Properties of a ribosome-inactivating protein, gelonin, purified using three different methods.

Ribosome-inactivating protein, gelonin, isolated from an Indian plant Gelonium multiflorum of Euphorbiaceae family has been used to design and synthesize immunotoxins and hormonotoxins for selective targeting purposes. Since gelonin isolated by aqueous extraction, cation-exchange chromatography and gel-filtration chromatography (Method I), contains non-proteinous material absorbing at 280 nm, the ammonium sulphate precipitation method (Method II) and Cibacron blue affinity chromatography method. (Method III) have been used to purify gelonin from the dry seeds. Three batches of gelonin purified by each method were prepared and subjected to extensive physico-chemical and immunochemical characterization. The molecular weight was determined by gel-filtration chromatography on a pre-calibrated Sephadex G-100, TSK-G4000 TW on HPLC or Superose-12 on fast protein liquid chromatography. In all cases, the molecular weight was approximately 30,000Da. The SDS-PAGE also revealed a homogeneous protein of 30kDa molecular weight. In Method II, the non-proteinous material which binds to CMC-gel in association of gelonin was substantially removed during ammonium sulphate fractionation. A careful analysis clearly revealed that Method II, although yielded low protein, gave gelonin devoid of the non-proteinous material. The SPDP modification of epsilon-NH2 groups of gelonin obtained from Methods I, II, and III was also carried out and its effect on immunoreactivity was studied.     

Quantitative analysis of protein synthesis inhibition and recovery in CRM107 immunotoxin-treated HeLa cells

Previously a mathematical model was proposed that quantitatively related protein synthesis inhibition kinetics of antitransferrin receptor-gelonin immunotoxins to the cellular trafficking of the targeting agent. That work is here extended to describe protein synthesis inhibition kinetics of immunotoxins containing the diphtheria toxin mutant CRM107. CRM107 differs from gelonin in both translocation and ribosomal inactivation mechanisms. Targeting agents used were antitransferrin monoclonal antibodies 5E9 and OKT9, OKT9Fab, and transferrin. CRM107 conjugates inhibited protein synthesis at substantially lower concentrations than gelonin conjugates; this effect was attributed to substantially higher translocation rates for CRM107. However, under certain conditions, CRM107 immunotoxin-treated cells were able to recover completely; this behavior was never observed with gelonin immunotoxins. To quantitatively capture this phenomenon, extracellular and cytosolic degradation of the toxin as well as growth-related recovery from toxin-induced damage were incorporated into the mathematical model. Translocation and cytosolic degradation rate constants were determined for each immunotoxin. Unlike the gelonin conjugates, the translocation rate of CRM107 conjugates depended on the targeting molecule. This provided indirect evidence that CRM107 remains disulfide linked to the targeting agent for at least part of the translocation process. Although the CRM107 conjugates all had higher translocation rates and inhibited protein synthesis at lower concentrations than the gelonin conjugates, the cells' ability to recover from protein synthesis inhibition at low immunotoxin concentrations limits the utility of CRM107 conjugates for targeted cell killing.     

Purification and characterisation of gelonin from seeds of Gelonium multiflorum

Gelonin, a ribosome-inactivating protein has been isolated from the seeds of Gelonium multifluorum of Euphorbiaceae family by two methods and the results are compared. In method-I conventional aqueous extraction, cation-exchange and gel-filtration chromatography has been used. In method-II S-Sepharose fast flow gel has been used to purify the proteins from the seed extract, followed by ammonium sulfate fractionation, cation-exchange and gel-filtration chromatography. Extensive physico-chemical and immunological characterizations show that molecular weight of gelonin as determined by gel-filtration chromatography and SDS-PAGE is approximately 30 kDa. The non-proteinous material which binds to CMC-gel in association with gelonin in method-I is substantially removed when gelonin is purified by method-II. Cation exchange, G-100 chromatography, RP-HPLC and SDS-PAGE show that method-II yields 50% more purified gelonin when compared to the yield by method-I. The immunoreactivity of gelonin obtained by methods I and II vary from 22-26% and 50-66% respectively and the ribosome-inactivating property vary from 46-56% and 70-87% respectively.     

