The amino acid sequence of the sex steroid-binding protein of rabbit serum

The amino acid sequence of the sex steroid-binding protein (SBP or SHBG) of rabbit serum, specific for binding testosterone and 5 alpha-dihydrotestosterone, was determined using a complementary combination of mass spectrometric and Edman degradation techniques. The monomeric unit of the homodimeric protein is a single chain glycopeptide of 367 amino acid residues, with N-linked oligosaccharide side chains at Asn-345 and Asn-361 and disulfide bonds connecting Cys-158 to Cys-182 and Cys-327 to Cys-355. The polypeptide molecular weight of the monomer calculated from the sequence is 39,769. The molecular weight of the homodimer including 9% carbohydrate is 87,404. The sequence contains a relatively hydrophobic segment between Trp-241 and Leu-282, which includes many leucine residues in an alternating pattern. An amino acid sequence repeat is also located within that segment. Both of these patterns are present in human SBP and in the androgen-binding protein of rat epididymis. The sequence data indicate that the previously reported microheterogeneity of rabbit SBP in sodium dodecyl sulfate-polyacrylamide gel electrophoresis reflects variants generated by differential glycosylation of the monomer rather than different gene products. Seventy-nine percent of the amino acids of rabbit SBP are identical to those of human SBP; rabbit SBP thus joins human SBP and rat androgen-binding protein in one gene family that is distinct from the steroid hormone receptor superfamily. It appears that the problem of binding sex steroid hormones has been solved independently in two different gene families that contain completely different steroid-binding domains. Since the nonhomologous steroid-binding domains of both families of proteins recognize essentially the same steroid structure, it will be interesting to determine the structural basis of the two different protein designs that lead to similar steroid-binding specificity.     

Direct evidence for the localization of the steroid-binding site of the plasma sex steroid-binding protein (SBP or SHBG) at the interface between the subunits.

Complete dissociation of dimeric plasma sex steroid-binding protein (SBP or SHBG) was obtained in 6 M urea at 10 degrees C. Removal of urea resulted in the refolding of monomers, followed by reformation of dimeric SBP, which migrates with the same mobility as the native protein. Dimerization does not require Ca+2 or steroid. Renatured monomers yield dimers with dissociation constants for 5 alpha-dihydrotesterone (DHT) and 17 beta-estradiol (E2) indistinguishable from those of native human SBP. This phenomenon was also demonstrated by mixing human and rabbit SBPs that, upon renaturation, form a hybrid dimer composed of one human subunit and one rabbit subunit. The hybrid binds both DHT and E2 in contrast to rSBP, which only binds the androgen. Therefore, we conclude that (1) docking of the two subunits creates an asymmetric steroid-binding site located at the interface between the subunits, and (2) only one face of the dimer defines the specificity for binding E2 by encompassing portion of a structural motif that recognizes the flat ring A of E2. The remaining portion, which recognizes the saturated ring A of DHT, is shared by both faces of the dimer. Because native monomers do not exist alone, the often-asked question of whether the SBP monomer binds steroid can be considered meaningless; steroid-binding activity is expressed only in the dimeric state. Finally, formation of the hybrid indicates that SBP dimerization represents a conserved event during the molecular evolution of SBP, suggesting that the structural elements responsible for dimerization will be homologous in SBPs from other species.     

Observation and quantitation of metal-binding sites in the sex steroid-binding protein of human and rabbit sera using the luminescent probe terbium

The first direct evidence for specific metal-binding sites in pure human and pure rabbit sex steroid-binding protein (SBP) is obtained using the luminescent lanthanide terbium. Terbium, a probe for calcium sites in proteins, provided protection of the SBP steroid-binding activity in diluted human serum samples equivalent to that provided by calcium. Pure SBP, first treated with ethylenediaminetetraacetate, was dialyzed against buffer containing TbCl₃. After gel filtration to remove nonspecifically bound terbium, the protein was denatured in urea. The amount of protein-bound terbium was determined by luminescence enhancement of the lanthanide using the chelator dipicolinate, yielding four metal-binding sites per mole of dimer protein from both species.     

