Interaction between ATBP and DmUbc9 in the expression of the Sarcophaga lectin gene

We previously demonstrated that (A+T)-stretch binding protein (ATBP) and Dorsal-related immunity factor (Dif) are required for the expression of the Sarcophaga lectin gene in SL-2 cells (Aozasa et al., Eur. J. Biochem. 268, 2506-2511, 2001). The present study demonstrates that DmUbc9 interacts with ATBP, and cotransfection of the DmUbc9 vector with ATBP and Dif vectors greatly enhances the expression of the luciferase reporter of the Sarcophaga lectin gene in SL-2 cells. These results suggest that sumoylation of ATBP is involved in the expression of the Sarcophaga lectin gene in this system.     

Molecular cloning and characterization of SRAM, a novel insect rel/ankyrin-family protein present in nuclei

Previously, we purified a 59-kDa protein that binds to the kappaB motif of the Sarcophaga lectin gene. Here we report its cDNA cloning and some of its characteristics as a novel member of the Rel/Ankyrin-family. This protein, named SRAM, contained a Rel homology domain, a nuclear localization signal and 4 ankyrin repeats, but lacked the Ser-rich domain and PEST sequence that Relish contained. We found that SRAM was localized in the nuclei of NIH-Sape-4 cells, which are an embryonic cell line of Sarcophaga. The Sarcophaga lectin gene promoter containing tandem repeats of the kappaB motifs was activated in NIH-Sape-4 cells. In Drosophila mbn-2 cells, Dif alone activated this reporter gene and a cooperative effect was detected when SRAM and Dif were co-transfected, although SRAM alone did not activate it. This is the first report of a Rel/Ankyrin molecule that exists in the nuclei.     

Humoral factor activating the Sarcophaga lectin gene in cultured fat body

On culture of the fat body of Sarcophaga peregrina (flesh fly) larvae in modified Grace's medium, the Sarcophaga lectin gene was activated only when the medium was supplemented with larval hemolymph. The expressions of the genes for the storage protein and the sarcocystatin A were not affected by supplementing the medium with the hemolymph. Thus the hemolymph contained a factor that specifically activated the Sarcophaga lectin gene. This factor seemed to be a heat-stable, low molecular weight compound that was probably not a peptide, and to activate genes in the fat body for defense proteins that are known to be expressed in response to injury of Sarcophaga larvae.     

Cloning and sequencing of cDNA of Sarcophaga peregrina humoral lectin induced on injury of the body wall

A previous paper described the purification of a lectin induced in the hemolymph of larvae of Sarcophaga peregrina (flesh-fly) on injury of their body wall (Komano, H., Mizuno, D., and Natori, S. (1980) J. Biol. Chem. 255, 2919-2924). This paper describes cDNA cloning and the complete nucleotide sequence of the gene for Sarcophaga lectin. Although active lectin consists of alpha and beta subunits in a molar ratio of 2:1, the fat body of injured larvae was found to contain only mRNA for the alpha subunit, suggesting that these two subunits are derived from a common gene and that the alpha subunit is converted to the beta subunit post-translationally. The alpha subunit was found to consist of 260 amino acid residues with an additional signal sequence of 19 or 23 amino acid residues.     

棕尾别麻蝇(Sarcophaga peregrina)幼虫与蛹血淋巴凝集素的纯化与特性

用亲和层析法纯化了棕尾别麻蝇幼虫和蛹血淋巴凝集素。以兔红细胞吸附幼虫血淋巴凝集素为抗原制备的抗体、球球蛋白和甲状腺蛋白等三种亲和层析吸附剂纯化得到的幼虫凝集素是相同的,其分子量73kD左右。用甲状腺球蛋白为亲和配基纯化的蛹血淋巴凝集素由二种亚基组成,其分子量分别为30和32kD。幼虫和蛹血淋巴凝集素活性的抑制糖明显不同：乳糖、岩藻糖和N－乙酰半乳糖胺对幼虫血淋巴凝集素活性有抑制作用;而甘露糖胺、半乳糖胺和葡萄糖胺则对蛹血淋巴集素有一定抑制。而且,用兔红细胞吸附幼虫血淋巴凝集素为抗原制备的抗血清对蛹的凝集素活性无交叉反应,表明这两种凝集素是不相同的。虽然本文所纯化的麻蝇蛹血淋巴凝集素的分子量和Komano等报道的麻蝇蛹以及幼虫体壁 伤害诱导的凝集素SPL相同,但其糖的抑制特性有明显差异。     

