Production of Humanized Fab Fragment against Human High Affinity IgE Receptor in Pichia pastoris

Binding of allergen-IgE complexes to the high affinity IgE receptor (FcεRI) on mast cells and basophils leads to the release of various mediaters such as histamine. Fab fragments prepared by the papain digestion of humanized antibody against human FcεRI inhibited the release of histamine from human basophils. Here we established an expression system to directly produce Fab fragments of the humanized anti-human FcεRI antibody in methylotropic yeast, P. pastoris. Fab fragments were efficiently secreted into the medium at a concentration of 10-40 mg/L using a signal sequence from the P. pastoris phosphatase gene. They were consisted of disulfide-linked light and heavy chains correctly starting from the first amino acid residues by proper cleavage of the signal peptides. The obtained Fab fragments inhibited the binding between IgE and FcεRI as efficiently as the counterpart prepared by papain digestion of the whole antibody.     

Development of a high yielding E. coli periplasmic expression system for the production of humanized Fab' fragments

Humanized Fab′ fragments may be produced in the periplasm of Escherichia coli but can be subject to degradation by host cell proteases. In order to increase Fab′ yield and reduce proteolysis we developed periplasmic protease deficient strains of E. coli. These strains lacked the protease activity of Tsp, protease III and DegP. High cell density fermentations indicated Tsp deficient strains increased productivity two fold but this increase was accompanied by premature cell lysis soon after the induction of Fab′ expression. To overcome the reduction in cell viability we introduced suppressor mutations into the spr gene. The mutations partially restored the wild type phenotype of the cells. Furthermore, we coexpressed a range of periplasmic chaperone proteins with the Fab′, DsbC had the most significant impact, increasing humanized Fab′ production during high cell density fermentation. When DsbC coexpression was combined with a Tsp deficient spr strain we observed an increase in yield and essentially restored “wild type” cell viability. We achieved a final periplasmic yield of over 2.4g/L (final cell density OD₆₀₀ 105), 40 h post Fab′ induction with minimal cell lysis.The data suggests that proteolysis, periplasm integrity, protein folding and disulphide bond formation are all potential limiting steps in the production of Fab′ fragments in the periplasm of E. coli. In this body of work, we have addressed these limiting steps by utilizing stabilized protease deficient strains and chaperone coexpression. © 2016 American Institute of Chemical Engineers Biotechnol. Prog., 33:212–220, 2017     

Boar sperm surface glycoproteins: Isolation,localization, and temporal expression during spermatogenesis

Boar sperm glycoprotein fractions were isolated by Lens culinaris hemagglutinin affinity chromatography of detergent-solubilized ejaculated spermatozoa, followed by preparative sodium dodecyl sulfate (SDS) polyacrylamide gel electrophoresis. In order to develop methods for further investigations of the sperm proteins, we proceeded with two of the isolated glycoproteins. Antibodies were raised in female rabbits against each of the two sperm glycoproteins. By a combination of immunosorbent chromatography, using the antibodies obtained, and preparative SDS polyacrylamide gel electrophoresis, highly purified sperm proteins were isolated. The sperm proteins were immobilized on Sepharose gel columns and specific immunoglobulin Fab fragments were enriched by affinity chromatography. The specificity of the Fab fragments was ascertained by immunoprecipitation analysis. The Fab fragments were used in indirect immunofluorescence analysis to localize the corresponding antigens on the surface of boar spermatozoa. Both antigens were exclusively confined to the postacrosomal region. Immunohistochemical staining of boar testis sections revealed that both antigens are expressed from the spermatid stage. This technique also revealed that one of the antigens congregated at the Golgi complex-acrosome region during spermatogenesis.     

Localization of the secondary quinone-binding site in reaction centers from Rhodopseudomonas sphaeroides R-26 by antibody inhibition of electron transfer

Inhibition of the electron transfer from Q_A to Q_B was measured in the presence of Fab fragments of antibodies directed against the subunits of reaction centers of Rhodopseudomonas sphaeroides R-26. Anti-M Fab inhibited the electron transfer, whereas anti-L Fab and anti-H Fab did not. From these experiments, we conclude that the binding site for Q_B is located on the M-subunit.     