Human immunodeficiency virus type 1 envelope glycoprotein is modified by O-linked oligosaccharides.

The human immunodeficiency virus type 1 (HIV-1) envelope glycoprotein has been shown to be extensively modified by N-linked glycosylation; however, the presence of O-linked carbohydrates on the glycoprotein has not been firmly established. We have found that enzymatic deglycosylation of the HIV-1 envelope glycoprotein with neuraminidase and O-glycosidase results in a decrease in the apparent molecular weight of the envelope glycoprotein. This result was observed in both vaccinia virus recombinant-derived envelope glycoproteins and glycoproteins derived from the IIIB, SG3, and HXB2, strains of HIV-1. The decrease in molecular weight was also observed when the envelope glycoprotein had been deglycosylated with N-glycanase F after treatment with neuraminidase and O-glycosidase, indicating that the decrease in apparent molecular weight was not attributable to the removal of N-linked carbohydrate. Treatment with neuraminidase, O-glycosidase, and N-glycanase F was found to be necessary to remove all radiolabel from [3H]glucosamine-labelled envelope glycoprotein, a result seen for both recombinant and HIV-1-derived envelope glycoprotein. [3H]glucosamine-labelled carbohydrates liberated by O-glycosidase treatment were separated by paper chromatography and were found to be of a size consistent with O-linked oligosaccharides. We, therefore, conclude that the HIV-1 envelope glycoprotein is modified by the addition of O-linked carbohydrates.     

Purification and characterization of the sex steroid-binding protein of rabbit serum. Comparison with the human protein

The sex steroid-binding protein (rSBP) of immature rabbit serum was purified to homogeneity by the sequential use of DEAE-cellulose chromatography, affinity chromatography on 5alpha-dihydrotestosterone-17 beta-succinyl-diaminoethyl-(1,4-butanediol diglycidyl ether)-agarose, agarose (Bio-Gel-A-0.5m) gel filtration, and preparative polyacrylamide gel electrophoresis. The cumulative yield is 13%. Homogeneity of rSBP was shown by the equilibrium sedimentation ultracentrifugation in 6 M guanidine HCl containing 0.1 M mercaptoethanol which yields an average molecular weight of 36,475 +/- 865. Analytical gel electrophoresis in the presence of sodium dodecyl sulfate and gel filtration on agarose yield a molecular weight of 57,000 and 120,000, respectively. The variation is due to a 30% carbohydrate content. The amino acid composition is reported. Comparison of the rabbit and human SBP indicate that they are different in both their molecular and functional properties.     

Vasoactive intestinal peptide receptors on AR42J rat pancreatic acinar cells.

VIP receptors on AR42J rat pancreatic cells were analyzed by competition binding, affinity labeling and by N-glycanase digestion analyses. These studies revealed the presence of specific, high affinity (Kd approximately 1 nM) VIP receptors with a mass of 67 kDa or 59 kDa under reducing or non-reducing conditions, respectively. N-glycanase digestion of affinity labeled membranes generated a core receptor protein of approximately 44 kDa and evidence for at least two N-linked glycans on the mature receptor. The receptor lacked O-linked oligosaccharides but contained terminal sialic acid residues on its N-linked glycan(s) based on digestions with O-glycanase and neuraminidase. The similarity of the AR42J VIP receptor to the recently cloned cDNA for human VIP receptors makes this cell line an attractive model for further analysis of VIP receptor signal transduction events.     

Mammalian expression of the human sex steroid-binding protein of plasma (SBP or SHBG) and testis (ABP). Characterization of the recombinant protein.