Role of positive charge of lysine residue on ribosome-inactivating property of gelonin

The report that gelonin cross-linked with monoclonal antibodies with the use of 2-iminothiolane (2-IT) exhibited higher cytotoxicity than the conjugates prepared with the use of N-succinimidyl-3-(2-pyridylthio) propionate (SPDP) alone, has prompted us to investigate the effect of epsilon-NH2 group modification with 2-IT on the ribosome-inactivating property (RIP) of gelonin. The purified gelonin was modified with 2-IT at a different molar ratio and their effects on immunoreactivity and ribosome-inactivating property were compared with those of N-succinimidyl 6-[3-(2-pyridyldithio) propionamido] hexanoate (long chain-SPDP) and SPDP modified gelonin derivatives. Modification of single amino group with 2-IT results in about 25-50% inhibition of immunoreactivity and 60-70% loss of protein synthesis inhibition activity. Modification of 2-3 amino groups further hampers both immunoreactivity and protein synthesis inhibition property of gelonin. Both the long chain-SPDP with SPDP modifications showed more pronounced effects on immunoreactivity and RIP activity as compared to the similar ratio of 2-IT modification(s). It may, therefore, be concluded that the positive charge plays an important role in the immunological as well as the protein synthesis inhibitory effect of gelonin.     

Cibacron Blue亲和层析及应用

以Ｆ３ＧＡ（Ｃｉｂａｃｒｏｎ　Ｂｌｕｅ　Ｆ３ＧＡ）为配基建立了一种可用于免疫毒素（ＩＴ）分离纯化的亲和层析方法。实验中用三种不同来源的核糖体灭活蛋白（ＲＩＰ）,即蓖麻毒素Ａ链（ＲＴＡ）,苦瓜毒素（ｍｏｍｏｒｄｉｎ,ＭＴ）和Ｓａｐｏｒｉｎ,以探讨ＲＩＰ与Ｆ３ＧＡ的相互作用。分析显示三种ＲＩＰ均能引起Ｆ３ＧＡ吸收光诸明显红移,提示ＲＩＰ均可与Ｆ３ＧＡ发生特异结合。将Ｆ３ＧＡ与Ｓｅｐｈａｄｅｘ交联可获得Ｂｌｕｅｄｅｘ。Ｂｌｕｅｄｅｘ亲和层析是一种经济有效,简单易行,便于在各类实验室中使用的蛋白质亲和层析技术。结果表明：在低盐溶液中ＲＴＡ和ＭＴ均可迅速地与Ｂｌｕｅｄｅｘ结合,而在高盐溶液中（０．６５ｍｏｌ／ＬＮａＣｌ）又极易被洗脱回收。这一技术用于免疫毒素的研究可有效地去除游离抗体,而不影响其杀伤活性。     

Sortase-catalyzed in vitro functionalization of a HER2-specific recombinant Fab for tumor targeting of the plant cytotoxin gelonin

We report on the preparation of a new type of immunotoxin via in vitro ligation of the αHer2 antigen binding fragment (Fab) of the clinically-validated antibody trastuzumab to the plant toxin gelonin, employing catalysis by the bacterial enzyme sortase A (SrtA). The αHer2 Fab was fused with the extended SrtA recognition motif LPET↓GLEH₆ at the C-terminus of its heavy chain, thereby preventing interference with antigen binding, while the toxin was equipped with a Gly₂ sequence at its N-terminus, distant to the catalytically active site in the C-terminal region. Site-specific in vitro transpeptidation led to a novel antibody-toxin conjugate wherein gelonin had effectively replaced the Fc region of a conventional (monomerized) immunoglobulin. After optimization of reaction conditions and incubation time, the resulting Fab-Gelonin ligation product was purified to homogeneity in a two-step procedure by means of Strep-Tactin affinity chromatography—utilizing the Strep-tag II appended to gelonin—and size exclusion chromatography. Binding activity of the immunotoxin for the Her2 ectodomain was indistinguishable from the unligated Fab as measured by real-time surface plasmon resonance spectroscopy. Specific cytotoxic potency of Fab-Gelonin was demonstrated against two Her2-positive cell lines, resulting in EC₅₀ values of ~1 nM or lower, indicating a 1000-fold enhanced cell-killing activity compared with gelonin itself. Thus, our strategy provides a convenient route to the modular construction of functional immunotoxins from Fabs of established tumor-specific antibodies with gelonin or related proteotoxins, also avoiding the elevated biosafety levels that would be mandatory for the direct biotechnological preparation of corresponding fusion proteins.     

Effect of thiolation of amino groups of gelonin on its protein-biosynthesis inhibitor activity.