Purification of lectin induced in the hemolymph of Sarcophaga peregrina larvae on injury

A lectin was purified from the hemolymph of Sarcophaga peregrina larvae, obtained after injury of their body wall. This lectin agglutinated sheep red blood cells markedly and the hemagglutinating activity was inhibited by galactose and lactose. The active lectin was found to have a molecular weight of 190,000 and to consist of four alpha subunits and two beta subunits, with molecular weights of 32,000 and 30,000, respectively. During the early pupal stage, similar hemagglutinating activity in the hemolymph increased to several times than in larval hemolymph. This activity was completely inhibited by the antibody prepared against the lectin purified from the hemolymph of injured larvae. Thus, the same protein having lectin activity is apparently induced under two different physiological conditions: injury of the body wall of larvae and during pupation. The biological significance of this lectin is discussed.     

免疫亲和层析法纯化棕尾别麻蝇(Sarcophagaperegrina)幼虫血淋巴凝集素

 报道了利用免疫亲和层析法纯化棕尾别麻蝇幼虫血淋巴凝集素的结果．哺乳动物红细胞能够特异地吸附凝集素．用兔红细胞与麻蝇幼虫血淋巴凝集素形成的复合体免疫供血家兔,得到麻蝇幼虫血淋巴凝集素的抗体．再利用抗体制备亲和吸附柱,通过免疫亲和层析一次性纯化了麻蝇幼虫血淋巴凝集素． Ｓ Ｄ Ｓ Ｐ Ａ Ｇ Ｅ结果显示,该凝集素的分子量约为７３ ｋ Ｄ．这一结果,与用对麻蝇幼虫血淋巴凝集素有抑制作用的糖蛋白—胎球蛋白和甲状腺球蛋白为配基,亲和层析纯化的结果完全相同,表明用这种免疫亲和层析法纯化凝集素是可行的．为不清楚专一性识别糖或专一性识别糖不典型,难于用普通亲和层析纯化的凝集素,提供了一种有效的纯化方法．     

Purification of Sarcophaga (fleshfly) lectin and detection of sarcotoxins in the culture medium of NIH-Sape-4, an embryonic cell line of Sarcophaga peregrina.

An established cell line originating from a Sarcophaga peregrina (fleshfly) embryo, NIH-Sape-4, was found to synthesize mRNAs for Sarcophaga lectin and sarcotoxin IA, but not those for storage protein or 25 kDa protein. These four proteins are known to be synthesized in the fat-body of third-instar larvae, and the two former in particular are known to participate in the defence mechanism of this insect and to be induced in response to injury of the body wall. Thus the embryonic cell line NIH-Sape-4 synthesizes certain defence proteins constitutively. This cell line will be useful for large-scale purification of Sarcophaga lectin, since 50 micrograms of purified Sarcophaga lectin could be obtained from about 400 ml of culture medium.     

Anti-tumor factor in insects' hemolymph

We have purified a lectin from the hemolymph of Sarcophaga peregrina larvae, obtained after injury of their body wall. This lectin recognizes galactose residues and suggested to be involved in the defense mechanism of this insect. We also demonstrated that this lectin induced cytotoxic effects on tumor cells in the presence of murine macrophages. It was found that the murine macrophages had Sarcophaga lectin binding proteins. Using pupal hemocytes and fatbody of this insect, we established an in vitro system that mimics dissociation of the fatbody in vivo. New membrane protein, induced on the surface of the hemocytes at pupation, suggested to participate in the recognition of the fatbody.     