Immunological evidence that a 305-kilodalton vitelline envelope polypeptide isolated from sea urchin eggs is a sperm receptor

Direct isolation of the sea urchin egg vitelline envelope with intact sperm receptors is difficult because the envelope is firmly attached to the egg plasma membrane. We now report a method for producing an inseminated egg preparation in Strongylocentrotus purpuratus (using soybean trypsin inhibitor [STI] and Ca²⁺, Mg²⁺-free seawater) that contains an elevated vitelline envelope (VE*-STI). The VE*-STI is devoid of cortical granule material, and supernumerary sperm do not detach postinsemination, suggesting that the VE*-STI contains active sperm receptors. VE*-STIs contain a 305-kD polypeptide and additional components that range from 225 to 31 kD, whereas the 305-kD polypeptide was considerably reduced in VE*s. Electrophoresis of sperm receptor hydrolase digests of VE*-STIs showed that the 305-kD polypeptide and several other envelope polypeptides are protease substrates. Univalent Fab fragments against VE*s, VE*-STIs, and 305 and 225-kD polypeptides blocked sperm binding and fertilization in an Fab concentration-dependent manner. The 305 and 225-kD polypeptides were localized in the VE*-STI using indirect immunofluorescence. Enzyme-linked immunosorbent assays showed that the 305 and 225-kD polypeptides share determinants, suggesting that the 225-kD polypeptide may be derived from the 305-kD polypeptide by the proteolysis that occurs at the cell surface during fertilization. Fab fragments against S purpuratus VE*-STI antigens neither bound to nor blocked homologous sperm binding and fertilization of Lytechinus variegatus eggs. Cross fertilizability occurred to the extent of 5% or less between L variegatus and S purpuratus, therefore, we conclude that the 305 kD-polypeptide isolated from S purpuratus is a species-specific vitelline envelope sperm receptor.     

Single chain Fab (scFab) fragment

Background  

The connection of the variable part of the heavy chain (VH) and and the variable part of the light chain (VL) by a peptide linker to form a consecutive polypeptide chain (single chain antibody, scFv) was a breakthrough for the functional production of antibody fragments in Escherichia coli. Being double the size of fragment variable (Fv) fragments and requiring assembly of two independent polypeptide chains, functional Fab fragments are usually produced with significantly lower yields in E. coli. An antibody design combining stability and assay compatibility of the fragment antigen binding (Fab) with high level bacterial expression of single chain Fv fragments would be desirable. The desired antibody fragment should be both suitable for expression as soluble antibody in E. coli and antibody phage display.     

TCP-11, the product of a mouse t-complex gene,plays a role in stimulation of capacitation and inhibition of the spontaneous acrosome reaction

Tcp-11 is a candidate for a distorter gene within the t-complex on mouse chromosome 17; although t-complex genes appear to affect sperm function, relatively little is known about mechanisms whereby these genes might play a specific physiological role. We present evidence that the protein TCP-11 is found on the surface of mature epididymal spermatozoa. Although detected on both the acrosomal cap region of the head and the flagellum of acrosome-intact cells, it is absent from the heads of acrosome-reacted cells. When epididymal spermatozoa were incubated in the presence of anti-TCP-11 IgG Fab fragments for a total of 120 min and assessed using chlortetracycline fluorescence, we observed a stimulation of capacitation and an inhibition of spontaneous acrosome loss, suggestive of enhanced fertility compared with untreated suspensions. In vitro fertilization experiments confirmed that Fab-treated suspensions became fertile more quickly and then maintained high fertility. Because these responses were remarkably similar to those obtained using the TRH-related peptide FPP (fertilization promoting peptide; pGlu-Glu-ProNH₂) and adenosine, we investigated responses to Fab fragments, FPP, and adenosine. Results indicated that the Fab fragments appear to work at the same extracellular site as FPP, one that is distinct from the adenosine site of action. Further evidence for this conclusion was obtained using pGlu-Gln-ProNH₂, an FPP-related tripeptide known to competitively inhibit responses to FPP; as with FPP, pGlu-Gln-ProNH₂ inhibited the stimulatory effect of Fab fragments in a concentration-dependent manner. From these results we suggest that TCP-11 may be the receptor for FPP and that the adenylate clyclase/cyclic AMP pathway may be the signal transduction pathway activated by interactions between extracellular effector molecules (e.g., Fab fragments or FPP acting as an agonist) and TCP-11. A mechanism such as this that promotes capacitation but inhibits spontaneous acrosome loss in vivo would play a very important role by helping to maximize the fertilizing potential of the few spermatozoa that reach the site of fertilization. The fact that there is a human homolog of Tcp-11 suggests that this gene could play an important role in regulation of human, as well as mouse, sperm function. Mol. Reprod. Dev. 48:375–382, 1997. © 1997 Wiley-Liss, Inc.     

