Architecture of native human alpha 2-macroglobulin studied by cryoelectron microscopy and three-dimensional reconstruction

The architecture of the native human alpha 2-macroglobulin was studied by cryoelectron microscopy and image processing techniques. The lip, padlock, doughnut, and four-petaled flower views of this homotetrameric proteinase inhibitor were observed in the frozen-hydrated specimen, and a new view, termed eye view, was also characterized. The present three-dimensional reconstruction demonstrates that all these electron microscope views derive from a single three-dimensional structure. The molecule is composed of two horizontal bodies and of two oblique arches, which border a large central cavity. The polymorphism and the flexibility of the native alpha 2-macroglobulin are discussed.

Quaternary structure of Octopus vulgaris hemocyanin. Three-dimensional reconstruction from frozen-hydrated specimens and intramolecular location of functional units Ove and Ovb

A frozen-hydrated sample of Octopus vulgaris hemocyanin was imaged at 0 degree and 40 degrees tilt angle under low dose conditions by transmission electron microscopy. A three-dimensional reconstruction by the method of random conical tilt series produced a three-dimensional volume to which a D5 symmetry was applied. Examination of serial sections in the volume and surface representation at various thresholds allowed the five arches containing functional unit Ovg to be localized at the interdimeric subunit groove. In another set of experiments specific polyclonal antibodies were used to label functional units Ovb and Ove in the cylinder wall. The observation of the negatively stained immunocomplexes showed that Ovb is located in the external tiers of functional units and Ove in the internal tier. These results suggest that the direction of the polypeptide chains in the cylinder wall may be only partially antiparallel. A model of the quaternary structure is proposed with the following features: (1) the external tiers of functional units comprise four units each (Ova-d) coming from a single polypeptide chain; (2) the internal tier comprises two functional units from each polypeptide chain (Ove-f); (3) the interdimeric subunit arches connect the two copies of a single functional unit (Ovg) located in each polypeptide chain.

Three-dimensional immunoelectron microscopy of scorpion hemocyanin labeled with a monoclonal Fab fragment

An immunocomplex of the 4 x 6-meric hemocyanin of the scorpion Androctonus australis with the monoclonal Fab fragment L104 was reconstructed from electron micrographs of a negatively stained specimen, using the double-carbon-layer technique. The resulting structure enables a clear visualization of the Fab fragments bound to the four copies of the Aa6 subunit and directly confirms a previous localization of the L104 epitope deduced from two-dimensional image processing. Despite a strong flattening effect produced by the negative-staining technique the orientations of the Fab fragments are well characterized. Moreover, the observation of a central hole within the elbow bends of the Fab fragments provides information about the disposition of the Fabs around their main axis.

Further approaches to the quaternary structure of octopus hemocyanin: a model based on immunoelectron microscopy and image processing

The direction of the polypeptide chains and the location of the functional units in Octopus vulgaris hemocyanin were studied by various methods. Monoclonal antibodies specific for the Ovc (clone Ov409) and Ovg (clone Ov315) functional units produced immunocomplex strings which were examined in the electron microscope. In both cases the immunocomplexes contained more than two hemocyanin molecules in their side view, demonstrating that in the whole hemocyanin neighboring polypeptide chains run in antiparallel directions. The interhemocyanin distances in the immunocomplexes also indicated that Ovg is located inside the cylinder, while Ovc is located in the external layers of functional units. In addition, the fact that the binding point of the Fab arm to the hemocyanin molecule was occasionally visible confirmed the external location of functional unit Ovc. Image processing of the whole hemocyanin cross-linked with dimethyl suberimidate showed that the end-on view is not a perfect cylinder but a regular pentahedron and that the five-arch collar is probably composed of five pairs of functional unit Ovg located inside the cylinder. The accessibility of cross-linked hemocyanin to functional unit-specific polyclonal antibodies, studied in immunoelectrophoresis, showed that Ovb and Ove are highly accessible, while Ovd, Ovf, and Ovg are not. The low accessibility of Ovd may be at least partially explained by its high sugar content which could hamper the accessibility of the antibody to the antigen.

