The DNA co-vaccination using Sm antigen and IL-10 as prophylactic experimental therapy ameliorates nephritis in a model of lupus induced by pristane

Introduction Systemic lupus erythematosus (SLE) is an autoimmune disease characterized by the production of autoantibodies such as anti-Sm. Studies in patients with SLE and murine models of lupus reveal that the most critical anti-Sm autoantibodies are predominantly direct against D1(83–119), D2, and B´/B epitopes. Objectives The present study aimed to analyze the induction of antigen-specific tolerance after prophylactic immunization with a DNA vaccine encoding the epitopes: D183-119, D2, B´/B, and B´/BCOOH in co-vaccination with IFN-γ or IL-10 in a murine model of lupus induced by pristane. Material and methods To obtain endotoxin-free DNA vaccines, direct cloning techniques using pcDNA were performed: D183-119, D2, B´/B, B´/BCOOH, IFN-γ, or IL-10. Lupus was induced by 0.5 mL of pristane via intraperitoneal in BALB/c female mice. Immunoprecipitation with K562 cells was metabolically labeled with 35S and ELISA to detect serum antibodies or mice IgG1, IgG2a isotypes. ELISA determined IL-10 and IFN-γ from splenocytes supernatants. Proteinuria was assessed monthly, and lupus nephritis was evaluated by immunofluorescence, and electron microscopy. Results The prophylactic co-vaccination with D2/IL-10 reduced the expression of kidney damage observed by electron microscopy, direct immunofluorescence, and H & E, along with reduced level of anti-nRNP/Sm antibodies (P = 0.048). Conclusion The prophylactic co-vaccination of IL-10 with D2 in pristane-induced lupus ameliorates the renal damage maybe by acting as prophylactic DNA tolerizing therapy.

Fine-structural cytochemical and immunocytochemical observations on nuclear bodies in the bovine 2-cell embryo

Nuclear bodies occuring during the 2-cell stage of bovine embryos (obtained either by in vitro fertilisation of in vitro matured ovarian oocytes, or collection after fertilisation and cleavage in vivo) were studied using ultrastructural cytochemistry and immunocytochemistry to determine whether their occurrence may be linked with the onset of embryonic transcription. In addition, the species-specific ultrastructural features of the interchromatin structures of the 2-cell bovine embryo were displayed. Three different types of nuclear bodies were distinguished: (i) nucleolus precursor bodies (NPBs), (ii) loose bodies (LBs) and (iii) dense bodies (DBs). In order to determine their possible functional significance, we considered parallels between these three nuclear entities and interchromatin compartments reported in other cells. As detected by their preferential ribonucleoprotein staining, all types of nuclear bodies contained ribonucleoproteins. In contrast to the other types of nuclear bodies studied, NPBs contained argyrophilic proteins but in no case they did show morphological features of functional nucleoli. Both compact and vacuolated forms of NPBs were seen in both in vivo and in vitro embryos, sometimes simultaneously in the same nucleus. LBs and DBs reacted with antibodies to Sm antigen, indicating the presence of a group of nucleoplasmic, non-nucleolar small nuclear ribonucleoproteins (snRNPs). The immunoreactivity for Sm antigen was more intense and homogeneous in DBs than in LBs. DBs were seen in both categories of embryo. A possible kinship of DBs with the sphere organelle known from oocytes of different animal species or the prominent spherical inclusions of the early mouse embryo nuclei is suggested. The last type of intranuclear body, the LBs, showed a composite structure. Their granular component, occurring in clusters and displaying immunoreactivity for Sm antigen, was similar to interchromatin granules and was therefore named IG-like granules. Another component forming the LBs showed a much finer structure and a lower immunoreactivity with anti-Sm antibodies. We suggest that this amorphous component may be related to the IG-associated zone. All three types of intranuclear bodies were often seen close together, suggesting their possible mutual functional relationship. From these and other observations we conclude that the intranuclear bodies in 2-cell bovine embryos correspond, with the exception of the NPB, to similar structures/compartments supposed to accumulate inactive spliceosomal components in certain phases of somatic cell nucleus functions. Accordingly, the occurrence of such nuclear bodies does not represent cytological evidence for RNA synthesis. In contrast to this, an important morphological feature revealing the status of the bovine 2-cell embryo is the vacuol-isation of the NPB.