A full-length 1,209 bp cDNA encoding the human sex steroid-binding protein of plasma (SBP or SHBG) and testis (ABP) was constructed and expressed in BHK-21 cells. The sequence agrees with the published gene and protein sequences. The cells were found to secrete SBP following transfection and G418r selection. The recombinant protein binds 5 alpha-dihydrotestosterone with a Kd of 0.28 nM. It also binds testosterone and 17 beta-estradiol but not progesterone, estrone or cortisol revealing a steroid-binding specificity identical to that of human SBP. SDS-PAGE patterns are less complex than human SBP and show a monomeric molecular weight of about 43 kDa.     

Heterologous expression of wild type and deglycosylated human sex steroid-binding protein (SBP or SHBG) in the yeast, Pichia pastoris. Characterization of the recombinant proteins.

Wild type, partially and fully-deglycosylated human sex steroid-binding protein (SBP or SHBG) cDNAs lacking the native cucaryotic signal sequence were cloned into a yeast expression vector containing the Saccharomyces cerevisiae alpha-factor for extracellular secretion. Following transformation into Pichia pastoris, the wild type and all constructed mutants were successfully expressed. The levels were lower for the deglycosylated mutants indicating that oligosaccharide side chains may play a role in SBP secretion. Under fermentation conditions, the wild type protein was expressed at a level of 4 mg/l while the fully-deglycosylated mutant T7A/N351Q/N367Q was expressed at about 1.5 mg/l. The latter was purified from several fermentation runs and was found to be completely deglycosylated, electrophoretically homogeneous and fully active. The aminoterminus was found to have the sequence NH2QSAHDPPAV- indicating that cleavage of the alpha-factor occurred at the A(+7)-Q(+8) peptide bond. The molecular mass of the subunit was determined to be 39,717.8 Da, which is in complete agreement with the amino acid sequence of the T7A/N351Q/N367/Q mutant. The equilibrium constants for the dissociation of 5alpha-dihydrotestosterone and steroid binding specificity were found to be identical to that of the human plasma protein indicating that the missing N-terminal segment NH2-LRPVLPT and the removal of oligosaccharide side chains do not affect the stability and active conformation of the protein. In conclusion, the data presented reveal that the SBP mutant T7A/N351Q/N367/Q is the protein of choice for solving the three-dimensional structure.     

Qualitative characterization of oligosaccharide chains present on the rat zona pellucida glycoconjugates.

Zona pellucida (ZP), the extracellular glycocalyx surrounding the mammalian oocyte, is believed to mediate species-specific sperm-egg interaction. Despite numerous studies on characterization of ZP glycoconjugates in several species, little or no information is available on the number and chemical nature of the various components of the rat ZP. In this study we have attempted the biochemical characterization of the rat ZP using endo- and/or exo-glycohydrolases. Intact eggs from superovulated rats were radioiodinated by the chloramine-T method, and the labeled ZP components were resolved on SDS-PAGE under nonreducing conditions. These studies show that the rat ZP consists of three components with apparent molecular masses of 205 kDa (ZP1), 119 kDa (ZP2), and 115 kDa (ZP3). Unlike mouse ZP2 and ZP3, which resolve as distinct components on SDS-PAGE, rat ZP2 and ZP3 show substantial overlap in their molecular sizes and isoelectric points. Treatment of the rat ZP components with exo- (neuraminidase and alpha-L-fucosidase) and/or endo- (endoglycosidase H, endoglycosidase F, N-glycanase, and O-glycanase) glycohydrolases indicated the following: 1) Both rat ZP2 and ZP3 contain N-linked oligosaccharide (OS) units as indicated by their sensitivity to endoglycosidase F and N-glycanase. 2) Treatment with N-glycanase caused a reduction in size of the rat ZP2 and ZP3 components by nearly 50% and 60%, respectively, indicating that the two ZP components are highly glycosylated. 3) Rat ZP3 was sensitive to O-glycanase, suggesting that this ZP component contains O-linked OS unit(s). 4) No evidence was obtained for the presence of fucosyl or sialyl residue(s) on the O-linked OS unit(s) of rat ZP3.(ABSTRACT TRUNCATED AT 250 WORDS)     

O-linked glycosylation of retroviral envelope gene products.