Gelonin was purified from the dry seeds of Gelonium multiflorum by ammonium sulfate fractionation followed by cation-exchange and gel-filtration chromatography in order to minimize extraction of non-proteineous material. Gelonin was characterized for its purity, homogeneity and molecular weight determination by RP-HPLC and SDS-PAGE analysis respectively. The amino groups of pure gelonin were thiolated by a hererobifunctional cross-linking agent, SPDP which is used in the design of cytotoxic hybrid molecules. Therefore, an attempt has been made to study the effect of thiolation on the ribosome inactivating property of gelonin. Thiolation of one amino group resulted in the loss of about 90% protein synthesis inhibition activity. Further modification of 2-3 amino groups further hampered the bioactivity (greater than 95-99.5%) of gelonin, suggesting that a 1:1 molar ratio of carrier-toxin conjugate would be highly active against the target cells.     

Convergent potency of internalized gelonin immunotoxins across varied cell lines, antigens, and targeting moieties

Gelonin-based immunotoxins vary widely in their cytotoxic potency as a function of antigen density, target cell internalization and trafficking kinetics, and conjugate properties. We have synthesized novel gelonin immunotoxins using two different binding scaffold types (single-chain antibody variable fragments and fibronectin domains) targeting two different tumor antigens (carcinoembryonic antigen and EGF receptor). Constructs were characterized using an antigen-negative cell line (HT-1080), cell lines positive for each antigen (HT-1080(CEA) for carcinoembryonic antigen and A431 for EGF receptor), and a cell line positive for both antigens (HT-29). Immunotoxins exhibited K(d) values between 8 and 15 nm and showed 20-2000-fold enhanced cytotoxicity compared with gelonin (IC(50) ～ 0.25-30 nM versus 500 nM). Using quantitative fluorescence flow cytometry, we measured internalization of gelonin (via pinocytosis) and gelonin-based immunotoxins (via antigen-dependent, receptor-mediated endocytosis). Results were matched with cytotoxicity measurements made at equivalent concentration and exposures. Unexpectedly, when matched internalization and cytotoxicity data were combined, a conserved internalized cytotoxicity curve was generated that was common across experimental conditions. Considerable variations in antigen expression, trafficking kinetics, extracellular immunotoxin concentration, and exposure time were all found to collapse to a single potency curve on the basis of internalized immunotoxin. Fifty percent cytotoxicity occurred when ～ 5 × 10(6) toxin molecules were internalized regardless of the mechanism of uptake. Cytotoxicity observed at a threshold internalization was consistent with the hypothesis that endosomal escape is a common, highly inefficient, rate-limiting step following internalization by any means tested. Methods designed to enhance endosomal escape might be utilized to improve the potency of gelonin-based immunotoxins.     

Sortase-catalyzed in vitro functionalization of a HER2-specific recombinant Fab for tumor targeting of the plant cytotoxin gelonin

We report on the preparation of a new type of immunotoxin via in vitro ligation of the αHer2 antigen binding fragment (Fab) of the clinically-validated antibody trastuzumab to the plant toxin gelonin, employing catalysis by the bacterial enzyme sortase A (SrtA). The αHer2 Fab was fused with the extended SrtA recognition motif LPET↓GLEH₆ at the C-terminus of its heavy chain, thereby preventing interference with antigen binding, while the toxin was equipped with a Gly₂ sequence at its N-terminus, distant to the catalytically active site in the C-terminal region. Site-specific in vitro transpeptidation led to a novel antibody-toxin conjugate wherein gelonin had effectively replaced the Fc region of a conventional (monomerized) immunoglobulin. After optimization of reaction conditions and incubation time, the resulting Fab-Gelonin ligation product was purified to homogeneity in a two-step procedure by means of Strep-Tactin affinity chromatography—utilizing the Strep-tag II appended to gelonin—and size exclusion chromatography. Binding activity of the immunotoxin for the Her2 ectodomain was indistinguishable from the unligated Fab as measured by real-time surface plasmon resonance spectroscopy. Specific cytotoxic potency of Fab-Gelonin was demonstrated against two Her2-positive cell lines, resulting in EC₅₀ values of ~1 nM or lower, indicating a 1000-fold enhanced cell-killing activity compared with gelonin itself. Thus, our strategy provides a convenient route to the modular construction of functional immunotoxins from Fabs of established tumor-specific antibodies with gelonin or related proteotoxins, also avoiding the elevated biosafety levels that would be mandatory for the direct biotechnological preparation of corresponding fusion proteins.     

