The Aspergillus toxin restriction is a suitable cytotoxic agent for generation of immunoconjugates with monoclonal antibodies directed against human carcinoma cells

Microbial ribonucleases (RNases): production and application potential

Ribonuclease (RNase) is hydrolytic enzyme that catalyzes the cleavage of phosphodiester bonds in RNA. RNases play an important role in the metabolism of cellular RNAs, such as mRNA and rRNA or tRNA maturation. Besides their cellular roles, RNases possess biological activity, cell stimulating properties, cytotoxicity and genotoxicity. Cytotoxic effect of particular microbial RNases was comparable to that of animal derived counterparts. In this respect, microbial RNases have a therapeutic potential as anti-tumor drugs. The significant development of DNA vaccines and the progress of gene therapy trials increased the need for RNases in downstream processes. In addition, RNases are used in different fields, such as food industry for single cell protein preparations, and in some molecular biological studies for the synthesis of specific nucleotides, identifying RNA metabolism and the relationship between protein structure and function. In some cases, the use of bovine or other animal-derived RNases have increased the difficulties due to the safety and regulatory issues. Microbial RNases have promising potential mainly for pharmaceutical purposes as well as downstream processing. Therefore, an effort has been given to determination of optimum fermentation conditions to maximize RNase production from different bacterial and fungal producers. Also immobilization or strain development experiments have been carried out.

Production and characterization of a colon cancer-specific immunotoxin based on the fungal ribotoxin α-sarcin

A single-chain fusion protein that directed the cytolytic activity of α-sarcin to A33 tumor antigen expressing cells was constructed and shown to effectively kill targeted cells. Glycoprotein A33 (GPA33) is a well-known colon cancer marker and a humanized antibody against it was used to target the α-sarcin. The fungal ribotoxin α-sarcin is one of the most potent and specific toxins known. It is small, protease resistant, thermostable and highly efficient towards the inactivation of ribosomes. This work describes the production and characterization of an immunotoxin resulting from fusing the single-chain variable fragment (scFv) of the monoclonal antibody that targets GPA33 to fungal α-sarcin. This chimeric protein (scFvA33αsarcin), produced in Pichia pastoris and purified in high yield was proven to be properly folded, active, specific and stable. It showed high specific toxicity against GPA33-positive tumoral cell lines providing scientific evidence to sustain that scFvA33αsarcin is a good immunotherapeutic candidate against GPA33-positive colon carcinomas.

Fungal ribotoxins: molecular dissection of a family of natural killers

RNase T1 is the best known representative of a large family of ribonucleolytic proteins secreted by fungi, mostly Aspergillus and Penicillium species. Ribotoxins stand out among them by their cytotoxic character. They exert their toxic action by first entering the cells and then cleaving a single phosphodiester bond located within a universally conserved sequence of the large rRNA gene, known as the sarcin-ricin loop. This cleavage leads to inhibition of protein biosynthesis, followed by cellular death by apoptosis. Although no protein receptor has been found for ribotoxins, they preferentially kill cells showing altered membrane permeability, such as those that are infected with virus or transformed. Many steps of the cytotoxic process have been elucidated at the molecular level by means of a variety of methodological approaches and the construction and purification of different mutant versions of these ribotoxins. Ribotoxins have been used for the construction of immunotoxins, because of their cytotoxicity. Besides this activity, Aspf1, a ribotoxin produced by Aspergillus fumigatus, has been shown to be one of the major allergens involved in allergic aspergillosis-related pathologies. Protein engineering and peptide synthesis have been used in order to understand the basis of these pathogenic mechanisms as well as to produce hypoallergenic proteins with potential diagnostic and immunotherapeutic applications.