Treatment of [3H]glucosamine-labeled Friend mink cell focus-forming virus (FrMCF) gp70 with excess peptide:N-glycanase F (PNGase F) resulted in removal of the expected seven N-linked oligosaccharide chains; however, approximately 10% of the glucosamine label was retained in the resulting 49,000-Mr (49K) product. For [3H]mannose-labeled gp70, similar treatment led to removal of all the carbohydrate label from the protein. Prior digestion of the PNGase F-treated gp70 with neuraminidase resulted in an additional size shift, and treatment with O-glycanase led to the removal of almost all of the PNGase F-resistant sugars. These results indicate that gp70 possesses sialic acid-containing O-linked oligosaccharides. Analysis of intracellular env precursors demonstrated that O-linked sugars were present in gPr90env, the polyprotein intermediate which contains complex sugars, but not in the primary translation product, gPr80env, and proteolytic digestion studies allowed localization of the O-linked carbohydrates to a 10K region near the center of the gp70 molecule. Similar substituents were detected on the gp70s of ecotropic and xenotropic murine leukemia viruses and two subgroups of feline leukemia virus, indicating that O-linked glycosylation is a conserved feature of retroviral env proteins.     

Sex steroid-binding protein: identification and comparison of the primary product following cell-free translation of human and monkey (Macaca fascicularis) liver RNA

A very close similarity in molecular, steroid-binding and immunological properties have been demonstrated for the sex steroid-binding proteins of plasma from human (hSBP) and monkey (mSBP): both are glycoproteins composed of two similar subunits able to bind one steroid molecule and to cross-react with the same antibodies. After translation of human and monkey (Macaca fascicularis) liver mRNAs by a wheat-germ embryo extract, in the presence of labelled amino-acids, we have characterized in both cases a single radioactive polypeptide immunologically related to SBP, migrating in SDS-PAGE as a single band and having a molecular weight of about 42,000. This protein could be displaced from the antibody by pure unlabelled SBP in excess. The difference in molecular weight between the in vitro translation product and the native SBP sub-unit is probably due to the absence of glycosylation in the neo-synthesized protein. The radioactivity incorporated into mSBP was 4 times higher than the radioactivity incorporated into hSBP, suggesting that the amount of mRNA for SBP is higher in monkey than in human liver. Our results show that the two sub-units of hSBP and mSBP derive from a common precursor, representing respectively 0.0050% and 0.0013% of the total neosynthesized proteins in monkey and in human liver.     

The microheterogeneity of androgen-binding protein in rat serum and epididymis is due to differences in glycosylation of their subunits

The microheterogeneity of androgen-binding protein (ABP) from rat serum and epididymis was examined by subjecting purified native or deglycosylated preparations to analysis by one- or two-dimensional polyacrylamide gel electrophoresis (PAGE) followed by electrophoretic transfer to nitrocellulose and immunochemical localization. Analysis of native ABP by one-dimensional sodium dodecyl sulfate-PAGE confirmed earlier observations that it is composed of subunits and that the subunits of serum ABP had higher apparent molecular weights than those of epididymal ABP. Treatment with neuraminidase, N-glycanase, or O-glycanase, alone or in combination, resulted in decreases in the apparent molecular weight of the subunits. These analyses indicated that terminal sialic acid residues and Asn-linked oligosaccharides were present on both subunits of ABP from the two sources. The fact that the greatest reduction in the Mr of the heavy subunit occurred following treatment with all three enzymes provides evidence that O-linked sugars are present on it. While enzyme treatment did not result in the appearance of a single subunit, chemical deglycosylation did (Mr 39,600). The carbohydrate composition of the heavy and light subunits of intact serum and epididymal ABP was 22 and 9% and 19 and 8%, respectively. Analysis by two-dimensional PAGE indicated that both subunits of the ABPs were composed of isoelectric variants. Although ABP from the two sources had several variants in common, differences were also observed. Treatment of the ABPs with the enzymes resulted in a shift of the pI values to a more basic pH range, indicating that carbohydrate removal also removed charged moieties. The most dramatic shift in the pI values of the isoforms occurred when O-glycanase was present in the enzyme mixture, providing further evidence for the presence of O-linked oligosaccharides on ABP. Isoelectric variants were present even after chemical deglycosylation of ABP.     