Immunologic Markers for Differentiation of Autoimmune Responses

Several approaches have been directed at identifying accurate parameters for the measurement of disease activity in autoimmune disorders, both in humans and in experimental animal models. A great deal of previous effort has focused on determining what constitutes antigenic epitopes on various autologous proteins or tissue components, which then can generate an immune response in the host. Much of this work has been clouded by the fact that normal subjects (both animal and human) seem to mount an immune response to myriad autologous proteins, characterized by the formation of antibodies known as natural autoantibodies. During the course of certain autoimmune diseases such as systemic lupus erythematosus (SLE) or Wegener's granulomatosis (WG), patients produce what appear to be autoantibodies reacting with autologous components such as DNA and Sm antigen (SLE) or proteinase-3 (WG). Low levels of these same autoantibodies are present in IgG derived from normal subjects. Recently, we have found that IgG anti-F(ab')2 from normal subjects, affinity-purified from immunoabsorbent columns of human F(ab_)2 Sepharose, exhibits not only anti-F(ab')2 but also anti-dsDNA and anti-Sm activity. These antibodies constitute an average of 0.02% of normal serum IgG. Similar findings have also been observed in SLE patients with active disease. Our findings suggest that perturbation of the idiotypic network may represent an important fundamental aspect of many autoimmune disorders.

Appearance and origin of snRNP antigens in chick erythrocyte nuclei reactivated in heterokaryons

Fusion of terminally differentiated chick erythrocytes (CE) with transcriptionally active rat myoblasts results in heterokaryons in which the CE nuclei undergo reactivation of RNA synthesis and splicing. In order to analyze the transport and assembly of small nuclear ribonucleoprotein (snRNP) particles and larger molecular complexes engaged in RNA processing, we have examined CE nuclei in heterokaryons for the presence of four U snRNP-related nuclear antigens (Sm, 70,000 Mr, F78 and M3G-cap) and for one antigen (La), associated with RNA polymerase III transcripts. Inactive erythrocyte nuclei showed low levels of Sm and F78 antigens, but the other antigens were undetectable. Immediately after fusion, the fluorescence of the pre-existing chicken Sm antigen was detected in the CEn, and then the intensity of the signal increased rapidly during reactivation. The other antigens appeared more slowly, reaching full intensity at different time points after fusion. Blocking of chick transcription did not block the appearance of Sm, 70,000 Mr, cap and La antigens but did effectively inhibit the appearance of the F78 antigen. It has previously been demonstrated that the structure recognized by this monoclonal antibody is physically associated with functional splicing complexes. Blocking of translation in heterokaryons abolished uptake of snRNPs into the chicken nuclei. Taken together, the results indicate that rat snRNP complexes were imported into the chick nuclei after assembly in the cytoplasm. For all the studied antigens, except F78, this translocation was independent of chick RNA synthesis. The appearance of the F78 antigen was totally dependent on expression of chicken genes.

Alteration by heat shock and immunological characterization of Drosophila small nuclear ribonucleoproteins.

Sera from human patients with systemic lupus erythematosus (SLE) have been shown to react with snRNP particles of both mammals and Drosophila (Mount, S. M. and J. A. Steitz. 1981. Nucleic Acids Res. 9:6351-6368). We have utilized fully characterized monospecific sera and specifically purified antibodies to carry out indirect immunofluorescence experiments with frozen sections of Drosophila embryos. Embryos subjected to severe heat shock before sectioning showed reduced binding of anti-Sm sera. Anti-nRNP sera reacted identically with antigens of heat shocked and non-heat-shocked sections. The reduction in anti-Sm fluorescence was restored by a brief salt wash. These results imply a noncovalent alteration in the conformation of Sm antigens with the administration of heat shock that can revert with exposure to salt. Drosophila antigens have been compared to mammalian standards, showing partial identity with bovine spleen extract (BSE) antigens when reacted with anti-Sm sera. The antigenic relatedness between affinity-purified heat-shocked and non-heat-shocked Drosophila antigens and their mammalian homologues was examined by quantitative ELISA methodology. In all cases, the Drosophila antigens from heat-shocked and non-heat-shocked embryos were identical. We theorize that the heat shock-induced alteration of Sm antigen reverst during extraction. Because the snRNP antigens have been shown to be involved in splicing, and because splicing is inhibited during heat shock (Yost, H. J., and S. Lindquist. 1986. Cell. 45:185-193), our results provide information on the nature and stability of a change in these antigens which may be a central element in control of the heat shock response.