Bicistronic DNA display for in vitro selection of Fab fragments

In vitro display methods are superior tools for obtaining monoclonal antibodies. Although totally in vitro display methods, such as ribosome display and mRNA display, have the advantages of larger library sizes and quicker selection procedures compared with phage display, their applications have been limited to single-chain Fvs due to the requirement for linking of the mRNA and the nascent protein on the ribosome. Here we describe a different type of totally in vitro method, DNA display, that is applicable to heterodimeric Fab fragments: in vitro compartmentalization in water-in-oil emulsions allows the linking of an oligomeric protein and its encoding DNA with multiple ORFs. Since previously used emulsions impaired the synthesis of functional Fab fragments, we modified conditions for preparing emulsions, and identified conditions under which it was possible to enrich Fab fragments 10⁶-fold per three rounds of affinity selection. Furthermore, we confirmed that genes encoding stable Fab fragments could be selected from a Fab fragment library with a randomized hydrophobic core in the constant region by applying heat treatment as a selection pressure. Since this method has all advantages of both phage display and totally in vitro display, it represents a new option for many applications using display methods.     

Aglycosylated antibodies and antibody fragments produced in a scalable in vitro transcription-translation system

We describe protein synthesis, folding and assembly of antibody fragments and full-length aglycosylated antibodies using an Escherichia coli-based open cell-free synthesis (OCFS) system. We use DNA template design and high throughput screening at microliter scale to rapidly optimize production of single-chain Fv (scFv) and Fab antibody fragments that bind to human IL-23 and IL-13α1R, respectively. In addition we demonstrate production of aglycosylated immunoglobulin G (IgG₁) trastuzumab. These antibodies are produced rapidly over several hours in batch mode in standard bioreactors with linear scalable yields of hundreds of milligrams/L over a 1 million-fold change in scales up to pilot scale production. We demonstrate protein expression optimization of translation initiation region (TIR) libraries from gene synthesized linear DNA templates, optimization of the temporal assembly of a Fab from independent heavy chain and light chain plasmids and optimized expression of fully assembled trastuzumab that is equivalent to mammalian expressed material in biophysical and affinity based assays. These results illustrate how the open nature of the cell-free system can be used as a seamless antibody engineering platform from discovery to preclinical development of aglycosylated monoclonal antibodies and antibody fragments as potential therapeutics.     

Identification of expressed bovine class I MHC genes at two loci and demonstration of physical linkage

A cDNA library prepared from lymphocytes of a cow (E98), homozygous at major histocompatibility complex (MHC) loci (BoLA phenotype w10, KN104), was screened with a bovine MHC class I probe. Of the cDNA clones isolated, two, (2.1 and 5.1) were selected and showed divergence at both 5 and 3 termini. E98 DNA was digested with rare-cutter enzymes (Sfi I, Mlu I, Not I, and Cla I) and fragments were size-separated by field inversion gel electrophoresis (FIGE). Hybridization with an entire class I cDNA probe revealed multiple fragments generated by each enzyme. When the 3 untranslated regions (UT) of 2.1 and 5.1 were used as probes, only one fragment was revealed in each digested sample, showing locus specificity of these probes in cattle. Further, DNA of transfected mouse fibroblasts L4 (expressing KN104) and L10 (expressing w10) hybridized to the 3UT regions of clones 2.1 and 5.1, respectively, Northern blot analysis of the mRNA of the L4 and L10 transfected cells provided further evidence that the cDNA clones 2.1 and 5.1 code for the BoLA-KN104 and BoLA-w10 class I molecules respectively, and thus these represent the products of two different genes. A long range physical mapping of the BoLA-w10 and KN104 genes was performed using FIGE analysis of DNA of and homozygous and an heterozygous animal. This analysis revealed that the BoLA-w10 and KN104 genes are separated by not more than 210 kilobases (kb) and that they are components of a multigene family spanning 1550 kb. As the] w10 gene is at the BoLA-A locus we assign the KN104 gene to a B locus.     