Characterization of the sex steroid binding protein of human pregnancy serum. Improvements in the purification procedure

The sex steroid binding protein (SBP) of human pregnancy serum was purified to homogeneity by the sequential use of ammonium sulfate precipitation, affinity chromatography on 5alpha-dihydrotestosterone-17beta-succinyldiaminoethyl-(1,4-butanediol diglycidyl ether)-agarose, and preparative polyacrylamide gel electrophoresis. The yield of pure SBP was improved from 5% as originally reported [Mickelson, K. E., and Petra, P. H. (1975), Biochemistry 14, 957] to 34%. Homogeneity of SBP was shown by equilibrium sedimentation ultracentrifugation in 6 M guanidine hydrochloride containing 0.1 M mercaptoethanol which yields a minimum molecular weight of 36 335 +/- 525. The protein is also homogeneous when examined by gel electrophoresis in the presence of sodium dodecyl sulfate. A value of 52 000 for the molecular weight is obtained by this method. SBP partially purified from Cohn fraction IV has also a molecular weight of 52 000 by gel electrophoresis in the presence of sodium dodecyl sulfate; that fraction is contaminated with another protein of molecular weight 90 000 which must be removed to obtain homogeneous SBP. The amino acid composition of SBP isolated from pregnancy serum is presented.     

Biochemical characterization of the 44G4 antigen from the HOON pre-B leukemic cell line

The 44G4 antigen is expressed in high amounts on human endothelial cells and at low levels on leukemic cells of pre-B and myelomonocytic origin. Its level of expression on the pre-B leukemic HOON cell line used for derivation of the corresponding mAb is intermediate but sufficient to permit the purification of the Ag. The molecule isolated by immunoaffinity from HOON is a glycoprotein since it bound to Ricinus communis agglutinin, wheat germ agglutinin, and peanut agglutinin lectins. The Ag was purified 2400-fold from a soluble taurocholate extract of HOON cells by affinity to wheat germ agglutinin-agarose and 44G4-IgG-Sepharose. The purified glycoprotein is likely a homodimer as it migrated on SDS-PAGE with an apparent m.w. of 170,000, nonreduced, and 95,000, reduced. Removal of N-linked oligosaccharides by endoglycosidase F led to a decrease in m.w. of 25,000; if neuraminidase and O-glycanase were also present, the total decrease in m.w. was 33,000 suggesting a polypeptide chain of 62,000 and 8,000 in O-linked substitutions. The glycoprotein digested with N-glycanase, neuraminidase, or O-glycanase could still be immunoprecipitated with the 44G4 mAb indicating that the antigenic epitope resides in the polypeptide. By Western blot analysis, the dissociated but nonreduced protein was reactive with 44G4, whereas the reduced and alkylated protein was not. Therefore, the epitope is dependent on the presence of intact disulfide bond(s). Sequential immunoprecipitation with OKT9 and 44G4 antibodies indicated that these epitopes are present on two distinct molecules and that 44G4 is distinct from the transferrin receptor despite a similar subunit structure.     

