyloid -peptide, and polyglutamine expansion. Intriguingly, loss of function of O-GlcNAc transferase alleviated, whereas loss of O-GlcNAcase enhanced, the phenotype of multiple neurodegenerative disease models. The O-GlcNAc cycling mutants act in part by altering DAF-16-dependent transcription and modulating the protein degradation machinery. These findings suggest that O-GlcNAc levels may directly influence neurodegenerative disease progression, thus making the enzymes of O-GlcNAc cycling attractive targets for neurodegenerative disease therapies.
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J Biol Chem,
2001]
Dynamic modification of cytoplasmic and nuclear proteins by O-linked N-acetylglucosamine (O-GlcNAc) on Ser/Thr residues is ubiquitous in higher eukaryotes and is analogous to protein phosphorylation. The enzyme for the addition of this modification, O-GlcNAc transferase, has been cloned from several species. Here, we have cloned a human brain O-GlcNAcase that cleaves O-GlcNAc off proteins. The cloned cDNA encodes a polypeptide of 916 amino acids with a predicted molecular mass of 103 kDa and a pI value of 4.63, but the protein migrates as a 130-kDa band on SDS-polyacrylamide gel electrophoresis. The cloned O-GlcNAcase has a pH optimum of 5.5-7.0 and is inhibited by GlcNAc but not by GalNAc. p-Nitrophenyl (pNP)-beta-GlcNAc, but not pNP-beta-GalNAc or pNP-alpha-GlcNAc, is a substrate. The cloned enzyme cleaves GlcNAc, but not GalNAc, from glycopeptides. Cell fractionation suggests that the overexpressed protein is mostly localized in the cytoplasm. It therefore has all the expected characteristics of O-GlcNAcase and is distinct from lysosomal hexosaminidases. Northern blots show that the transcript is expressed in every human tissue examined but is the highest in the brain, placenta, and pancreas. An understanding of O-GlcNAc dynamics and O-GlcNAcase may be key to elucidating the relationships between O-phosphate and O-GlcNAc and to the understanding of the molecular mechanisms of diseases such as diabetes, cancer, and neurodegeneration.
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[
Curr Biol,
2005]
Background: Ambient oxygen (O(2)) influences the behavior of organisms from bacteria to man. In C. elegans, an atypical O(2) binding soluble guanylate cyclase (sGC), GCY-35, regulates O(2) responses. However, how acute and chronic changes in O(2) modify behavior is poorly understood. Results: Aggregating C. elegans strains can respond to a reduction in ambient O(2) by a rapid, reversible, and graded inhibition of roaming behavior. This aerokinetic response is mediated by GCY-35 and GCY-36 sGCs, which appear to become activated as O(2) levels drop and to depolarize the AQR, PQR, and URX neurons. Coexpression of GCY-35 and GCY-36 is sufficient to transform olfactory neurons into O(2) sensors. Natural variation at the
npr-1 neuropeptide receptor alters both food-sensing and O(2)-sensing circuits to reconfigure the salient features of the C. elegans environment. When cultivated in 1% O(2) for a few hours, C. elegans reset their preferred ambient O(2), seeking instead of avoiding 0%-5% O(2). This plasticity involves reprogramming the AQR, PQR, and URX neurons. Conclusions: To navigate O(2) gradients, C. elegans can modulate turning rates and speed of movement. Aerotaxis can be reprogrammed by experience or engineered artificially. We propose a model in which prolonged activation of the AQR, PQR, and URX neurons by low O(2) switches on previously inactive O(2) sensors. This enables aerotaxis to low O(2) environments and may encode a "memory" of previous cultivation in low O(2).
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[
J Biol Chem,
1994]
Glycosylation of nuclear and cytoplasmic proteins by O-linked N-acetylglucosamine (O-GlcNAc) monosaccharides is an abundant, ubiquitous, and transient post-translational modification. To characterize enzymes involved in removal of these sugars, a neutral and cytoplasmic N-acetyl-beta-D-glucosaminidase (O-GlcNAcase) with strong selectivity for O-GlcNAc-synthetic glycopeptides has been purified over 22,000-fold from rat spleen homogenate. The purified O-GlcNAcase has two major polypeptides of apparent M(r) = 54,000 (alpha subunit) and M(r) = 51,000 (beta subunit). Enzyme activity sediments at M(r) = 106,000 on sucrose gradients, indicating that the native O-GlcNAcase is an alpha beta heterodimer. The O-GlcNAcase also shows substantially stronger relative activity against O-GlcNAc-synthetic glycopeptides than other hexosaminidases. Unlike acidic lysosomal hexosaminidases, O-GlcNAcase is not inhibited by GalNAc or its analogs, has no other detectable glycosidase activities, and does not cross-react with antibodies against acidic hexosaminidases. Subcellular fractionation and latency studies demonstrate the cytoplasmic and nucleoplasmic localization of the enzyme and its ubiquitous presence in tissues. These studies suggest that O-GlcNAcase is involved in the regulated removal of O-GlcNAc from O-GlcNAc-bearing glycoproteins in the nucleoplasmic and cytoplasmic compartments of cells.
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[
J Agric Food Chem,
2013]
Obesity and insulin resistance in skeletal muscles are major features of type 2 diabetes. In the present study, we examined the potential of Sambucus nigra flower (elderflowers) extracts to stimulate glucose uptake (GU) in primary porcine myotubes and reduce fat accumulation (FAc) in Caenorhabditis elegans. Bioassay guided chromatographic fractionations of extracts and fractions resulted in the identification of naringenin and 5-O- caffeoylquinic acid exhibiting a significant increase in GU. In addition, phenolic compounds related to those found in elderflowers were also tested, and among these, kaempferol, ferulic acid, p-coumaric acid, and caffeic acid increased GU significantly. FAc was significantly reduced in C. elegans, when treated with elderflower extracts, their fractions and the metabolites naringenin, quercetin-3-O-rutinoside, quercetin-3-O-glucoside, quercetin-3-O-5-acetylglycoside, kaempferol-3-O-rutinoside, isorhamnetin-3-O-rutinoside, and isorhamnetin-3-O-glucoside and the related phenolic compounds kaempferol and ferulic acid. The study indicates that elderflower extracts contain bioactive compounds capable of modulating glucose and lipid metabolism, suitable for nutraceutical and pharmaceutical applications.