Labeling and stability of radiolabeled antibody fragments by a direct 99mTc-labeling method

The in vitro labeling and stability of ^99mTc-labeled antibody Fab′ fragments prepared by a direct labeling technique were evaluated. Eight antibody fragments derived from murine IgG1 (N = 5), IgG2a (N = 2) and IgG3 (N = 1) isotypes were labeled with a preformed ^99mTc-d-glucarate complex. No loss of radioactivity incorporation was observed for all the ^99mTc-labeled antibody fragments after 24 h incubation at 37 °C. The ^99mTc-labeled antibody fragments (IgG1, N = 2; IgG2a, N = 2; IgG3, N = 1) were stable upon challenge with DTPA, EDTA or acidic pH. Furthermore, using the affinity chromatography technique, two of the ^99mTc-labeled antibody fragments displayed no loss of immunoreactivity after prolonged incubation in phosphate buffer up to 24 h at 37 °C. The bonding between ^99mTc and antibody fragments was elucidated by challenging with a diamide ditholate (N₂S₂) compound. The Fab′ with IgG2a isotype displayed tighter binding to ^99mTc in comparison to the Fab′ from IgG1 and IgG3 isotype in N₂S₂ challenge and incubation with human plasma. The in vivo biodistribution of five ^99mTc-labeled fragments were evaluated in normal mice. In conclusion, the direct labeling method allows stable ^99mTc labeling of antibody fragments from three of the major murine isotypes.     

Chimeric fab fragments of antibodies to recombinant Ebola virus glycoprotein

Previously, we have determined the nucleotide and amino acid sequences of the variable domains of three mouse monoclonal antibodies specific to the individual epitopes of the Ebola virus glycoprotein: GPE118 (IgG), GPE325 (IgM) and GPE534 (IgG) [1]. In the present paper, chimeric Fab fragments of Fab118, Fab325, and Fab534 antibodies were obtained based on the variable domains of murine antibodies by attaching CH1 and CL constant regions of human kappa-IgG1 to them. The recombinant chimeric Fab fragments were synthesized in the heterologous expression system Escherichia coli, isolated and purified using metal chelate affinity chromatography. The immunochemical properties of the obtained Fab fragments were studied by immunoblotting techniques as well as indirect and competitive ELISA using recombinant Ebola virus proteins: EBOV rGPdTM (recombinant glycoprotein of Ebola hemorrhagic fever virus without the transmembrane domain), NP (nucleoprotein) and VP40 (structural protein). The identity of recombinant chimeric Fab fragments, as well as their specificity to the recombinant glycoprotein of Ebola hemorrhagic fever virus (EBOV GP) was proved. The results of indirect ELISA evidence the absence of immunological cross-reactivity to NP and VP40 proteins of Ebola virus. The dissociation constants of the antigen-antibody complex K _d equal to 5.0, 1.0 and 1.0 nM for Fab118, Fab325 and Fab534, respectively, were determined; they indicate high affinity of the obtained experimental samples to EBOV GP. The epitope specificity of Fab fragments was studied using a panel of commercial neutralizing antibodies. It was found that all studied antibodies to EBOV GP are targeted to different epitopes, while the epitopes of the recombinant chimeric Fab fragments and original murine monoclonal antibodies (mAbs) coincide. All the obtained and studied mAbs to EBOV GP are specific to epitopes that coincide or overlap the epitopes of three commercial neutralizing mAbs to Ebola virus: epitopes Fab118 and Fab325 overlap the epitope of the known commercial mAb h13F6; Fab325 epitope also overlaps mAb c6D8 epitope; Fab534 epitope is located near mAb KZ52 conformational epitope, in the formation of which amino acid residues of GP1 and GP2 domains of EBOV GP are involved.     