Biogenesis of glycophorin A in K562 human erythroleukemia cells

A monoclonal antibody (mAb-233) directed against an epitope in the nonglycosylated carboxyl-terminal region of human erythrocyte glycophorin A (GPA) was used in combination with metabolic labeling, the modification of N- and O-linked oligosaccharide processing by tunicamycin and monensin, and digestions with neuraminidase and O-glycanase to elucidate the pathway of GPA biogenesis in K562 human erythroleukemia cells. Cell-surface GPA is derived from two obligatory precursors in a stepwise manner. The initial GPA precursor has a Mr of 27,000 and appears to contain one N-linked high mannose oligosaccharide chain. In tunicamycin-treated cells, the initial precursor is similar in size (Mr = 24,000) to deglycosylated GPA from human erythrocytes. The 27-kDa initial precursor is rapidly converted to a transient 31-kDa intermediate by the addition of N-acetylgalactosamine residues to serine/threonine hydroxyl groups. Subsequent maturation involves the conversion of the high mannose chain to a complex-type oligosaccharide and the concomitant addition of galactose and sialic acid to internal N-acetylgalactosamine residues to extend the O-linked chains. These results define a single, stepwise processing pathway for the generation of all cell-surface GPA molecules and document for the first time the occurrence of both a unique initial precursor that contains a high mannose N-linked oligosaccharide chain but no O-linked sugars and a transient intermediate that appears to contain the same N-linked group and N-acetylgalactosamine at multiple serine/threonine residues. The properties of the intracellular GPA precursors and the relatively simple nature of the processing pathway reported herein contrast markedly with the characteristics of three intermediates and the complexity of two independent pathways in previously postulated schemes for GPA biogenesis (Gahmberg, C. G., Jokinen, M., Karhi, K. K., Kampe, O., Peterson, P. A., and Andersson, L. C. (1983) Methods Enzymol. 96, 281-298; Jokinen, M., Andersson, L. C., and Gahmberg, C. G. (1985) J. Biol. Chem. 260, 11314-11321).     

Contribution of the N-linked carbohydrate of erythrocyte antigen CD59 to its complement-inhibitory activity.

The contribution of N-linked carbohydrate to the complement-inhibitory function of the human erythrocyte membrane glycoprotein, CD59, was investigated. Amino acid sequence analysis of tryptic peptides labeled with [3H]borohydride revealed an N-linked carbohydrate moiety at the Asn18 residue. No O-linked carbohydrate was detected, as judged by the failure of asialo-CD59 to bind peanut agglutinin and by its resistance to digestion by O-glycanase. The apparent molecular mass of CD59 was reduced from 18-20 to 14 kDa upon complete digestion with N-glycanase, with no detectable proteolysis. N-glycanase digestion of CD59 was associated with an 88 +/- 4% loss of the complement-inhibitory activity of the protein, as assessed by its capacity to protect chicken erythrocytes from lysis by the human C5b-9 proteins. By contrast, no change in function was observed after digestion of CD59 with neuraminidase, under conditions that removed greater than 60% of [3H]sialic acid residues. Despite loss of functional activity after N-glycanase digestion, we detected no change in the capacity of the deglycosylated CD59 to incorporate into erythrocyte membranes or to bind specifically and with species selectivity to the C8 and C9 components of the membrane attack complex. In order to alter the branched-chain structure of the N-linked carbohydrate of CD59 without enzymatic digestion, Chinese hamster ovary (CHO) cells transfected with cDNA for human CD59 were grown in the alpha-mannosidase inhibitor, 1-deoxymannojirimycin, resulting in conversion of approximately 70% of the membrane glycoprotein to a high mannose. When grown in the presence of 1-deoxymannojirimycin, the C5b-9-inhibitory activity of CD59 expressed on the surface of the transfected CHO cells was reduced by an amount comparable to that observed for the N-glycanase digested protein. Taken together, these data suggest that normal glycosylation of Asn18 in CD59 is required for the normal expression of its complement-inhibitory activity on membrane surfaces, although these N-linked sugar residues do not contribute to CD59's affinity for the C8 and C9 components of the C5b-9 complex.     