Effects of thiolation on the immunoreactivity of the ribosome-inactivating protein gelonin.

Gelonin purified from the seeds of Gelonium multiflorum using cation-exchange and gel-filtration chromatography was characterized for its purity, homogeneity and Mr by reverse-phase h.p.l.c. and SDS/polyacrylamide-gel electrophoresis analysis and judged to be 98% pure. As the cross-linking agent N-succinimidyl-3-(2-pyridyldithio)propionate (SPDP) has been used for linking gelonin via its epsilon-NH2 group to its carrier antibodies or hormones for immunotoxin or hormonotoxin respectively, an attempt was made to study the effect of this modification of gelonin on its immunoreactivity. A radioimmunoassay was developed for this purpose. By sequential modification, four categories of amino group modifications on immunoreactivity were observed. Even one or two modifications, representing one-twentieth to one-tenth of available epsilon-NH2 groups in the protein caused about 75% loss in immunoreactivity, with additional reactions contributing to further deteriorations. By using a gelonin radioimmunoassay, the immunoreactivity of gelonin in three hormonotoxins was determined with gelonin and modified gelonin as standards. The gelonin equivalent in our hormonotoxins was in agreement with the values determined by spectrophotometric and gel-electrophoresis methods. As the immunoreactivity of gelonin-SPDP was not further altered after conjugation to its carrier protein ovine lutropin, a specific radioimmunoassay of gelonin could be used to evaluate the molar ratio of the conjugates prepared by using SPDP as cross-linker and gelonin-SPDP as a standard.     

Purification,characterization and chemical modification studies on a translation inhibitor protein from Luffa cylindrica

A ribosome-inactivating protein (RIP), luffin has been isolated from the seeds of Luffa cylindrica of Cucurbitaceae family by ammonium sulfate fractionation followed by cation exchange and gel-filtration chromatography. Extensive physico-chemical, immunological and biological characterizations were carried out on luffin and compared with that of gelonin. The molecular mass of luffin was -28 kDa as determined by gel-filtration chromatography and SDS-PAGE. The epsilon-NH2 group(s) of luffin were sequentially modified by N-succinimidyl 6-[3-(2-pyridyldithio) propionamido] hexanoate (LC-SPDP), N-succinimidyl-3-(2-pyridylthio)propionate (SPDP) and 2-iminothiolane (2IT) and their effect on immunoreactivity and ribosome inactivating property was evaluated. Modification of single amino group resulted in about 80% inhibition of immunoreactivity and more than 90% loss of protein synthesis inhibition activity. Modification of 2-3 amino groups further hampered both immunoreactivity and protein-synthesis inhibition property LC-SPDP modification played more pronounced effects on immunoreactivity and RIP activity than that of SPDP. However, 2IT modification retained both the immunoreactivity and RIP activity of luffin-LC-SPDP substantially. SPDP showed more pronounced effect on immunoreactivity and RIP activity as compared to 2IT. Therefore, it seems that the positive charge on lysine residues plays an important role in immunological as well as protein synthesis inhibitory effect of luffin.     

On the contentious sequence and glycosylation motif of the ribosome inactivating plant protein gelonin

The amino acid sequence and the glycosylation motif of the ribosome inactivating protein (RIP) gelonin are identified by Fourier transform ion cyclotron resonance mass spectrometry. Intact gelonin as isolated from the seeds of Gelonium multiflorum consists of at least three different post-translational modified forms: analysis of gelonin peptides as obtained by proteolytic digestion is consistent with the amino acid sequence published by Nolan et al. High resolution mass determination established a glycosylation pattern of GlcNAc2Man(3-5)Xyl. N189 was identified as glycosylation site. The proposed glycan structure is consistent with a standard plant N-glycosylation pattern as found in other RIP. Based on these results we suggest that gelonin is located in the vacuole of Gelonium multiflorum seeds.     