Use of high-capacity surface with oriented recombinant antibody fragments in a 5-min immunoassay for thyroid-stimulating hormone

High-capacity surfaces can enhance analyte-binding kinetics and be beneficial for rapid immunoassays. Site-specifically immobilized, oriented recombinant single-chain Fv (scFv) and Fab antibody fragments were compared with a conventional, nonoriented monoclonal antibody (Mab) to capture antigen from serum to solid surface in a one-step, two-site thyroid-stimulating hormone (TSH) immunoassay with a 5-min incubation time. The assay used a ready-to-use dry reagent-based concept and time-resolved fluorescent measurement. TSH binding capacities were 3.0-fold (Fab) and at least 4.1-fold (scFv) higher when recombinant antibodies were used instead of Mab. Recombinant antibody fragments also produced faster kinetics (5 vs. 45-min saturation level) than Mab: 21-25% (Mab) versus 72-83% (scFv and Fab). Analytical sensitivities of the 5-min assay were 0.09 mIU/L TSH (Fab), 0.16 mIU/L TSH (scFv), and 0.26 mIU/L TSH (Mab). Between-run variabilities were 4.2-7.9% (Fab), 4.6-17.7% (scFv), and 5.5-7.2% (Mab). The assays correlated well with the AutoDELFIA hTSH (human TSH) Ultra assay (r = 0.99, n = 109). Fab was good in all aspects of immunoassay—capacity, kinetics, sensitivity, and analytical performance. As a homogeneous, stable, and small-sized binding molecule with optimized surface-coating properties as well as reduced risk for interference by heterophilic antibodies, Fab fragment is a promising and realistic immunoreagent for the future.     

Phosphate uptake in the yeast Candida tropicalis: purification of phosphate-binding protein and investigations about its role in phosphate uptake

The purification of a phosphate-binding protein (P_iBP₂) by immunoadsorption is described. The entire anti phosphate-binding protein 2 antibodies as well as the Fab fragments obtained from these antibodies inhibit P_i uptake by whole cells. The inhibition is a mixed type of inhibition (V _m and K _m are affected). These results should be regarded as a possible involvement of phosphate-binding protein 2 in P_i uptake. The binding of ¹²⁵I-labelled fragments prepared from anti phosphate-binding protein 2 antibodies to whole cells, to shocked cells and to protoplasts has been investigated. The results confirm the release of phosphate-binding protein by osmotic shock and during protoplast formation. From these findings, a cell-wall localisation, near the cell surface of the phosphate-binding protein should be proposed.Abbreviations P_i inorganic phosphate - P_iBP phosphate-binding protein - Tris Tris (hydroxymethyl)-aminoethane - MES (2(N-Morpholino) ethanesulfonic acid - BSA bovine serum albumin - EDTA ethylene diamine tetraacetic acid, disodium salt - PMSF phenylmethyl sulfonyl fluoride - SDS sodium dodecyl sulfate - Fab fragments, fragment antigen binding     

Promoter engineering to optimize recombinant periplasmic Fab′ fragment production in Escherichia coli

Fab’ fragments have become an established class of biotherapeutic over the last two decades. Likewise, developments in synthetic biology are providing ever more powerful techniques for designing bacterial genes, gene networks and entire genomes that can be used to improve industrial performance of cells used for production of biotherapeutics. We have previously observed significant leakage of an exogenous therapeutic Fab’ fragment into the growth medium during high cell density cultivation of an Escherichia coli production strain. In this study we sought to apply a promoter engineering strategy to address the issue of Fab’ fragment leakage and its consequent bioprocess challenges. We used site directed mutagenesis to convert the P_tac promoter, present in the plasmid, pTTOD‐A33 Fab’, to a P_tic promoter which has been shown by others to direct expression at a 35% reduced rate compared to P_tac. We characterized the resultant production trains in which either P_tic or P_tac promoters direct Fab’ fragment expression. The P_tic promoter strain showed a 25?30% reduction in Fab’ expression relative to the original P_tac strain. Reduced Fab’ leakage and increased viability over the course of a fed‐batch fermentation were also observed for the P_tic promoter strain. We conclude that cell design steps such as the P_tac to P_tic promoter conversion reported here, can yield significant process benefit and understanding with respect to periplasmic Fab’ fragment production. It remains an open question as to whether the influence of transgene expression on periplasmic retention is mediated by global metabolic burden effects or periplasm overcapacity. © 2016 American Institute of Chemical Engineers Biotechnol. Prog., 32:840–847, 2016     