Three-dimensional architecture of human alpha 2-macroglobulin transformed with methylamine

A frozen-hydrated sample embedded in vitreous ice of human alpha 2-macroglobulin transformed by methylamine was imaged by cryoelectron microscopy and reconstructed in three dimensions. In the reconstruction, the cage-like architecture of this protease inhibitor is fully revealed with a clear visualization of two lozenge-shaped lateral walls connected by thin bridges. The shape and dimensions of the internal cavity normally containing the trapped protease(s) is described. The possible locations of the thiol ester sites and inter-subunit connections are also discussed.

Electron microscopy of alpha 2-macroglobulin with a thiol ester bound ligand

In order to covalently bind the hydrolyzed thiol ester groups of the human alpha 2-macroglobulin (alpha 2M) transformed by methylamine, the phospholipase A2 (PLA2), a small enzyme (M(r) = 13,000) from Naja nigricollis snake venom was activated by succinimidyl 4-(maleimidomethyl)cyclohexane-1-carboxylate (SMCC). Average images determined from electron micrographs of the methylamine-transformed alpha 2M, with and without activated PLA2, were determined by image processing and compared. A localization of the PLA2 was achieved by subtracting the average image of alpha 2M transformed by methylamine from that containing PLA2. The results are consistent with previous work showing the central localization of chymotrypsin trapped in alpha 2M. They also suggest that the four thiol esters are located near the center of the alpha 2M molecule.

Three-dimensional reconstruction of native Androctonus australis hemocyanin

A sample of native 4 x 6-meric hemocyanin of Androctonus australis was negatively stained with the double-layer technique, and was observed by transmission electron microscopy under low-dose conditions with a 50 degree and 0 degree tilt. The three-dimensional reconstruction method from "Single-exposure, random conical tilt series" was then applied. Independent three-dimensional reconstructions were obtained from the top, side and 45 degree views. Despite a pronounced flattening effect, presumably due to the specimen preparation technique, the positions of the 24 subunits composing the oligomer were unequivocally determined. This experiment definitely solves the problem of the architectural organization of the subunits in the cheliceratan 4 x 6-meric hemocyanins. Moreover, distinction between the flip and flop faces and an attenuated rocking effect were observed.

Crystals of the carboxyl-terminal functional unit from Octopus dofleini hemocyanin

The carboxyl-terminal oxygen-binding unit of the polypeptide from Octopus dofleini hemocyanin has been crystallized in a form suitable for three-dimensional X-ray analysis. This proteolytic fragment has a molecular weight of 47 kDa and reversibly binds O2 while exhibiting a slight Bohr effect. Two types of crystals have been grown. Type I crystals, currently under analysis, belong to the orthorhombic space group P2(1)2(1)2(1) and have unit cell dimensions of 92.6 A x 167.4 A x 59.2 A. A composition of two protein molecules per asymmetric unit and 50% solvent content is consistent with a self-rotation function that identifies a non-crystallographic 2-fold axis of symmetry relating these molecules. Diffraction extending beyond 1.9 A Bragg spacings can be detected with synchrotron X-radiation.

Topological mapping of 13 epitopes on a subunit of Androctonus australis hemocyanin

A topological localization of epitopes on the surface of the Aa6 subunit of Androctonus australis hemocyanin has been carried out. First, immunocomplex strings composed of native hemocyanin and monoclonal antibodies were examined in the electron microscope and submitted to an image processing by correspondence analysis. The average images were then compared to a three-dimensional model of the 24-mer suggesting that 11 of the 13 epitopes are located in three zones of the subunit surface. Second, the overlaps between the epitopes were then studied by polyacrylamide gel electrophoresis, competitive binding inhibition, and immunoelectron microscopy. Four groups of epitopes were identified. One group was capable of binding exclusively to the free subunit. The other three groups were identical to those found in immunoelectron microscopy. The data are consistent with the existence of a small number of immunodominant regions on the surface of the Aa6 subunit.

