Rab3 is involved in cellular immune responses of the cotton bollworm, Helicoverpa armigera.

Rab3, a member of the Rab GTPase family, has been found to be involved in innate immunity. However, the precise function of this GTPase in innate immunity remains unknown. In this study, we identified a Rab3 gene (Ha-Rab3) from the cotton bollworm, Helicoverpa armigera and studied its roles in innate immune responses. Expression of Ha-Rab3 was upregulated in the hemocytes of H. armigera larvae after the injection of Escherichia coli or chromatography beads. The dsRNA-mediated knockdown of Ha-Rab3 gene in H. armigera larval hemocytes led to significant reduction in the phagocytosis and nodulation activities of hemocytes against E. coli, significant increase in the bacterial load in larval hemolymph, and significant reduction in the encapsulation activities of hemocytes toward invading chromatography beads. Furthermore, Ha-Rab3 knockdown significantly suppressed spreading of plasmatocytes. These results suggest that Ha-Rab3 plays important roles in H. armigera cellular immune responses, possibly by mediating spreading of hemocytes.

Potentiation of gene transfer to the mouse lung by complexes of adenovirus vector and polycations improves therapeutic potential.

Recombinant adenovirus (Ad) vectors are being considered for in vivo delivery of various therapeutic genes. One limiting factor in the development of Ad-based gene therapy is the low efficiency of gene transfer to target tissues such as vascular endothelium, smooth muscle, and airway epithelium. Complexing Ad vector with various polycations has been shown to enhance transduction of cell lines otherwise resistant to Ad infection in vitro. On the basis of this observation, the activity of Ad/polycation complexes was tested in vivo in the mouse lung. The results indicated that several polycations were capable of enhancing transduction of mouse respiratory epithelium, leading to a 1-2 log increase in levels of transgene expression. Poly-L-lysine (PLL) and DEAE-dextran were examined further and were found to increase Ad-mediated gene transfer without any additional toxicity as assessed histologically or through the measurement of inflammatory cytokines in bronchoalveolar lavages. The two polycations also failed to affect the humoral response against Ad vector and were themselves nonimmunogenic under conditions leading to enhanced gene transfer. Moreover, the ability to use reduced doses of vector complexed with polycations resulted in lower levels of Ad-specific antibodies and, thereby, improved readministration of vector. These results suggest that complexing Ad vectors with polycations has the potential to improve the therapeutic index by increasing transgene expression while reducing unwanted responses associated with high doses of vector.

Characterization of nephropathy induced by immunization with high molecular weight dextran.

BACKGROUND: Injection of DEAE dextran into Lewis rats can produce proteinuria and has been reported as a model of IgA nephropathy. METHODS: Cationic diethyl aminoethyl (DEAE) dextran of molecular weight 500 kDa was injected into male Lewis rats. After a pre-immunization period of 3 weeks, the animals were divided into two groups: group 1 (n = 14) received daily i.v, injections of 3.5 mg of antigen, group 2 (n = 14) was injected with 1.5 mg three times per week for a total period of 6 weeks. I.v. treatment was initiated with gradually increasing doses of DEAE dextran in both groups for 1 week, after which the maintenance dose was reached. RESULTS: We observed the appearance of proteinuria in a nephrotic range after 5 weeks of i.v. injections in group 1 (urinary excretion: 332 +/- 83 mg/24 h, controls: 53 +/- 14 mg/24 h). In group 2, the proteinuria was almost equal to protein excretion of healthy rats of the same weight (67 +/- 20 mg/24 h). The serum and urine creatinine were normal. By light microscopy of kidney biopsies, the presence of focal and segmental proliferation of mesangial cells after 6 weeks of i.v. injections was identified. Immunohistochemistry revealed no deposition of IgA, IgM, IgG, or C3. Using anti-ED1 antibodies, there was no evidence of interstitial infiltration of monocytes/macrophages after 6 weeks of i.v. injections. Staining for proliferating cell nuclear antigen (PCNA) did not show the presence of proliferating cells either in glomeruli or in the interstitium. Staining with FITC-WGA lectin revealed focal and segmental loss of the negative charge in the capillary wall. By electron microscopy there was deposition of dextran in the basal membrane and segmental and focal damage of the podocyte foot processes. As the chemokine RANTES may be involved in glomerular injury, we examined the kidneys of proteinuric and non-proteinuric rats for the presence of RANTES. By indirect immunofluorescence only the proteinuric rats showed RANTES deposition in the mesangium. CONCLUSIONS: Injection of rats with DEAE dextran leads to dose-dependent proteinuria without deposition of immune complexes but with podocyte damage. This is associated with local expression of the chemokine RANTES which may play a role in proteinuria of glomerular disease.

Cationic dextran induces mesangioproliferative nephritis in rats independent of glomerular IgA deposition.

