Ribonuclease activity of buckwheat plant (Fagopyrum esculentum) cultivars with different sensitivities to buckwheat burn virus.

Ribonucleases (RNases) are present in base-level amounts in intact plants, but this level is able to increase greatly under stress conditions. The possible cause for such an increase is protection against plant RNA-virus attack. Buckwheat burn virus (BBV) is a highly virulent pathogen that belongs to Rhabdoviridae family. In our study, we have analyzed the correlation between RNase activity and resistance of different buckwheat cultivars to BBV infection. Two cultivars, Kara-Dag and Roksolana, with different sensitivities to BBV have been used. Kara-Dag is a cultivar with medium sensitivity to virus and Roksolana is a tolerant cultivar. It has been shown that the base level of RNase activity in Roksolana cultivar was in most cases higher than the corresponding parameter in Kara-Dag cultivar. Both infected and uninfected plants of Roksolana cultivar demonstrated high RNase activity during two weeks. Whereas infected plants of Kara-Dag cultivar demonstrated unstable levels of RNase activity. Significant decline in RNase activity was detected on the 7th day post infection with subsequent gradual increase in RNase activity. Decline of the RNase activity during the first week could promote the virus replication and therefore more successful infection of upper leaves of plants. Unstable levels of RNase activity in infected buckwheat plants may be explained by insufficiency of virus-resistant mechanisms that determines the medium sensitivity of the cultivar to BBV. Thus, plants of buckwheat cultivar having less sensitivity to virus, displayed in general higher RNase activity.

Expression of a major plant allergen as membrane-anchored and secreted protein in human cells with preserved T cell and B cell epitopes.

BACKGROUND: Expression of allergens in human cells is a prerequisite for the development of antigen-specific cell therapy in IgE-mediated allergy. We developed a strategy how the clinically relevant major grass pollen allergen Phl p 5 can be efficiently secreted or expressed on the surface of human cells with preserved allergenic activity. METHODS: The cDNA of Phl p 5 was fused to a leader peptide with or without a transmembrane domain and both constructs were ligated into a mammalian expression vector. Transfection of these plasmids into human cells resulted in a membrane-anchored or secreted version of Phl p 5, respectively, as determined by ELISA or flow cytometric analysis. RESULTS: Both the secreted and membrane-anchored Phl p 5 proteins bound IgE from allergic patients in an immunoblot assay and induced specific histamine release and CD203c upregulation in basophils of grass pollen-allergic patients. Proliferation of peripheral blood mononuclear cells from Phl p 5-allergic individuals was induced upon stimulation with both variants of Phl p 5 expressed in human cells similar to recombinant Phl p 5. CONCLUSIONS: Secreted and membrane-anchored Phl p 5 expressed in human cells preserved B cell as well as T cell epitopes and may be used to develop and test various cell-based strategies for allergen-specific immunomodulation and to delineate the tolerance mechanisms involved therein.

The therapeutic potential of fungal ribotoxins.

Ribotoxins constitute a family of toxic extracellular fungal RNases that exert a highly specific activity on a conserved region of the larger molecule of rRNA, known as the sarcin-ricin loop. This cleavage of a single phosphodiester bond inactivates the ribosome and leads to protein synthesis inhibition and cell death. In addition to this ribonucleolytic activity, ribotoxins can cross lipid membranes in the absence of any known protein receptor. This ability is due to their capacity to interact with acid phospholipid-containing membranes. Both activities together explain their cytotoxic character, being rather specific when assayed against some transformed cell lines. The determination of high-resolution structures of some ribotoxins, the characterization of a large number of mutants, and the use of lipid model vesicles and transformed cell lines have been the tools used for the study of their mechanism of action at the molecular level. The present knowledge suggests that wild-type ribotoxins or some modified variants might be used in human therapies. Production of hypoallergenic mutants and immunotoxins designed against specific tumors stand out as feasible alternatives to treat some human pathology in the mid-term future.

Antibody-onconase conjugates: cytotoxicity and intracellular routing.

Onconase, a member of the pancreatic ribonuclease A superfamily, is currently in Phase III clinical trials for treatment of unresectable malignant mesothelioma. The anticancer effect of onconase may relate to its intracellular target, a non-coding RNA. Some non-coding RNAs are aberrantly expressed in cancer cells. This discovery is creating new interest in drugs that target RNA. Conjugating onconase to agents that recognize tumor associated molecules further increases its potency and specificity. Analysis of onconase activity when directed to two different internalizing and one non-internalizing receptor reveals that the ideal targeting agents would rapidly enter lysosomal compartments before onconase escaped to the cytosol. Antibody-onconase conjugates are effective in preclinical models, cause little non-specific toxicities in mice and have favorable formulation properties. Understanding the reason for their potency coupled with understanding novel RNA-based mechanisms of tumor cell death will lead to improved variations of targeted onconase.

Differential recognition of recombinant Phl p 5 isoallergens by Phl p 5-specific T cells.