FPP modulates mammalian sperm function via TCP-11 and the adenylyl cyclase/cAMP pathway

Fertilization promoting peptide (FPP; pGlu-Glu-ProNH₂), which is found in seminal plasma, promotes capacitation but inhibits spontaneous acrosome loss in mammalian spermatozoa in vitro. Adenosine, known to modulate the adenylyl cyclase (AC)/cAMP pathway, elicits these same responses whereas FPP + adenosine produces an enhanced response, leading to the hypothesis that FPP and adenosine modulate the same signal transduction pathway but act via different receptors. TCP-11, the product of a t-complex gene, is the putative receptor for FPP: Fab fragments of anti-TCP-11 antibodies have the same effect as FPP on mouse spermatozoa and Gln-FPP, a competitive inhibitor of FPP, also competitively inhibits responses to the Fab fragments. In the present study, specific binding of ³H-FPP to sperm membranes was significantly inhibited by 200 nM Gln-FPP and anti-TCP-11 Fab fragments (1/25 dilution), thus confirming that FPP, Gln-FPP, and Fab fragments compete for the same binding site. In addition, spermatozoa treated with A23187 to induce the acrosome reaction bound significantly less ³H-FPP than untreated cells, suggesting that a large proportion of the FPP binding sites are associated with the acrosomal cap region; TCP-11 is located in this region. In other experiments, 100 nM FPP significantly stimulated cAMP production in mouse sperm membranes, permeabilized cells and intact cells. Furthermore, Gln-FPP inhibited production of cAMP in response to FPP but not to adenosine (10 μM) or its analogue NECA (100 nM), supporting the involvement of two different receptors. Finally, anti-TCP-11 Fab fragments (1/25 dilution) significantly stimulated cAMP production, whereas low Fab (1/200; nonstimulatory when used alone) plus adenosine (10 μM) significantly enhanced the stimulation of capacitation by adenosine. These results support the hypotheses that TCP-11 is the receptor for FPP and that FPP↔TCP-11 interactions modulate AC/cAMP. Mol. Reprod. Dev. 51:468–476, 1998. © 1998 Wiley-Liss, Inc.     

Binding symmetry and surface flexibility mediate antibody self-association

ABSTRACT

Solution stability is an important factor in the optimization of engineered biotherapeutic candidates such as monoclonal antibodies because of its possible effects on manufacturability, pharmacology, efficacy and safety. A detailed atomic understanding of the mechanisms governing self-association of natively folded protein monomers is required to devise predictive tools to guide screening and re-engineering along the drug development pipeline. We investigated pairs of affinity-matured full-size antibodies and observed drastically different propensities to aggregate from variants differing by a single amino-acid. Biophysical testing showed that antigen-binding fragments (Fabs) from the aggregating antibodies also reversibly associated with equilibrium dissociation constants in the low-micromolar range. Crystal structures (PDB accession codes 6MXR, 6MXS, 6MY4, 6MY5) and bottom-up hydrogen-exchange mass spectrometry revealed that Fab self-association occurs in a symmetric mode that involves the antigen complementarity-determining regions. Subtle local conformational changes incurred upon point mutation of monomeric variants foster formation of complementary polar interactions and hydrophobic contacts to generate a dimeric Fab interface. Testing of popular in silico tools generally indicated low reliabilities for predicting the aggregation propensities observed. A structure-aggregation data set is provided here in order to stimulate further improvements of in silico tools for prediction of native aggregation. Incorporation of intermolecular docking, conformational flexibility, and short-range packing interactions may all be necessary features of the ideal algorithm.     