BACKGROUND: Dextran-induced mesangioproliferative glomerulonephritis in mice and, as recently reported, in rats is used as a model of IgA nephropathy. The pathogenetic role of the glomerular IgA deposits in this model, however, is unclear since IgG is often deposited in parallel. METHODS: Lewis rats were immunized with cationic DEAE-dextran. Following this, rats received 5 x/week i.v. injections of 3 mg DEAE-dextran each, from days 20 to 80 and were then followed until day 120. RESULTS: Rats developed transient proteinuria (range 63-152 mg/24 h) and haematuria on day 80. Renal biopsies obtained at days 60, 80, 100 and 120 showed mild to severe mesangioproliferative changes at days 80 and 100 which did not persist at day 120. Electron-microscopy revealed mesangial immune deposits, signs of endothelial activation and vacuoles in mesangial cells and podocytes. Compared to normal, age-matched controls, in the nephritic rats significant (P < 0.05) increases were noted for glomerular total cellularity, alpha-smooth-muscle actin expression (a marker of activated mesangial cells), monocyte/macrophage counts, and matrix proteins. Using three different antibodies, no evidence of glomerular IgA deposition was detected at any time point. In contrast, glomerular IgG, IgM, C3, and occasional small C5b-9 deposits were present in nephritic rats. Circulating IgG but not IgA anti-dextran antibodies could be demonstrated in nephritic rats. CONCLUSIONS: The data confirm that mesangioproliferative glomerulonephritis can be induced in rats by immunization and chronic challenge with cationic dextran. Our data also show that in rats glomerular IgG deposition rather than IgA, appears to play an important pathogenetic role in this mesangioproliferative glomerulonephritis model.

Effects of the adjuvant DEAE-dextran and Staphylococcus aureus on the lymph pathways and filtering capacity of popliteal lymph nodes in sheep.

The effects of subcutaneous injections of the adjuvant DEAE-dextran and, or killed Staphylococcus aureus on the structure of the lymph pathways of popliteal lymph nodes in sheep were examined using light and electron microscopy and Microfil casts. Dextran with or without killed S aureus caused significant changes in the lymph pathways both within the node and outside it. However, killed S aureus alone did not. The changes included anastomoses among afferent lymph vessels and between afferent and efferent lymph vessels; proliferation of vessels around the node; joining of parts of the capsule and trabeculae to adjacent parenchyma with loss of parts of the subcapsular and trabecular sinuses; enlargement of medullary sinuses; and reduction of the number of reticular processes in sinuses throughout the node. These changes were accompanied by a reduced ability of the node to filter chicken red blood cells labelled with chromium-51 which were injected into an afferent lymph vessel.

Antigen size and charge in immune complex glomerulonephritis. II. Passive induction of immune deposits with dextran-anti-dextran immune complexes.

Utilizing dextrans of restricted sizes (10,000, 70,000, 500,000 daltons), modified with regard to charge (neutral, polycationic, polyanionic) and an anti-dextran murine IgA myeloma, W3129, the authors have examined a model that may be used in the study of the combined effect of size and charge on renal deposition of immune complexes. Polycationic DEAE dextran complexes, using the 10,000 dalton antigen, showed a mesangiocapillary pattern of deposition. The other antigens showed focal to diffuse mesangial localization of varying degree. This indicates the potential usefulness of this system in examining the factors important in glomerular immune injury. The relevance to other observations, importance of polysaccharide antigens, and role in circulating versus in situ or "planted" immune complex models are considered.

Antibody-containing cell response in lymph of sheep after intra-intestinal infusion of ovalbumin with and without DEAE-dextran.

The output of antibody-containing cells (ACC) was monitored in efferent ileal lymph after continuous infusion of ovalbumin into the ileum of sheep with and without the adjuvant DEAE-dextran. When ovalbumin was infused at the slow rate of 5 ml/h, maximum outputs of 2.9 x 10(5) and 2.4 x 10(5 ACC/h were observed on days 9 and 16 respectively. When infused at the faster rate of 15 ml/h, peak levels of 6.9 x 10(5) and 11.7 x 10(5) ACC/h were recorded on days 10 and 16 respectively. The maximum response was substantially enhanced when ovalbumin was infused simultaneously with DEAE-dextran when a mean output of 51.7 x 10(5) ACC/h occurred on day 10. With all treatments the distribution of ACC amongst various immunoglobulin classes was similar. During the first few days of the response IgM-specific ACC predominated and later IgG1-specific ACC were most abundant. Throughout the response a substantial proportion (10-81%) of ACC in efferent ileal lymph were IgA-specific.

[Comparative analysis of the action of an interferon inducer in in vitro and in vivo systems]. / Sravnitel'nyi analiz deistviia induktora interferona v sistemakh in vitro i in vivo.

Investigation of interferon inductor (poly IC) in vitro (chick embryon fibroblasts) and in vivo (mice) showed that the main parameters of the preparation effect, i. e. induction of interferon and development of resistance to viruses are as a whole quite comparable. The phenomenon of hyporeactivity in the both systems was reproduced on repeated use of the inductor. At the same time significant differences in the stimulating effect of DEAE-dextran were registered. The merits and demerits of the in vitro system for using in studies on antiviral drugs of the above type are discussed.

Adjuvant effects of diethylaminoethyl-dextran.

Diethylaminoethyl-dextran exhibited a significant effect on the primary immune response of rhesus monkeys to formalin-inactivated Venezuelan equine encephalomyelitis virus vaccine (IVEE). Antibody formed to IVEE and adjuvant followed a classic immunoglobulin M-immunoglobulin G pattern; however, as compared with vaccine alone, use of this adjuvant with IVEE reduced the time required for onset of immunoglobulin G synthesis.