Structure and function of the carboxyl-terminal oxygen-binding domain from the subunit of Octopus dofleini hemocyanin

The C-terminal domain, Od-1, of the 7-domain subunit of Octopus dofleini hemocyanin has been prepared by partial trypsinolysis followed by ion-exchange chromatography. It binds oxygen reversibly and is homogeneous in molecular weight. Its physical properties have been compared with those of the subunit. The domain molecular weight is found by sedimentation equilibrium to be 4.7 X 10(4), in excellent agreement with the result recently obtained in our laboratory from cDNA sequencing of this domain [Lang, W. H. (1988) Biochemistry (preceding paper in this issue)]. It has a sedimentation coefficient of 3.8 S. Both the molecular weight and sedimentation coefficient are consistent with the domain constituting approximately one-seventh of the Mr 3.5 X 10(5) subunit. Its amino acid composition and carbohydrate content differ significantly from that of the whole subunit, confirming the heterogeneity in domains previously established on an immunological basis. Circular dichroism predicts similar secondary structure for the domain and subunit. The domain does not self-associate in the presence of Mg2+ but does bind to the whole molecule in a ratio of approximately 1 domain/subunit. The oxygen affinity of this domain is quite low. It shows intrinsic magnesium and Bohr effects similar to those of the whole molecule but of greatly reduced magnitude.

Mapping of six epitopes on haemocyanin subunit Aa 6 by immunoelectron microscopy

Monoclonal antibodies directed against the haemocyanin of the scorpion Androctonus australis were raised in order to map antigenic determinants (epitopes). The method of mapping employed in this study is molecular immunoelectron microscopy. It consists of a direct electron microscopic observation of antigenic molecules labelled with monoclonal antibodies. The epitopes are then localized in a small region of the external surface of the antigenic molecule whose architecture and quaternary structure are well known. Six monoclonal antibodies have been selected and epitopes have been circumscribed within a small area of one subunit among the 24 subunits composing the whole antigenic molecule.

Intramolecular localization of epitopes within an oligomeric protein by immunoelectron microscopy and image processing

Three epitopes have been localized by immunoelectron microscopy on subunit Aa6 of the 4 x 6-meric hemocyanin of the scorpion Androctonus australis. Soluble immunocomplexes composed of monoclonal antibodies and of native hemocyanin were purified, negatively stained with uranyle acetate by the single-layer technique, and examined under the electron microscope (EM). The molecule images were digitized, aligned, and submitted to correspondence analysis according to the method of Van Heel and Frank (Ultramicroscopy 6:187-194, 1981). A high-precision localization of the attachment point of the Fab arm to the antigen was achieved through a careful analysis of the average images. This method easily allowed the discrimination of epitopes located in different domains (Mr 20 kDa) of the same subunit. Nonoverlapping epitopes located in the same structural domain of subunit Aa6 could be distinguished by the stain exclusion patterns of their Fab arms. The method is general and may be used for epitope mapping in any antigen producing definite EM views.

Approach to the direct intramolecular localization of antigenic determinants in Androctonus australis hemocyanin with monoclonal antibodies by molecular immunoelectron microscopy

