Patients with unsolved congenital disorders of glycosylation type II can be subdivided in six distinct biochemical groups

Defects in the biosynthesis of N- and core 1 O-glycans may be found by isoelectric focusing (IEF) of plasma transferrin and apolipoprotein C-III (apoC-III). We hypothesized that IEF of transferrin and apoC-III in combination with sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE) of apoC-III may provide a classification for congenital disorders of glycosylation (CDG) patients. We analyzed plasma from 22 patients with eight different and well-characterized CDG subtypes and 19 cases with unsolved CDG. Transferrin IEF (TIEF) has been used to distinguish between N-glycan assembly (type 1 profile) and processing (type 2 profile) defects. We differentiated two different CDG type 2 TIEF profiles: The "asialo profile" characterized by elevated levels of asialo- and monosialotransferrin and the "disialo profile" characterized by increased levels of disialo- and trisialotransferrin. ApoC-III IEF gave two abnormal profiles ("apoC-III(0)" and "apoC-III(1)" profiles). The results for the eight established CDG forms exactly matched the theoretical expectations, providing a validation for the study approach. The combination of the three electrophoretic techniques was not additionally informative for the CDG-Ix patients as they had normal apoC-III IEF patterns. However, the CDG-IIx patients could be further subdivided into six biochemical subgroups. The robustness of the methodology was supported by the fact that three patients with similar clinical features ended in the same subgroup and that another patient, classified in the "CDG-IIe subgroup," turned out to have a similar defect. Dividing the CDG-IIx patients in six subgroups narrows down drastically the options of the primary defect in each of the subgroups and will be helpful to define new CDG type II defects.     

Influence of organic selenium on hsp70 response of heat-stressed and enteropathogenic Escherichia coli-challenged broiler chickens (Gallus gallus)

The effect of dietary selenium yeast, a source of organic selenium, on heat shock protein 70 (hsp70) responses, redox status, growth and feed utilization were evaluated either in enteropathogenic Escherichia coli-challenged (EPEC) or in heat-stressed (HS) male broiler chickens grown to 42 days of age. One day-old chicks in experiment 1 were challenged orally with EPEC (10(6) cfu/chicken on day 1 and boosted by water application on days 2, 3, and 4) and fed diets with or without selenium yeast. Body weight (BW), feed conversion ratio (FCR), and total mortality were determined at 42 days of age, and this was followed by collection of ileal tissue for the quantification of total glutathione (TGSH), reduced glutathione (GSH), oxidized glutathione (GSSG), and hsp70 in randomly selected chickens from each treatment. In experiment 2, male broiler chickens were fed diets with or without selenium yeast under a thermoneutral rearing condition. At four weeks of age, blood and hepatic tissue were collected from chickens maintained in the thermoneutral environment and from chickens subjected to HS (40 degrees C for 1 h) and analyzed for TGSH, GSH, GSSG, and hsp70. Selenium yeast improved BW, FCR, and decreased mortality in both control and EPEC-challenged chicks. Selenium yeast significantly attenuated hsp70 expression in EPEC-challenged chickens and in those subjected to HS. The EPEC challenge increased TGSH and GSSG levels and decreased GSH/GSSG ratio. However, GSSG level accumulated in chickens fed diets without selenium supplementation resulting in a lower GSH/GSSG ratio in the selenium yeast-fed group. Heat stress increased GSSG level and decreased GSH/GSSG ratio. Selenium yeast-fed groups maintained higher levels of GSSG before and after HS with a resultant lower GSH/GSSG ratio. The hsp70 response was significantly less in those chickens fed selenium yeast and challenged with either EPEC or HS than in those chickens given no supplemental selenium. The results of this study suggest that selenium yeast supplementation had imparted resistance to oxidative stress associated with enteric bacteria infection and to high temperature exposure. It is believed that the resistance to the stressors was due to an improved redox status of the selenium yeast-fed chickens.     

A combined defect in the biosynthesis of N- and O-glycans in patients with cutis laxa and neurological involvement: the biochemical characteristics

Based on our preliminary observation of abnormal glycosylation in a cutis laxa patient, nine cutis laxa patients were analyzed for congenital defects of glycosylation (CDG). Isoelectric focusing of plasma transferrin and apolipoproteinC-III showed that three out of nine patients had a defect in the biosynthesis of N-glycans and core 1 mucin type O-glycans, respectively. Mass spectrometric N-glycan analyses revealed a relative increase of glycans lacking sialic acid and glycans lacking sialic acid and galactose residues. Mutation analysis of the fibulin-5 gene (FBLN5), which has been reported in cases of autosomal recessive cutis laxa, revealed no mutations in the patients' DNA. Evidence is presented that extracellular matrix (ECM) proteins of skin are likely to be highly glycosylated with N- and/or mucin type O-glycans by using algorithms for predicting glycosylation. The conclusions in this study were that the clinical phenotype of autosomal recessive cutis laxa seen in three patients is not caused by mutations in the FBLN5 gene. Our findings define a novel form of CDG with cutis laxa and neurological involvement due to a defect in the sialylation and/or galactosylation of N- and O-glycans. Improper glycosylation of ECM proteins of skin may form the pathophysiological basis for the cutis laxa phenotype.     