Localization of the catalytic activity in restrictocin molecule by deletion mutagenesis

Restrictocin, produced by the fungus Aspergillus restrictus, is a highly specific ribonucleolytic toxin which cleaves a single phosphodiester bond between G4325 and A4326 in the 28S rRNA. It is a nonglycosylated, single-chain, basic protein of 149 amino acids. The putative catalytic site of restrictocin includes Tyr47, His49, Glu95, Arg120 and His136. To map the catalytic activity in the restrictocin molecule, and to study the role of N- and C-terminus in its activity, we have systematically deleted amino-acid residues from both the termini. Three N-terminal deletions removing 8, 15 and 30 amino acids, and three C-terminal deletions lacking 4, 6, and 11 amino acids were constructed. The deletion mutants were expressed in Escherichia coli, purified to homogeneity and functionally characterized. Removal of eight N-terminal or four C-terminal amino acids rendered restrictocin partially inactive, whereas any further deletions from either end resulted in the complete inactivation of the toxin. The study demonstrates that intact N- and C-termini are required for the optimum functional activity of restrictocin.

Molecular dissection of mitogillin reveals that the fungal ribotoxins are a family of natural genetically engineered ribonucleases

Mitogillin and the related fungal ribotoxins are highly specific ribonucleases which inactivate the ribosome enzymatically by cleaving the 23-28 S RNA of the large ribosomal subunit at a single phosphodiester bond. The site of cleavage occurs between G4325 and A4326 (rat ribosome numbering) which are present in one of the most conserved sequences (the alpha-sarcin loop) among the large subunit ribosomal RNAs of all living species. Amino acid sequence comparison of ribotoxins and guanyl/purine ribonucleases have identified domains or residues likely involved in ribonucleolytic activity or cleavage specificity. Fifteen deletion mutants (each 4 to 8 amino acid deletions) in motifs of mitogillin showing little amino acid sequence homology with guanyl/purine ribonucleases were constructed by site-directed mutagenesis. Analyses of the purified mutant proteins identified those regions in fungal ribotoxins contributing to ribosome targeting and modulating the catalytic activity of the toxin; some of the identified motifs are homologous to sequences in ribosomal proteins and elongation factors. This mutational study of mitogillin together with the recently published x-ray structure of restrictocin (a close relative of mitogillin) supports the hypothesis that the specific cleavage properties of ribotoxins are the result of natural genetic engineering in which the ribosomal targeting elements of ribosome-associated proteins were inserted into nonessential regions of T1-like ribonucleases.

Cloning and sequencing of cDNA of the insecticidal toxin hirsutellin A

The hyphomycete Hirsutella thompsonii produces an extracellular insecticidal protein, Hirsutellin A. This basic protein, cytolytic against insect cells and capable of inhibiting protein translation, possesses biological features similar to the well-characterized ribosomal-inhibiting proteins (RIPs) alpha-sarcin, mitogellin, and restrictocin. Cloning and DNA sequencing analysis of the 3' and 5' RACE products of HtA cDNA identifies a consensus DNA sequence which encompasses the complete open reading frame of the HtA gene. This gene codes for a precursor of 164 aa which includes a 34-aa leader sequence. The leader sequence of HtA, like those found in RIPs, contains a signal and a pro sequence. The mature 130-aa HtA, having a calculated Mr = 14,159 and pI = 9.21, is considered a stable hydrophilic protein. HtA does not possess the characteristic RNase motif of fungal RIPs but does possess a series of consensus phosphorylation and myristoylation sites and a putative ATP/GTP binding site. The sequence of HtA is unique and does not produce the secondary or tertiary structures characteristic of other fungal RIPs. Copyright 1998 Academic Press.

Role of cross-linking agents in determining the biochemical and pharmacokinetic properties of Mgr6-clavin immunotoxins