Monoclonal antibodies (mAb) directed vs. subunits from hemocyanin (Hc) of the scorpion Androctonus australis were used in molecular immunoelectron microscopy (MIEM) to directly localize the epitopes within the subunits. Four types of mAb were used. First, mAb 6302, an IgG clone highly specific for subunit Aa 2, produced with native hemocyanin long strings composed of hemocyanin molecules in the side view and in the 45 degrees view. At lower concentration, "parachute" and "butterfly" structures composed of two Hc molecules and one monoclonal immunoglobin G (IgG) molecule were obtained. Fab fragments prepared from mAb 6302 bound exactly on the top and bottom edges of the molecule. The second type of mAb (6003), directed vs. subunit Aa 2, produced nice immunocomplexes with the free subunit but nothing with the native oligomer. It is suggested that due to steric hindrance or to conformational changes the epitope is not accessible in the native molecule. The third mAb belonged to the IgM class and apparently bound Hc in the Aa 2 area. However, because of the difficulty of separating the immunocomplexes from the residual mAb and the polymorphism of the IgM molecules, monoclonal IgM are no longer used for MIEM. The last type of mAb (5701) had a high affinity and a high specificity for subunit Aa 6. It produced two types of immunocomplexes with native Hc. The two types differed by a 180 degrees rotation around one of the Fab arms. These complexes, which support recent results of Wrigley et al. [Wrigley, N. G., Brown, E. B., & Skehel, J. J. (1983) J. Mol. Biol. 169, 771-774] and of Roux [Roux, K. H. (1983) Eur. J. Immunol. 14, 459-464], indicate that monoclonal IgG have a high degree of rotational flexibility around the Fab arm. Monoclonal antibody 5701 bound exactly at the corner of the molecule in the area where subunit Aa 6 is known to be located. The MIEM approach of the location of the epitope requires the model of the architecture and of the quaternary structure to be very precise. Thus, recent findings of Gaykema et al. [Gaykema, W. P. J., Hol, J. M., Vereijken, J. M., Soeter, N. M., Bak, H. J., & Beintema, J. J. (1984) Nature (London) 309, 23-29] and of Van Heel et al. [Van Heel, M., Keegstra, W., Schutter, W., & Van Bruggen, E. F. J. (1983) Life Chem. Rep., Suppl. Ser. 1, 69-73] led to a reexamination of previous models.(ABSTRACT TRUNCATED AT 400 WORDS)

Cell-free synthesis of hemocyanin from the scorpion Androctonus australis. Characterization of the translation products by monospecific antisera

Translation of Androctonus australis poly(A)-RNA in vitro led to a number of polypeptides products (8-10) of 70-73 kDa analyzed by two-dimensional gel electrophoresis and identified by immunoprecipitation with an anti-(dissociated hemocyanin) antiserum. The translated hemocyanin polypeptides have the same physico-chemical characteristics as authentic hemocyanin subunits. Subunits Aa 2 and Aa 4 have been identified with monospecific antisera characterized (a) by their capability of reacting with their homologous subunit and (b) by their inability of binding to cross-reacting subunits. Each polypeptide chain is coded by a different messenger without significant post-translational events. Hemocyanin could be detected among the translation products of the poly(A)-RNA isolated from the cuticle under the carapace.

Immunological correlates between multiple isolated subunits of Androctonus australis and Limulus polyphemus hemocyanins: an evolutionary approach

Immunological cross-reactivities between isolated subunits of the scorpion Androctonus australis (Aa) and of the horseshoe crab Limulus polyphemus (Lp) hemocyanins were studied using subunit-specific antibodies prepared through immunoadsorption to pure immobilized subunits. Rocket immunoelectrophoreses of the various subunits of both hemocyanins were carried out at constant antigen concentration against the various subunit-specific antibody preparations. Then the data were analyzed through factorial correspondence analysis and compared to the respective intramolecular locations of the subunits in both hemocyanins. The results show that the dimeric subunits located in the central part of each (4 X 6)meric structure (Aa whole molecule and Lp half molecule) were strongly preserved. In addition, the (8 X 6)mer-forming subunit of Lp hemocyanin (LpIV) and the subunit occupying the same intramolecular position in Aa hemocyanin (Aa5A) were also strongly preserved. Besides the strong antigenic relatedness, less pronounced crossed immunoprecipitations or no precipitation at all were observed between subunits with homologous positions suggesting a minor structural and/or functional roles for these subunits. All the antigen-antibody combinations leading to an absence of immunoprecipitation were screened for the presence of soluble immunocomplexes by radioimmunological tests. In all cases, soluble immunocomplexes were observed. These results suggest the following evolution scenario. First, the central dimeric subunits, responsible of the dodecamer aggregation (Aa3C and 5B and LpV and VI) were already differentiated when Merostomata diverged from Arachnida. Second, the differentiation of the (8 X 6)mer-forming subunit occurred in the Merostomata ramification in a preserved subunit already possessing a functional advantage. Third, the differentiation of subunits Aa3A and Aa3B recently occurred in the scorpion ramification.