Identification of a novel Fasciola hepatica cathepsin L protease containing protective epitopes within the propeptide

Cathepsin L (CL)-like proteases are important candidate vaccine antigens for protection against helminth infections. We previously identified an immunogenic 32 kDa protein specifically present in newly excysted juveniles (NEJs) of Fasciola hepatica. Here we show by N-terminal protein sequencing that this protein represents a CL-like protease still containing the propeptide. Two cDNAs encoding this CL were subsequently isolated from NEJs by RT-PCR. The predicted amino acid sequences of these cDNAs showed approximately 70% sequence homology to both CL1 and CL2 sequences isolated from adult stage F. hepatica and are, therefore, referred to as CL3. The CL3 clones encoded asparagine at position P1 of the propeptide cleavage site, suggesting a dependence on asparaginyl endopeptidases for maturation. Recombinant expression of a CL3 cDNA in Saccharomyces cerevisiae resulted in secretion of the proenzyme form. The propeptide of CL-like proteins was predicted to contain important B-cell epitopes. To determine the contribution of the propeptide to protective immunity, rats were vaccinated with Keyhole Limpet Haemocyanin-conjugated synthetic peptides encoding these putative B-cell epitopes derived from the CL1 or CL3 sequence. A subsequent challenge infection resulted in a significant (P < 0.05) reduction of fluke load compared to adjuvant controls. We conclude that the propeptide of CL3 plays an important role in inducing immunity against F. hepatica infection.     

Mechanisms governing B cell developmental defects in invariant chain-deficient mice

Invariant chain (Ii)-deficient mice exhibit profound B cell defects that have remained poorly understood, because they could not be simply explained by impaired Ag presentation. We found that Ii deficiency induced cell autonomous defects of two distinct B cell lineages. The life span of mature follicular (FO) B cells was reduced, accounting for their markedly decreased frequency, whereas, in contrast, marginal zone (MZ) B cells accumulated. Other Ii-expressing lineages such as B1 B cells and dendritic cells were unaffected. Surprisingly, the life span of FO B cells was fully corrected in Ii/I-Abeta doubly deficient mice, revealing that Ii-free I-Abeta chains alter FO B cell survival. In contrast, the accumulation of MZ B cells was controlled by a separate mechanism independent of I-Abeta. Interestingly, in Ii-deficient mice lacking FO B cells, the MZ B cells invaded the FO zone, suggesting that intact follicules contribute to the retention of B cells in the MZ. These findings reveal unexpected consequences of Ii deficiency on the development and organization of B cell follicles.     

Human parvovirus B19 transgenic mice become susceptible to polyarthritis

Human parvovirus B19 (B19) often causes acute polyarthritis in adults. In this paper, we analyzed nucleotide sequences of the B19 genome of patients with rheumatoid arthritis (RA), and then introduced the nonstructural protein 1 (NS1) gene of B19 into C57BL/6 mice that had a genetic origin not susceptible to arthritis. The transgenic mice developed no lesions spontaneously, but were susceptible to type II collagen (CII)-induced arthritis. B19 NS1 was expressed in synovial cells on the articular lesions that were histologically characteristic of granulomatous synovitis and pannus formation in cartilage and bone. Serum levels of anti-CII Abs and TNF-alpha increased in NS1 transgenic mice to the same levels as those of DBA/1 mice, which were susceptible to polyarthritis. Stimulation with CII increased secretion of Th1-type- and Th2-type cytokines in NS1 transgenic mice, indicating that a nonpermissive H-2(b) haplotype in the wild type of C57BL/6 mice can be made susceptible to polyarthritis through the expression of NS1. This study is the first to show that a viral agent from the joints in humans can cause CII-induced arthritis resembling RA.     

Remediation of Pb and Cd Polluted Soils Using In Situ Immobilization and Phytoextraction Techniques

In situ immobilization and phytoextraction techniques have been used for remediation of Pb and Cd polluted soils. Three rates (0.25, 0.5 and 1.0%) of seven immobilizing agents (cement, slag, phosphate rock, bitumen, Fe- and Al-gels, and δ-MnO₂) were tested on three soils containing various levels of Pb (48–192.0 ug/g) and Cd (0.75–3.45 ug/g). All immobilizing agents reduced the plant available Pb and Cd as extracted by DTPA (diethylenetriaminepentaacetic acid). The effectiveness of the various agents in immobilizing Pb and Cd followed the descending order: bitumen > cement > slag > Fe-gel > Al-gel > phosphate rock > δ -MnO₂. Cement and phosphate rock fixed Pb and Cd mainly in the carbonate form, whereas the slag, bitumen, Fe-gel, Al-gel and δ -MnO₂ fixed the metals mainly in the oxide form.

The results of pot experiment proved the high ability of barnyard grass (Echinnochloa stagninum) to accumulate elevated amounts of Pb and Cd (ranging from 291–2421 and 6.1–45.9 ug metal/g dry matter, respectively). These amounts are higher than those reported for hyperaccumulators, particularly for Pb. The amounts of Pb and Cd removed by barnyard grass represent, on average, 46 and 72% of their initial total contents in the soils, respectively. These results proved that, without any other soil treatments, barnyard grass is highly efficient in removing considerable amounts of Pb and Cd from polluted soil within a reasonably short period of time. Therefore, use of barnyard grass for the phytoremediation of Pb and Cd polluted soils is feasible and recommended as an environmentally safe and cheap method. The most significant finding of this study is to name the barnyard grass as an efficient lead accumulator plant.