IgG rheumatoid factors isolated by the surface-displaying phage library technique

 Our analysis of IgG rheumatoid factors (RFs) from three patients with rheumatoid arthritis (RA) revealed that most contained significant numbers of skewed mutations per V region, suggesting that these RFs arose from antigen-driven responses. To further study IgG RFs in RA, we used pComb3 vector to construct an IgG1,λ combinatorial antibody library from a synovial fluid sample. After panning against human IgG, Fab fragments from 71/96 phage clones bound to Fc-coated wells. Sequence analysis of 20 randomly chosen Fc-binders showed that 17 (85%) clones had identical heavy (H) and light (L) chain V regions, represented by Humha311 and Humla211, respectively. Of the remaining three clones, two had the same Humla211 L chain, but each with a different H chain V region. All the putative germline V genes for these RFs also encode RF in RA patients. However, none of these RF V regions are similar to those of the two IgG RFs derived by the hybridoma technique from the same synovial fluid. The Humha311 H chain has two frameshifts: a one-base insertion upstream of the JH region and a four-base deletion near the end of the CH1 region, resulting in a mainly unconventional amino acid sequence in the CH1 region. In the future, it will be important to study the presence of IgG molecules with such unconventional CH1 amino acid sequences, and the effects of these amino acid sequences on the structures and immunological properties of the IgG molecules. Received: 4 September 1996 / Revised: 22 October 1996     

Antibody to a sperm surface glycoprotein inhibits the egg jelly-induced acrosome reaction of sea urchin sperm

When the surface of sea urchin (Strongylocentrotus purpuratus) sperm is radioiodinated, 75% of the protein-incorporated radioactivity is associated with two glycoproteins of M_r 84,000 (84K) 64,000 (64K) (Lopo and Vacquier 1980). Antibodies were prepared against these two components by separating a Triton X-100 extract of sperm on SDS-polyacrylamide gels, cutting out the band containing the glycoprotein and injecting the homogenized gel into rabbits. Both anti-84K and anti-64K sera agglutinate sperm. Light and EM immunoperoxidase localization show both antigens are distributed over the entire sperm surface. By the immunoperoxidase technique there is some degree of cross-reactivity of both antisera with sperm of other Strongylocentrotus species, but not with those of other genera. Living sperm incubated with anti-84K Fab fragments are completely inhibited from undergoing the egg jelly-induced acrosome reaction and fertilizing eggs. Anti-64K Fab fragments have no effect on the ability of the sperm to undergo the acrosome reaction or fertilize eggs. Sperm incubated in anti-84K or anti-64K Fab fragments undergo the acrosome reaction in response to the Ca²⁺ ionophore A23187, or when the extracellular pH is increased to 9.2 with NH₄OH, indicating that the inhibition of the egg jelly-induced acrosome reaction results from the binding of the anti-84K Fab to an external molecule involved in the initiation or propagation of the acrosome reaction. The 84K glycoprotein is the first sperm surface component identified that might have a role in the induction of the acrosome reaction.     

Distribution of labelled anti-tenascin antibodies and fragments after injection into intact or partly resected C6-gliomas in rats

Introduction: For treatment of malignant glioma, radioimmunotherapy has become a valuable alternative for more than 2 decades. Surprisingly, very little is known about the distribution of intralesionally administered labelled antibodies or fragments. We investigated the migration of labelled antibodies and antibody fragments injected into intact and partly resected C6-glioma in rats at different times after injection. Materials and methods: Nine days after induction of a C6-glioma, 5 l of ¹²⁵I-labelled murine anti-tenascin antibodies (n=31) or ¹²⁵I-labelled fragments of anti-tenascin antibodies (n=32) was injected slowly into the tumour (group I). In group II the tumour was subtotally resected 9 days after induction of the C6-glioma, and 24 h later the labelled antibodies (n=30) or fragments (n=12) were injected into the resection cavity. At 6, 24 or 48 h after the injection, animals were sacrificed, and brains removed. Distribution of labelled antibodies and fragments was determined by superimposing autoradiographs onto frozen sections and HE-stained neighbouring sections using a digital image analysing system. Results: After injection into intact C6-glioma, labelled antibodies covered a maximum distance of 3.2 ± 1.0, 4.1 ± 1.9 and 4.8 ± 0.9 mm after 6, 24 and 48 h, respectively; while labelled fragments were found at a distance of 6.7 mm (±1.1) after 24 h and 5.8 mm (±0.9) after 48 h (significant in univariate analysis). Following partial tumour resection, the respective distances at 24 h were 3 ± 0.4 mm for anti-tenascin antibodies and 3.4 ± 0.3 mm for Fab fragments. Conclusion: After injection into C6-glioma, labelled fragments are able to cover a greater distance than labelled antibodies. Injection of antibodies and fragments 1 day after tumour resection results in reduced velocity of both antibodies and fragments.