Architecture of Limulus polyphemus hemocyanin

The architecture of the 48-meric hemocyanin of the horseshoe crab Limulus polyphemus has been determined from electron micrographs of whole (48-mer) molecules and half- (24-mer) molecules. The assembly of hexamers of kidney-shaped subunits can produce two dodecameric enantiomorphs, designated as right and left. The assembly of 24-mers can again result in two enantiomorphs. By taking into account the rocking effect described by Van Heel and Frank [Van Heel, M., & Frank, J. (1981) Ultramicroscopy 6, 187-194], we deduced that the 24-meric half-molecule is made up of two copies of the left dodecameric enantiomorph. In addition, the two constituent dodecamers of the half-molecule are shifted with respect to a symmetric head-to-tail arrangement, which makes it possible to distinguish two different faces of the 24-mer, termed flip and flop. A model of the whole molecule was built from two copies of the 24-meric half-molecule. This model presents the four distinct views observed in the electron microscope (pentagon, ring, cross, and bowtie). In addition, the model shows the pentagonal view to exist in two varieties: symmetric and asymmetric. An analysis of electron micrographs presenting the pentagonal view by image processing using the statistical technique of correspondence analysis confirmed the existence of two types of pentagonal view, representing projections of a molecule built from two copies of the left 24-meric enantiomorph. In addition, the best fit between the averaged molecule images and the possible models was observed with a flop-flop inter 24-mer contact. The final model is shown in a series of stereo views produced by computer graphical techniques.

A refined quaternary structure of Androctonus australis Hemocyanin

The quaternary structure of the (4 X 6)-mer hemocyanin from the Scorpion Androctonus australis previously published [Lamy, J., Bijlholt, M. M. C., Sizaret, P.-Y., Lamy, J., and van Bruggen, E. F. J. (1981) Biochemistry, 20, 1849-1856] has been refined. The relative positions in the half molecule of subunits Aa 3A and Aa 3B compared to those of Aa 3C and Aa 5B have been established by double labeling of the (2 X 6)-mer with binary mixtures of subunit-specific Fab fragments. The results show that subunits Aa 3B and Aa 5B are located in the same hexamer while Aa 3A and Aa 3C are in the other half of the (2 X 6)-mer. The choice of the enantiomer was deduced from a careful examination of electron micrographs of the native molecule. Finally a position was assigned to each of the 24 subunits on the flip and flop faces as defined by Van Heel and Frank [Ultramicroscopy, 6, 187-194 (1981)].

Hemocyanins in spiders, VII. Immunological comparison of the subunits of Eurypelma californicum hemocyanin

The isolated subunites of Eurypelma californicum hemocyanin were studied by aid of antibodies raised against whole, dissociated hemocyanin. The proportion of impurities was found to be low in almost all subunits. There was no cross reaction between the individual chains, and the total number of antigenically different subunits was found to be seven, confirming results obtained by different methods. If an artificial mixture prepared from purified subunits is compared to whole, dissociated hemocyanin, an overall very similar pattern is obtained but differences appear which are due to specific interaction.--The dimeric subunit 4D was shown to be a heterodimer (asymmetric dimer) composed of chains b and c4.