Evidence for a single steroid-binding protein in the rabbit progesterone receptor

The rabbit uterine progesterone receptor copurifies as two molecular weight (Mr) forms of about 105,000 and 78,000. To investigate whether these are different proteins, we have used protease digestion, reversible denaturation, and photoaffinity labeling in studies on the steroid-binding domain of the receptor. Digestion of the Mr 105,000 and 78,000 forms, photoaffinity labeled with [3H]R5020, with Staphylococcus aureus V8 protease revealed identical peptide fragments of Mr 43,000, 39,000, and 27,000-30,000. When receptor in cytosol was denatured, separated by electrophoresis, and then reconstituted, [3H]progesterone bound specifically to a single form at about Mr 105,000. After partial purification, the reversible denaturation procedure revealed both the larger and the smaller progesterone-binding species similar to the photoaffinity-labeled species in this preparation. Receptor in uterine cytosol prepared under mild conditions appeared as a predominant large molecular weight form on photoaffinity labeling with [17 alpha-methyl-3H]R5020, [6,7-3H]R5020, or [3H]RU27987. Further purification of this cytosol showed the generation of a smaller labeled species. These results from three different approaches reinforce the view that the rabbit progesterone receptor contains a single steroid-binding protein.     

Structure/function analyses of human sex hormone-binding globulin: effects of zinc on steroid-binding specificity

In humans, sex hormone-binding globulin (SHBG) binds and transports the biologically most important androgens and estrogens in the blood, and regulates the access of these steroids to their targets tissues. In addition to binding sex steroids, SHBG has specific binding sites for divalent cations including calcium and zinc. Zinc binding to a site at the entrance of the steroid-binding pocket in human SHBG has been shown to reduce its affinity for estrogens, while having no impact on the binding of C19 steroids. Crystallographic studies indicate that C18 and C19 steroids are bound in opposite orientations within the SHBG steroid-binding site, and we have obtained new information that supports a molecular model explaining the mechanism by which zinc alters the affinity of human SHBG for estrogens, by studying directly the estradiol-binding properties SHBG variants created by site-directed mutagenesis. In this model, the coordination of a zinc ion by the side chains of residues Asp65 and His136 eliminates a critical hydrogen bond between Asp65 and the hydroxyl at C3 of estrogens, such as estradiol and 2-methoxyestradiol, and causes disorder in a polypeptide loop segment that covers the steroid-binding site. The combination of these structural changes explains the specific decrease in the affinity of human SHBG for C18 steroids in the presence of a zinc ion.     

Paragonimus ohirai: immunobiochemical characterization on the tegumental glycocalyx of excysted juvenile recognized by a monoclonal antibody

The tegumental glycocalyx of excysted juvenile (EJ) of Paragonimus ohirai was immunobiochemically characterized using a monoclonal antibody (MS-Mab). HPLC gel filtration showed that the antigens detected by two-site ELISA had a molecular weight of greater than or equal to 2 x 10(6) Da (dextran marker). On reduced SDS-PAGE, the glycocalyx antigen retained in the stacking gel was cleaved into several much smaller antigens after pronase treatment. The antigenic activity of the glycocalyx was stable in two-site ELISA to heat and acid treatments, but sensitive to alkali, periodate, base/borohydride, and pronase treatments. Precipitin formation in immunodouble diffusion between MS-Mab and EJ crude antigen was inhibited only by two monosaccharides: galactose and N-acetylgalactosamine. The purified glycocalyx bound strongly to PNA lectin, fairly well to RCA120 lectin, and slightly to SBA lectin, but not to Con A, WGA, UEA-1, DBA, or LFA lectins. Exo-beta-galactosidase treatment increased SBA binding, whereas it decreased PNA binding. PNA was observed to strongly bind to the body surface of living EJ. The antigenic activity of the glycocalyx was remarkably lost by incubation with exo-beta-galactosidase and O-glycanase. The glycocalyx was reactive with sera of P. ohirai-infected rats, and its reactivity was remarkably reduced by O-glycanase treatment. The ELISA level was higher in sera at an early stage of infection than in a late one. These studies show that the EJ tegumental glycocalyx is antigenic in infection, a marked, high molecular weight glycoprotein containing antigenic O-linked sugars, and that the sugar epitope is at the nonreducing terminal of the O-linked sugars and is composed of galactose and N-acetylgalactosamine.