O-glycans and O-glycosylation sites of recombinant human GM-CSF derived from suspension-cultured rice cells, and their structural role.

Recombinant human GM-CSF (rhGM-CSF) from yeast has been clinically applied to immunosuppressed patients. The production of suspension-cultured rice-cell-derived rhGM-CSF (rrhGM-CSF), which has a longer blood clearance time and the same bioactivity as yeast-derived rhGM-CSF, and the analysis of its N-glycans have been reported recently. However, there are no previous reports of the O-glycosylation of rhGM-CSF from plant cells, and so this study investigated O-glycans, O-glycosylation sites, and their structural role in rrhGM-CSF. Monosaccharide analysis revealed the presence of O-glycans comprising arabinose and galactose. Eight O-glycans comprising four arabinose residues with zero to seven galactose residues along with their relative quantities were analyzed. Analysis of pronase-digested glycopeptides indicated that the O-glycans are partially attached to Ser 5, Ser 7, Ser 9, or Thr 10 residues, and glycan heterogeneity was confirmed at each site. Pro-to-hydroxyproline conversions occurred at Pro 2, Pro 6, and Pro 8 residues. The preparation of deglycosylated rrhGM-CSFs revealed that deglycosylation greatly affects their α-helix structures. These findings indicate that O-glycans of rrhGM-CSF are essential for maintaining its structural stability and result in an extended in vivo half-life, but without affecting its biological function. This is the first report on the O-glycosylation of rhGM-CSF derived from plant cells.

Glycan structure and serum half-life of recombinant CTLA4Ig, an immunosuppressive agent, expressed in suspension-cultured rice cells with coexpression of human ß1,4-galactosyltransferase and human CTLA4Ig.

Human cytotoxic T-lymphocyte antigen 4-immunoglobulin (hCTLA4Ig) is an immunosuppressive therapeutic, and recently produced rice cell-derived hCTLA4Ig (hCTLA4Ig(P)) reportedly exhibits in vitro immunosuppressive activities equivalent to those of Chinese hamster ovary cell-derived hCTLA4Ig (hCTLA4Ig(M)). However, limitations of hCTLA4Ig(P) include shortened in vivo half-life as well as the presence of nonhuman N-glycans containing (ß1-2)-xylose and α1,3-fucose, which cause immunogenic reactions in humans. In the present study, human ß1,4-galactose-extended hCTLA4Ig(P) (hCTLA4Ig(P)-Gal) was expressed through the coexpression of human ß1,4-galactosyltransferase (hGalT) and hCTLA4Ig in an attempt to overcome these unfavorable effects. The results indicated that both encoding hGalT and hCTLA4Ig were successfully coexpressed, and the analysis of N-glycan and its relative abundance in purified hCTLA4Ig(P)-Gal indicated that not only were the two glycans containing (ß1-4)-galactose newly extended, but also glycans containing both ß1,2-xylose and α1,3-fucose were markedly reduced and high-mannose-type glycans were increased compared to those of hCTLA4Ig(P), respectively. Unlike hCTLA4Ig(P), hCTLA4Ig(P)-Gal was effective as an acceptor via (ß1-4)-galactose for in vitro sialylation. Additionally, the serum half-life of intravenously injected hCTLA4Ig(P)-Gal in Sprague-Dawley rats was 1.9 times longer than that of hCTLA4Ig(P), and the clearance pattern of hCTLA4Ig(P)-Gal was close to that for hCTLA4Ig(M). These results indicate that the coexpression with hGalT and hCTLA4Ig(P) is useful for both reducing glycan immunogens and increasing in vivo stability. This is the first report of hCTLA4Ig as an effective therapeutics candidate in glycoengineered rice cells.

Pathogenesis and significance of glomerular C4d deposition in lupus nephritis: activation of classical and lectin pathways.

Immune complex-mediated complement activation through the classic pathway plays a key role in the pathogenesis of lupus nephritis (LN). C4d deposition in renal tissue reflects the prognosis of systemic lupus erythematosus (SLE). The aim of the current study is to investigate the pathogenesis and clinicopathologic significance of glomerular C4d deposition in LN. We retrospectively analyzed clinical and histopathological data of 20 SLE patients with renal biopsy-proven LN and 10 non-SLE renal biopsy samples as control. LN biopsies showed varying degrees of glomerular C4d staining associated with immune complex deposits, IgG (p = 0.015), C1q (p = 0.032) and C3 (p = 0.049). 7 LN biopsies had all of C4d, C1q and C3 deposits in their glomeruli, indicative of the activation of the classical pathway, whereas 2 LN biopsies had C4d and C3 deposits without accompanying C1q deposits, indicating the activation of the lectin pathway. Glomerular C4d deposition was correlated with the LN subtype (p < 0.001). In particular, a diffusely intense and coarsely granular pattern of C4d deposition in all glomeruli was detected in class V membranous LN. However, glomerular C4d deposition was correlated with neither disease activity of SLE nor histological activity and chronicity of LN. In conclusion, the activation of the lectin pathway as well as the classical pathway seems to play a crucial role in the pathogenesis of LN. Glomerular C4d staining could be helpful for diagnosing class V membranous LN, although glomerular C4d deposition does not reflect SLE disease activity and histological activity and chronicity.

Binding Specificity of Philyra pisum Lectin to Pathogen-Associated Molecular Patterns, and Its Secondary Structure.