Several immunotoxins (ITs) were synthesized by the attachment of clavin, a recombinant toxic protein derived from Aspergillus clavatus, to the monoclonal antibody Mgr6 that recognizes an epitope of the gp185(HER-2) extracellular domain expressed on breast and ovarian carcinoma cells. Conjugation and purification parameters were analyzed in an effort to optimize the antitumor activity and stability of the ITs in vivo. To modulate the in vitro and in vivo properties of the immunotoxins, different coupling procedures were used and both disulfide and thioether linkages were obtained. Unhindered and hindered disulfide with a methyl group linkage ethyl S-acetyl 3-mercaptopropionthioimidate ester hydrochloride (AMPT) or ethyl S-acetyl 3-mercaptobutyrothioimidate ester hydrochloride (M-AMPT) were obtained by reaction with recombinant clavin, while the monoclonal antibody Mgr6 was derivatized with ethyl 3-[(4-carboxamidophenyl)dithio]propionthioimidate ester hydrochloride (CDPT). To achieve higher hindrance (a disulfide bond with a geminal dimethyl group), Mgr6 was derivatized with the N-hydroxysuccinimidyl 3-methyl-3-(acetylthio)butanoate (SAMBA) and clavin with CDPT. To evaluate the relevance of the disulfide bond in the potency and pharmacokinetic behavior of the ITs, a conjugate consisting of a stable thioether bond was also prepared by derivatizing Mgr6 with the N-hydroxysuccinimidyl ester of iodoacetic acid (SIA) and clavin with AMPT. The immunotoxins were purified and characterized using a single-step chromatographic procedure. Specificity and cytotoxicity were assayed on target and unrelated cell lines. The data indicate that the introduction of a hindered disulfide linkage into ITs has little or no effect on antitumor activity and suggest that disulfide cleavage is essential for activity; indeed, the intracellularly unbreakable thioether linkage produced an inactive IT. Analysis of IT stability in vitro showed that the release of mAb by incubation with glutathione is proportional to the presence of methyl groups and increases exponentially with the increase in steric hindrance. Analysis of the pharmacokinetic behavior of ITs in Balb/c mice given intravenous bolus injections indicated that ITs with higher in vitro stability were eliminated more slowly; i.e., the disulfide bearing a methyl group doubled the beta-phase half-life (from 3.5 to 7.1 h) compared with that of the unhindered, while a geminal dimethyl protection increased the elimination phase to 24 h. The thioether linkage showed its intrinsic stability with a beta-phase half-life of 46 h. The thioether linkage also increased the distribution phase from 17 to 32 min. The in vitro characteristics and in vivo stability of Mgr6-clavin conjugates composed of a methyl and dimethyl steric hindered disulfide suggest clinical usefulness.

A single amino acid substitution in ribonucleolytic toxin restrictocin abolishes its specific substrate recognition activity

Restrictocin is a small basic protein produced by the fungus Aspergillus restrictus. It potently inhibits protein synthesis in eukaryotic cells by specifically cleaving a single phosphodiester bond in 28S rRNA. A histidine residue at position 49 in restrictocin has been implicated in its active site. A mutant of restrictocin in which the histidine at position 49 was changed to an alanine was constructed by site-directed mutagenesis, and the protein was expressed in Escherichia coli. The mutant and the wild type proteins were found to be structurally identical. Unlike restrictocin, the restrictocin H49A mutant did not cleave the ribosomal RNA specifically at the target phosphodiester bond; instead, it extensively degraded the RNA substrate with altered specificity. The mutant exhibited a high ribonuclease activity compared to restrictocin on yeast tRNA, and poly(U) and poly(C). The mutant also poorly inhibited protein synthesis in eukaryotic cells as well as in a cell free system. We therefore propose that histidine 49 of restrictocin is not involved per se in the enzymatic activity; however, it does play a crucial role in the specific recognition of the target sequence by restrictocin.

Construction, expression and characterization of chimaeric toxins containing the ribonucleolytic toxin restrictocin: intracellular mechanism of action

Restrictocin is a ribonucleolytic toxin produced by the fungus Aspergillus restrictus. Two chimaeric toxins containing restrictocin directed at the human transferrin receptor have been constructed. Anti-TFR(scFv)-restrictocin is encoded by a gene produced by fusing the DNA encoding a single-chain antigen-combining region (scFv) of a monoclonal antibody, directed at the human transferrin receptor, at the 5' end of that encoding restrictocin. The other chimaeric toxin, restrictocin-anti-TFR(scFv), is encoded by a gene fusion containing the DNA encoding the single-chain antigen-combining region of antibody to human transferrin receptor at the 3' end of the DNA encoding restrictocin. These gene fusions were expressed in Escherichia coli, and fusion proteins purified from the inclusion bodies by simple chromatography techniques to near-homogeneity. The two chimaeric toxins were found to be equally active in inhibiting protein synthesis in a cell-free in vitro translation assay system. The chimaeric toxins were selectively toxic to the target cells in culture with potent cytotoxic activities. However, restrictocin-anti-TFR(scFv) was more active than anti-TFR(scFv)-restrictocin on all cell lines studied. By using protease and metabolic inhibitors, it can be shown that, to manifest their cytotoxic activity, the restrictocin-containing chimaeric toxins need to be proteolytically processed intracellularly and the free toxin or a fragment thereof thus generated is translocated to the target via a route involving the Golgi apparatus.

