The C-terminal peptide SmD1(83-119) has been identified as an important autoantigen in systemic lupus erythematosus (SLE). ELISA studies have shown that roughly 70% of all sera from patients with SLE react with this peptide. Previous findings revealed that the addition of blocking agents and sample dilution buffers influences the discrimination between positive and negative anti-SmD1(83-119) sera in SLE. The aim of the present study was to identify possible cofactors in the anti-SmD1(83-119) reactivity. We therefore tested SLE sera (n=6) for anti-SmD1(83-119) reactivity by ELISA and analysed the effects of different blocking agents (1% skim milk, 1% gelatin, and 1% BSA). In our investigation, lipids were extracted from skim milk using dichlomethane, and the putative fraction was tested to assess the assay's ability to discriminate between positive and negative sera. The effects of enzymatic digestion by casein were analyzed, and different concentrations of casein were used to determine the role of this protein in the detection of anti-SmD1(83-119) antibodies by ELISA. Furthermore, rabbits were immunized with SmD1(83-119) adsorbed to casein and control proteins. One percent skim milk was the most effective blocking agent and sample dilution buffer for the discrimination between positive and negative sera. As demonstrated by SDS electrophoresis, the discriminative capacity was influenced by enzymatic digestion of skim milk proteins, but not by lipid extraction. Differences in anti-SmD1(83-119) reactivity upon variation of the casein concentration suggest that the protein plays a significant role in the detection of anti-SmD1(83-119) antibodies. However, our immunisation studies did not show any effect of casein on anti-SmD1(83-119) reactivity, suggesting that it has no immunogenic effect on the anti-SmD1(83-119) response. In conclusion, casein seems to be an important cofactor in autoantibody reactivity directed against the C-terminal SmD1(83-119) peptide and probably functions by changing the conformation of the peptide's critical epitope. 相似文献
The chromosomes of a male patient who suffers from Duchenne muscular dystrophy (DMD) with a molecular deletion were examined with an improved high resolution R type replication banding technique. High resolution cytogenetic analysis of the proband revealed a deletion of the Xp21.13 subband. His healthy mother was heterozygous for the deletion, which is subject to random X inactivation in lymphocytes. The X chromosomes of the proband's grandmother were normal, suggesting that the deletion of the Xp21.13 subband in the mother was a new mutation. The finding of a very small, cytologically visible Xp21.1 deletion in a male DMD patient with a molecular deletion emphasises the importance of resolving the fine structure in the Xp21 region. 相似文献
Adults and children have differences in their susceptibility to schistosomiasis. Whether this age-dependent innate susceptibility influences parasite-caused granulomogenesis is difficult to assess in humans. Therefore, we exposed juvenile and adult female rhesus monkeys to primary infection with Schistosoma mansoni. Hepatic and intestinal granuloma formation was observed in both pre-pubescent and adult monkeys. Two distinct stages of granulomas were discerned, the exudative and the productive stage. In the intestine, more granulomas were generated in the colon than in the ileum. In contrast to the adult animals, the juvenile rhesus monkeys had higher numbers of colonic granulomas, these higher numbers being predominantly of the more advanced productive stage. Juvenile animals had a statistically non-significant increased worm burden. These results suggest that juvenile rhesus monkeys have a significantly more intense and advanced colonic response towards entrapped S. mansoni eggs after primary schistosome infections and, thereby, are more susceptible to parasite infection.Research protocols involving non-human primates received ethical clearance by the Institutional Animal Care and Use Committee of the Biomedical Primate Research Centre (Rijswijk, The Netherlands), according to Dutch Law. 相似文献
Summary: Blends of high molecular weight poly(R‐3‐hydroxybutyrate) (PHB) ( = 352 000 g · mol?1), comprising of either low molecular weight poly(R‐3‐hydroxybutyrate) (D‐PHB) ( = 3 900 g · mol?1) or poly[(R‐3‐hydroxybutyrate)‐co‐(R‐3‐hydroxyvalerate)] (PHBV) ( = 238 000 g · mol?1) with 12 mol‐% hydroxyvalerate (HV) content as a second constituent, were investigated along with the thermal properties and morphologies. After isothermal crystallization, a lowering of the melting temperature of PHB can be observed with increasing content of the second component in the blends. This behavior points towards miscibility of the constituents both in the liquid and the solid state. Crystallization kinetics was studied under isothermal and non‐isothermal conditions. The overall kinetics of isothermal crystallization was analyzed in terms of the Avrami equation. Only one crystallization peak is observed in all cases for the PHB/D‐PHB and PHB/PHBV blends under the conditions studied. This demonstrates co‐crystallization of the constituents. The addition of D‐PHB or PHBV to PHB reduces the rate of crystallization of the blends compared to that of neat PHB. The corresponding activation energies of crystallization also decrease with an increasing concentration of the second constituent. Non‐isothermal crystallization, carried out with different cooling rates held constant, is discussed in terms of a quasi‐isothermal approach. The corresponding rate constants as functions of reciprocal undercooling show Arrhenius‐like behavior in a certain range of temperatures. At sufficiently high undercooling, the rate constants of crystallization for the isothermal process exceed those reflecting non‐isothermal conditions, whereas in the limit of low undercoolings, the rate constants become similar. Ring‐banded morphologies are observed when PHB is in excess. When the respective second component is the major component, fibrous textures of the spherulites develop.