BACKGROUND: At present, recombinant allergens are considered for the diagnosis and treatment of atopic allergies. To evaluate the theoretical impact of isoallergen variation on the selection of isoallergens for specific allergy vaccination, we characterized the T-cell response of allergic patients to the Phleum pratense major allergen, Phl p 5, and five of its recombinant isoallergens. METHODS: Phl p 5-specific T cell lines (TCLs) were isolated from the peripheral blood of 3 allergic rhinitis patients, and their reactivity patterns were studied in detail. RESULTS: The TCLs were highly crossreactive with related grasses. The crossreactivity with Poa pratensis was more extensive than with Lolium perenne, directly reflecting the sequence identity between Phl p 5, Poa p 5, and Lol p 5. The TCLs produced IFN-gamma and IL-4 simultaneously, resembling a Th0-like cytokine production profile. Interestingly, when T cell clones were tested with natural Phl p 5 and five rPhl p 5 isoallergens, a differential recognition pattern was found. One of the TCLs exclusively reacted with Phl p 5b, another reacted with all isoforms tested, and the third reacted strongly with native purified Phl p 5, but only weakly with all five recombinant isoallergens. CONCLUSION: These results indicate that Phl p 5-specific T cells are highly heterogeneous, and that they differentially recognize isoallergens. This indicates that when recombinant Phl p 5 is considered for allergy vaccination, a mixture of isoallergens representing the different isoallergen groups may clinically prove to be more effective than single isoallergens.

Effect of curcumin on the advanced glycation and cross-linking of collagen in diabetic rats.

A close association between increased oxidative stress and hyperglycemia has been postulated to contribute significantly to the accelerated accumulation of advanced glycation end products (AGEs) and the cross-linking of collagen in diabetes mellitus. In the present work, we report the influence of curcumin, an efficient antioxidant, on the level of AGEs and the cross-linking of collagen in diabetic rats. Diabetic rats were given curcumin (200 mg/kg body wt) orally for a duration of 8 weeks. The antioxidant status in serum and the level of AGEs, cross-linking and browning of collagen in tail tendons and skin were investigated. The oxidative stress observed in diabetic rats was reduced significantly by curcumin administration. Nonenzymic antioxidants such as vitamin C, vitamin E, and glutathione were maintained at near normal values in curcumin-treated diabetic animals. Similarly, the accumulation of lipid peroxidation products in diabetic serum was reduced significantly by curcumin. Accelerated accumulation of AGE-collagen in diabetic animals, as detected by ELISA, was prevented by curcumin. Extensive cross-linking of collagen in the tail tendon and skin of diabetic animals was also prevented to a greater extent by curcumin treatment. A correlation between the level of AGEs and collagen cross-linking was noted, suggesting the involvement of advanced glycation in cross-linking. It was also noted that the preventive effect of curcumin on the advanced glycation and cross-linking of collagen was more pronounced than its therapeutic effect. However, the Maillard reaction fluorescence in both tail and skin collagen remained unaltered by curcumin. This study confirms the significance of free radicals in the accumulation of AGEs and cross-linking of collagen in diabetes. It supports curcumin administration for the prevention of AGE-induced complications of diabetes mellitus.

Molecular characterization of timothy grass pollen group V allergens.

Phl p V is the dominant allergen of timothy grass (Phleum pratense) with two isoforms having the apparent molecular weights of 38 (Phl p Va) and 32 kD (Phl p Vb) under Western blot conditions. Two-dimensional electrophoresis/immunoblotting reveals that each isoform is split into at least four isoallergens. Structural differences in the isoforms are shown by N-terminal sequencing (only 60% identity), by reaction patterns of monoclonal antibodies and, more convincingly, by enzymic degradation of purified isoforms followed by immunologic fingerprinting. These findings are confirmed by the deduced primary protein structure of cloned Phl p Va and Phl p Vb. Experiments with IgE--affinity-purified by immobilized recombinant allergens or their fragments--reveal identical epitopes and at least one different epitope between the isoforms. Furthermore, on Phl p Va we can localize different IgE-reactive epitopes at the C terminus as well as the N terminus. By probing serum from 11 patients on recombinant C- or N-terminal fragments, an individual reaction pattern was found. Testing the histamine liberation potency of the fragments, we found the N-terminal fragment of Phl p Va to be superior to that of the C-terminal fragment or the whole molecule. These results give insights into the variability of allergens, the individuality of human reaction patterns to epitopes and the alteration of allergenicity to higher or lower levels by fragmentation.

Suppression of reaginic antibodies with modified allergens. III. Preparation of tolerogenic conjugates of common allergens with monomethoxypolyethylene glycols of different molecular weights by the mixed anhydride method.

Our previous findings that antigens, such as ovalbumin (OA) and the extract of ragweed pollen (RAG), could be rendered nonantigenic, nonallergenic and tolerogenic by conjugation with polyethylene glycol (PEG) have been extended in the present study to the synthesis of conjugates of a variety of antigens with monofunctional monomethoxy-PEGs (mPEGS) of different molecular weights by the use of the mixed anhydride method. Thus, mPEGs with molecular weights of 2,000, 5,000, 10,000 and 20,000 were coupled to proteins such as dog serum albumin (DA), bovine pancreatic ribonuclease, OA and the constituents of pollen, helminth and bacterial allergens (RAG, Timothy grass pollen, Ascaris suum and Micropolyspora faeni). All these mPEG conjugates depressed markedly the ongoing IgE antibody formation in sensitized animals, in spite of additional injections of the sensitizing dose of the appropriate antigen. Moreover, the allergenicity of the proteins was either totally abolished or markedly reduced after coupling to mPEGs. Conjugates of DA and OA of varying degree of substitution (i.e. number of mPEG molecules attached per protein molecule) were prepared with mPEGs of different molecular weights and their immunological properties were assessed. It appears that, for a series of tolerogenic conjugates of the same antigen, there exists some inverse relationship between the degree of substitution and the molecular weight of mPEG, i.e. a high level of tolerogenicity with a concomitant reduction or total loss of allergenicity was achieved with a lower degree of substitution utilizing mPEGs of increasing molecular weights. On the basis of these results, it is concluded that a variety of allergens may be converted by conjugation with mPEGs to tolerogenic products with a potential for use in the therapy of patients allergic to a wide spectrum of common allergens.