Cytotoxicity of gelonin and its conjugates with antibodies is determined by the extent of their endocytosis

Conjugates of the single-chain ribosome-inactivating protein gelonin with ligands that bind to cell surface molecules vary greatly in their cytotoxicity. Conjugates that are not endocytosed after binding to cells exhibit low cytotoxicity similar to that of free gelonin, while conjugates that are endocytosed demonstrate enhanced cytotoxicity relative to free gelonin. However, the number of internalized gelonin molecules needed to intoxicate cells to the same degree has been found to be similar for all conjugates and for free gelonin. The intracellular concentration of gelonin has to be between 2,000-10,000 molecules/cells to achieve a surviving fraction of 0.37. Our studies revealed the presence of three distinct categories of cell surface molecules, those that are efficient in mediating endocytosis of immunotoxins, those that are only moderately efficient, and those that seem not to cause internalization of bound immunotoxins.     

Design of liposome to improve encapsulation efficiency of gelonin and its effect on immunoreactivity and ribosome inactivating property

Gelonin, purified from the seeds of Gelonium multiflorum, using cation-exchange and gel-filtration chromatography was characterised for its purity, homogeneity and molecular weight by reverse-phase HPLC (RP-HPLC) and SDS-PAGE analysis. The HPLC purified gelonin was used for entrapment studies in the liposomes. Liposomes were prepared by reverse phase evaporation (REV) technique using three different types of lipid composition in the same molar ratio. The method resulted in 75–80% entrapment efficiency of gelonin in the liposomes. Entrapped and unentrapped gelonin was characterized for physico-chemical, immunochemical and biological properties. The immunoreactivity of entrapped gelonin was fully preserved but the ribosome-inactivating property was slightly inhibited. The method involved mild conditions, highly reproducible and the liposomes produced appeared to be stable for several months. It has important implications in the development of cell type specific cytotoxic agents where a chemical cross-linking is involved which significantly inhibits both immunoreactivity and ribosome-inactivating ability of the toxin.     

Differential requirement of ATP and extra-ribosomal proteins for ribosome inactivation by eight RNA N-glycosidases.

The requirement of ATP and extra-ribosomal proteins for the inactivation of ribosomes by eight plant RNA N-glycosidases [ribosome-inactivating proteins (RIPs)] was investigated. Tritin, pokeweed antiviral protein and barley RIP depend, as gelonin [Sperti, S., Brigotti, M., Zamboni, M., Carnicelli, D. and Montanaro, L. (1991) Biochem. J., 277, 281-284], on the presence of ATP and extra-ribosomal proteins for full inactivation of ribosomes, while bryodin, lychnin, momordin, momorcochin and saporin inactivate isolated Artemia salina ribosomes suspended in buffer saline.     

Release of gelonin from endosomes and lysosomes to cytosol by photochemical internalization

Gelonin, a type I ribosome-inactivating plant toxin, executes N-glycosidase activity on eukaryotic ribosomes. However, on intact cells, gelonin is relatively non-toxic, due to an incapability to penetrate cell membranes. Recently, a novel method, photochemical internalization (PCI), was invented for the translocation of membrane-impermeable molecules including gelonin to the cytosol [K. Berg et al., Cancer Res. 59 (1999) 1180-1183]. The combination of gelonin and photoactivation of endosomal and lysosomal localizing photosensitizers gives strong synergistic cytotoxic effects. In this study, we have evaluated the intracellular transport and stability of gelonin. By fluorescence microscopy, it was shown that gelonin co-localizes with the endosomal and lysosomal localizing photosensitizer, aluminum phthalocyanine with two sulfonate groups on adjacent phenyl rings, and both molecules re-localized to cytosol subsequently to light exposure. Gelonin accumulated in endosomal compartments by incubation at 18 degrees C was released to cytosol by PCI with concomitant inhibition of protein synthesis indicating that PCI can be executed through rupture of endosomal vesicles. The cathepsin inhibitor L-trans-epoxysuccinyl-leucyl amido(4-guanido)butane increased the cytotoxic effect of gelonin after PCI when gelonin was provided as a 2 h pulse followed by 4 h chase before PCI. Thus, although gelonin can enter the cytosol from lysosomes, lysosomal degradation is a limiting factor for the outcome of PCI of gelonin.     