Pea Lectin Expressed Transgenically in Oilseed Rape Reduces Growth Rate of Pollen Beetle Larvae

In several studies plant lectins have shown promise as transgenic resistance factors against various insect pests. We have here shown that pea seed lectin is a potential candidate for use against pollen beetle, a serious pest of Brassica oilseeds. In feeding assays where pollen beetle larvae were fed oilseed rape anthers soaked in a 1% solution of pea lectin there was a reduction in survival of 84% compared to larvae on control treatment and the weight of surviving larvae was reduced by 79%. When a 10% solution of pea lectin was used all larvae were dead after 4 days of testing. To further evaluate the potential use of pea lectin, transgenic plants of oilseed rape (Brassica napus cv. Westar) were produced in which the pea lectin gene under control of the pollen-specific promoter Sta44-4 was introduced. In 11 out of 20 tested plants of the T₀-generation there was a significant reduction in larval weight, which ranged up to 46% compared to the control. A small but significant reduction in larval survival rate was also observed. In the T₂-generation significant weight reductions, with a maximum of 32%, were obtained in 10 out of 33 comparisons between transgenic plants and their controls. Pea lectin concentrations in anthers of transgenic T₂-plants ranged up to 1.5% of total soluble protein. There was a negative correlation between lectin concentration and larval growth. Plants from test groups with significant differences in larval weights had a significantly higher mean pea lectin concentration, 0.64% compared to 0.15% for plants from test groups without effect on larval weight. These results support the conclusion that pea lectin is a promising resistance factor for use in Brassica oilseeds against pollen beetles.     

Induction of human gamma interferon by Sarcophaga peregrina humoral lectin

Humoral lectin isolated from the hemolymph of injured Sarcophaga peregrina (flesh-fly) larvae was found to activate human peripheral blood cells to produce interferon activity. This interferon was inactivated by dialysis against a solution of pH 2.0 and by heat treatment at 56 degrees C for 30 min, indicating that it was a gamma interferon. The role of this lectin in the defence mechanism is discussed from the viewpoint of comparative immunology.     

Involvement of Sarcophaga lectin in the development of imaginal discs of Sarcophaga peregrina in an autocrine manner

The imaginal discs of Sarcophaga were found not to develop normally in the presence of galactose, a hapten sugar of Sarcophaga lectin, or anti-Sarcophaga lectin antibody. Wing and leg discs cultured with these substances became morphologically abnormal and no imaginal discs reached the stage of terminal differentiation, even in the presence of 20-hydroxyecdysone. The development of the imaginal discs was shown to be autonomously regulated in an autocrine manner by Sarcophaga lectin; namely Sarcophaga lectin was secreted by the imaginal discs in the presence of 20-hydroxyecdysone, and the stimulus of self-induced Sarcophaga lectin seemed to be indispensable for further development of the imaginal discs. Sarcophaga lectin was originally found as a defense protein, but these results show that it plays independent roles in both defense and development.     

Purification and Heterogeneous Localization of Sarcophaga Lectin Receptor on the Surface of Imaginal Discs of Sarcophaga peregrina (Flesh Fly)

Previously, we reported autocrine involvement of Sarcophaga lectin in the development of Sarcophaga imaginal discs (Kawaguchi et al. , Dev. Biol. 144 , 86–93 (1991)). In this study, we purified Sarcophaga lectin binding protein from the membrane fraction of cultured embryonic cells of Sarcophaga to near homogeneity and raised a monoclonal antibody against it. Histochemical analysis using the monoclonal antibody revealed that this binding protein is distributed heterogeneously on the surface of leg imaginal discs. This binding protein was especially clearly localized in the central region of the basal side of leg discs which forms the junction between the leg and body, suggesting the participation of Sarcophaga lectin in morphogenesis of the basal region of the developing leg.