Numerous investigations have recently demonstrated the important roles of the endocannabinoid system in the gastrointestinal (GI) tract under physiological and pathophysiological conditions. In the GI tract, cannabinoid type 1 (CB1) receptors are present in neurons of the enteric nervous system and in sensory terminals of vagal and spinal neurons, while cannabinoid type 2 receptors are located in immune cells. Activation of CB1 receptors was shown to modulate several functions in the GI tract, including gastric secretion, gastric emptying and intestinal motility. Under pathophysiological conditions induced experimentally in rodents, the endocannabinoid system conveys protection to the GI tract (e.g. from inflammation and abnormally high gastric and enteric secretions). Such protective activities are largely in agreement with anecdotal reports from folk medicine on the use of Cannabis sativa extracts by subjects suffering from various GI disorders. Thus, the endocannabinoid system may serve as a potentially promising therapeutic target against different GI disorders, including frankly inflammatory bowel diseases (e.g. Crohns disease), functional bowel diseases (e.g. irritable bowel syndrome) and secretion- and motility-related disorders. As stimulation of this modulatory system by CB1 receptor agonists can lead to unwanted psychotropic side effects, an alternative and promising avenue for therapeutic applications resides in the treatment with CB1 receptor agonists that are unable to cross the blood–brain barrier, or with compounds that inhibit the degradation of endogenous ligands (endocannabinoids) of CB1 receptors, hence prolonging the activity of the endocannabinoid system. 相似文献
Sialylation of glycoproteins and glycolipids plays an important role during development, regeneration and pathogenesis of several diseases. The physiological precursor of all sialic acids is N-acetyl- D-mannosamine. The N-acyl side chain of sialic acid can be modified by exposure of cells to synthetic N-acyl-modified D-mannosamines. In a new experimental approach cells were cultivated in the presence of N-propanoyl- D-mannosamine. This unnatural precursor of sialic acid is taken up by cells and efficiently metabolized to the respective N-acyl-modified neuraminic acid in vitro and in vivo. Here we report on the biological consequences of the incorporation of the unnatural N-propanoylneuraminic acid into glycoconjugates of HL60 cells. Biochemical engineering of the acyl side chain of neuraminic acids activates beta(1)-integrins (VLA4 or VLA5), resulting in an increased adhesion of HL60 cells to fibronectin. 相似文献
Levels of bystander death occurring in herpes simplex virus type 1 (HSV-1)-infected mouse brain stems were studied, as well as the extent to which bystander death is influenced by guanosine nucleoside analogue treatment. Consecutive sections from brain stems of HSV-1-infected mice were stained alternately for (i) viral infection and (ii) cell death (TUNEL assay). Virus antigen was detectable in brain stems on day 3 of infection, while TUNEL staining was comparatively lower. An increase in the extent of TUNEL staining was observed on day 4 of infection. Despite this increase, however, the ratio of TUNEL-stained to infection marker-stained tissue still indicated that the amount of TUNEL staining remained lower than infection staining at this time point. On days 5 and 6 of infection, TUNEL staining continued to increase and the TUNEL/infection marker ratio switched on day 6 in favour of excess TUNEL staining, which was observed in and around the foci of infection, suggesting bystander death. The excess TUNEL staining on day 6 of infection was further increased on treatment with antivirals. The significance and implications of these results are discussed with respect to the nature and mechanism of action of the TUNEL assay, dynamics of primary HSV-1 infection, immunological influences and potential effects of antiviral treatment. The potential problems of the TUNEL assay are considered in the context of viral infection and the TUNEL assay, in combination with infection marker staining, may potentially provide a model system for quantitative analysis of true bystander death during HSV infection in vivo. 相似文献
DNA-dependent protein kinase (DNA-PK), which is involved in DNA double-strand break repair and V(D)J recombination, is comprised of a DNA-targeting component termed Ku and an ~465-kD catalytic subunit, DNA-PKcs. Although DNA-PK phosphorylates proteins in the presence of DSBs or other discontinuities in the DNA double helix in vitro, the possibility exists that it is also activated in other circumstances via its association with additional proteins. Here, through use of the yeast two-hybrid screen, we discover that the recently identified high affinity DNA binding protein C1D interacts with the putative leucine zipper region of DNA-PKcs. Furthermore, we show that C1D can interact with DNA-PK in mammalian cells and that C1D is a very effective DNA-PK substrate in vitro. Finally, we establish that C1D directs the activation of DNA-PK in a manner that does not require DNA termini. Therefore, these studies provide a function for C1D and suggest novel mechanisms for DNA-PK activation in vivo. 相似文献
In a case of familial early onset Alzheimer's disease, a mutation was detected in exon 7 of the presenilin 1 gene at codon 226 with a resultant amino acid change from leucine (CTC) to arginine (CGC) (L226R). This is a novel finding, yet is consistent with the previously reported mutations at codons 222, 229, 233 and 237 in transmembrane domain 5 which show a helical alignment of mutations in this domain. We conclude that the cause of Alzheimer's disease in this patient is an authentic PS1 gene abnormality responsible for the patient's early onset Alzheimer's disease. 相似文献
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