Gelonin is an unusual DNA glycosylase that removes adenine from single-stranded DNA, normal base pairs and mismatches

We reported that plant ribosome inactivating proteins (RIP) have a unique DNA glycosylase activity that removes adenine from single-stranded DNA (Nicolas, E., Beggs, J. M., Haltiwanger, B. M., and Taraschi, T. F. (1998) J. Biol. Chem. 273, 17216-17220). In this investigation, we further characterized the interaction of the RIP gelonin with single-stranded oligonucleotides and investigated its activity on double-stranded oligonucleotides. At physiological pH, zinc and beta-mercaptoethanol stimulated the adenine DNA glycosylase activity of gelonin. Under these conditions, gelonin catalytically removed adenine from single-stranded DNA and, albeit to a lesser extent, from normal base pairs and mismatches in duplex DNA. Also unprecedented was the finding that activity on single-stranded and double-stranded oligonucleotides containing multiple adenines generated unstable products with several abasic sites, producing strand breakage and duplex melting, respectively. The results from competition experiments suggested similar interactions between gelonin's DNA-binding domain and oligonucleotides with and without adenine. A re-examination of the classification of gelonin as a DNA glycosylase/AP lyase using the borohydride trapping assay revealed that gelonin was similar to the DNA glycosylase MutY: both enzymes are monofunctional glycosylases, which are trappable to their DNA substrates. The k(cat) for the removal of adenine from single-stranded DNA was close to the values observed with multisubstrate DNA glycosylases, suggesting that the activity of RIPs on DNA may be physiologically relevant.     

Purified immunotoxins that are reactive with human lymphoid cells. Monoclonal antibodies conjugated to the ribosome-inactivating proteins gelonin and the pokeweed antiviral proteins

Seven different monoclonal antibodies of the IgG class that are reactive with four different antigens on human lymphoid cells were utilized to form immunotoxins with the ribosome-inactivating proteins gelonin and the three known pokeweed antiviral proteins. Thirteen different immunotoxin combinations were prepared. The ribosome-inactivating proteins were modified with 2-iminothiolane. The sulfhydryl groups so introduced were reacted with maleimido groups or with dithiopyridyl groups that had been introduced into the antibodies. The toxin-antibody conjugates so formed were purified by affinity chromatography on protein A-Sepharose CL-4B, ion exchange chromatography, and by gel filtration and were characterized by polyacrylamide-dodecyl sulfate gel electrophoresis. The purified immunotoxins were free of nonconjugated monomeric proteins and aggregates of very high molecular weight. All the immunotoxins showed the specific binding of the component antibody as measured by indirect immunofluorescence binding assays. The activities of the ribosome-inactivating proteins were unaffected by conjugation where the cross-link to the antibody contained a disulfide bond and when assayed after reductive cleavage of the linker. Disulfide-linked immunotoxins with six of the antibodies were highly cytotoxic for the target cells. However, immunotoxins containing an anti-B1 antibody showed no cytotoxicity.     

Transformation and actions of extracellular NADP+ in the rat liver

The effectiveness of gelonin to arrest protein synthesis, thereby limiting the growth of cancer cells was studied by encapsulating it into liposomes. The protein was extracted from the seeds of Indian plant Gelonium multiflorum by ammonium sulfate precipitation and purified using cation-exchange and gel-filtration chromatography. Biological activity of purified gelonin was determined using a rabbit reticulocyte lysate assay in the cell-free translational experiments. Gelonin was encapsulated in conventional liposomes prepared by the dry film method in order to retain biological activity of the entrapped protein. Carcinogenesis was induced in Swiss albino mice by intravenous administration of DBN (10 mg kg(-1) body weight) at weekly intervals. Marker enzyme assays (GGT, AChE, and GST), GSH levels, cell proliferation assay, hepatocyte DNA analysis, histological examination of micro sections of liver tissues were parameters used to monitor carcinogenesis induction, and regression in mice. From the in vitro experiments conducted, it was observed that gelonin upon its encapsulation into liposome, resulted in significant destruction of the transformed liver cells by its cytotoxic effects that arrest protein synthesis. Various parameters studied to monitor regression also suggested mass cell destruction to liver upon administration of liposomal gelonin in mice exposed to DBN.     

Chromatographic separation of the isoforms of the ribosome inactivating protein, gelonin.

The three isoforms of gelonin were separated by affinity chromatography on concanavalin-A Sepharose into discrete components of Mr 31,500, 30,000 and 29,200. Their separation was achieved by apparent differences in interaction with the lectin due to variation in carbohydrate patterns. The Mr 30,000 component representing 67% of the total mixture was the most active in inhibiting protein synthesis in a cell free translation assay using rabbit reticulocyte lysates, although the other two were also active. An antibody prepared against the major fraction (Mr 30,000) reacted well with all three components, demonstrating immunological similarity. This purification may aid the structural elucidation of gelonin and preparation of hormonotoxins and immunotoxins.