We recently reported a Philyra pisum lectin (PPL) that exerts mitogenic effects on human lymphocytes, and its molecular characterization. The present study provides a more detailed characterization of PPL based on the results from a monosaccharide analysis indicating that PPL is a glycoprotein, and circular dichroism spectra revealing its estimated α-helix, ß-sheet, ß-turn, and random coil contents to be 14.0%, 39.6%, 15.8%, and 30.6%, respectively. These contents are quite similar to those of deglycosylated PPL, indicating that glycans do not affect its intact structure. The binding properties to different pathogen-associated molecular patterns were investigated with hemagglutination inhibition assays using lipoteichoic acid from Gram-positive bacteria, lipopolysaccharide from Gram-negative bacteria, and both mannan and ß-1,3-glucan from fungi. PPL binds to lipoteichoic acids and mannan, but not to lipopolysaccharides or ß-1,3-glucan. PPL exerted no significant antiproliferative effects against human breast or bladder cancer cells. These results indicate that PPL is a glycoprotein with a lipoteichoic acid or mannan-binding specificity and which contains low and high proportions of α-helix and ß-structures, respectively. These properties are inherent to the innate immune system of P. pisum and indicate that PPL could be involved in signal transmission into Gram-positive bacteria or fungi.

Molecular characterization and mitogenic activity of a lectin from purse crab philyra pisum.

A lectin from the hemolymph of purse crab, Philyra pisum, was found to have anti-proliferative activity on human lung cancer cells by our laboratory. In this study, P. pisum lectin (PPL) was molecularly characterized including molecular mass, amino acid sequences, amino acid composition, and the effects of metal ions, temperature, and pH on the activity. We found that PPL showed mitogenic activity on human lymphocytes and BALB/c mouse splenocytes. The mitogenic activity (maximum stimulation index, SI=9.57±0.59) of PPL on human lymphocytes was higher than that of a standard well-known plant mitogen, concanavalin A (maximum SI=8.80±0.59). The mitogenic activity mediated by PPL is required for optimum dosing, and higher or lower concentrations caused decreases in mitogenic response. PPL also induced mitogenic activity on mouse splenocytes, however, the maximum SI (1.77±0.09) on mouse splenocytes of PPL was lower than that (2.14±0.15) of concanavalin A. In conclusion, PPL is a metal ion-dependent monomer lectin with mitogenic activity, and could be used as a lymphocyte or splenocyte stimulator.

High abundance and role of antifungal bacteria in compost-treated soils in a wildfire area.

Compost has been widely used in order to promote vegetation growth in post-harvested and burned soils. The effects on soil microorganisms were scarcely known, so we performed the microbial analyses in a wildfire area of the Taebaek Mountains, Korea, during field surveys from May to September 2007. Using culture-dependent and -independent methods, we found that compost used in burned soils influenced a greater impact on soil fungi than bacteria. Compost-treated soils contained higher levels of antifungal strains in the genera Bacillus and Burkholderia than non-treated soils. When the antifungal activity of Burkholderia sp. strain O1a_RA002, which had been isolated from a compost-treated soil, was tested for the growth inhibition of bacteria and fungi isolated from burned soils, the membrane-filtered culture supernatant inhibited 19/37 fungal strains including soil fungi, Eupenicillium spp. and Devriesia americana; plant pathogens, Polyschema larviformis and Massaria platani; an animal pathogen, Mortierella verticillata; and an unidentified Ascomycota. However, this organism only inhibited 11/151 bacterial strains tested. These patterns were compatible with the culture-independent DGGE results, suggesting that the compost used in burned soils had a greater impact on soil fungi than bacteria through the promotion of the growth of antifungal bacteria. Our findings indicate that compost used in burned soils is effective in restoring soil conditions to a state closer to those of nearby unburned forest soils at the early stage of secondary succession.

Antifungal and Anticancer Activities of a Protein from the Mushroom Cordyceps militaris.

The mushroom Cordyceps militaris has been used for a long time in eastern Asia as a nutraceutical and in traditional Chinese medicine as a treatment for cancer patients. In the present study, a cytotoxic antifungal protease was purified from the dried fruiting bodies of C. militaris using anion-exchange chromatography on a DEAE-Sepharose column. Electrophoretic analyses indicated that this protein, designated C. militaris protein (CMP), has a molecular mass of 12 kDa and a pI of 5.1. The optimum conditions for protease activity were a temperature of 37 and pH of 7.0~9.0. The enzyme activity was specifically inhibited by the serine protease inhibitor phenylmethylsulfonyl fluoride. Amino acid composition of intact CMP and amino acid sequences of three major peptides from a tryptic digest of CMP were determined. CMP exerted strong antifungal effect against the growth of the fungus Fusarium oxysporum, and exhibited cytotoxicity against human breast and bladder cancer cells. These results indicate that C. militaris represents a source of a novel protein that might be applied in diverse biological and medicinal applications.

A novel lectin isolated from the hemolymph of the marine hair crab Erimacrus isenbeckii.

A lectin that induces hemagglutination activity in mouse and rabbit erythrocytes has been purified from the hemolymph of the marine hair crab Erimacrus isenbeckii. The results of SDS-PAGE, gel-filtration, affinity and anion-exchange chromatography indicate that this lectin, designated EIL (E. isenbeckii lectin), was successfully purified as a single protein, and comprises a mixture of a major (90%) dimeric and a minor (10%) oligomeric protein with a molecular mass of 116 kDa, with covalent linking between two subunits of 62 and 54 kDa. The activity was maximal at pH 5.6-8.0 and at temperatures below 50 degrees C. The N-terminal amino acid sequences were determined, and these differed greatly from those of other reported lectins from invertebrates, vertebrates, or plants. EIL binds with high specificities to both the O-acetylsialic acid and mannose that are present in bacterial pathogens, which suggests that EIL can act as a defense protein against infection in this crab.