Identification and evaluation of a major cytotoxin of A. fumigatus

Aspergillus fumigatus is a highly pathogenic fungus causing a wide spectrum of diseases in immunocompromised as well as immunocompetent hosts. The present work was undertaken to evaluate the cytotoxic nature of fractionated antigens of A. fumigatus against the mammalian cell lines (J774, RAW, CHO and L929). An enriched protein antigenic fraction of A. fumigatus was subjected to con A Sepharose and phenyl Sepharose chromatography. Antigenic fractions, ConAub (conA unbound) and PSC III (fraction III of phenyl Sepharose column) containing low mw antigens showed higher cytotoxicity as compared to other antigenic fractions. PSC III was further purified on HPLC resulting in an 18 kDa homogeneous protein. The purified protein showed high ELISA absorbance values for specific IgG and IgE antibodies in sera of ABPA patients. Monoclonal antibody raised against Asp fl, a major allergen/antigen of A. fumigatus recognised the purified 18 kDa by ELISA and western blot. The 18 kDa allergen/antigen or Asp fl showed similar toxicity towards all the four cell lines (macrophage and fibroblast) with an IC50 of 75 ng/ml or 4.16 nM. Reduction in toxicity of 18 kDa at low temperatures and potentiation in presence of ammonium chloride and monensin indicates mechanism of internalisation of 18 kDa in eukaryotic cells is similar to alpha-sarcin. The present work shows that the 18 kDa allergen/antigen (Asp fl) is a major cytotoxin secreted by A. fumigatus which may play multiple roles in the pathogenesis of Aspergillosis through allergenicity, antigenicity and cytotoxicity.

Clavin, a type-1 ribosome-inactivating protein from Aspergillus clavatus IFO 8605. cDNA isolation, heterologous expression, biochemical and biological characterization of the recombinant protein

We describe the cloning and expression of a new cDNA from the filamentous fungus Aspergillus clavatus IFO 8605. This cDNA contains an open reading frame (ORF) that predicts a putative ribonuclease precursor with high similarity to the alpha-sarcin family of ribosome-inactivating proteins (RIPs). The cDNA encoding the mature protein was expressed in Escherichia coli, and the recombinant protein, a 17-kDa polypeptide designated clavin was purified and characterized. Clavin shows typical type-1 RIP properties: specific cleavage of ribosomal and synthetic RNA and inhibition of protein synthesis in cell-free and cellular systems. When selectively targeted to a tumour cell antigen by coupling to a monoclonal antibody (mAb) clavin was able to inhibit protein synthesis at nanomolar concentration. Pharmacokinetics analysis in mice indicated an elimination half-life (t1/2 beta) of 7.4 h with no particular accumulation in major organs. Liver toxicity was very limited and transient while no alteration of kidney function was observed. Clavin induced a late and very low antibody response in mice. The in vitro and in vivo biological characteristics of clavin, together with its availability in large amounts, suggest the usefulness of this toxin in the production of toxic chemical conjugates.

Fungal ribotoxins: a family of naturally engineered targeted toxins?

alpha-Sarcin, mitogillin, and restrictocin are small (approximately 17 kDa) basic robosome-inactivating proteins (RIPs) produced by the Aspergilli that catalytically inactivate the large ribosomal subunits of all organisms tested to date. These three fungal ribotoxins act as specific ribonucleases by hydrolyzing one single phosphodiester bond in the universally conserved alpha-sarcin domain of 23-28S rRNAs and are among the most potent inhibitors of protein synthesis known. Previous molecular studies of ribotoxins indicated that they belong to the superfamily of ribonucleases and analysis of the mitogillin gene employing PCR-mediated site-specific mutagenesis suggests that certain domains in ribotoxins, which share homologies with motifs in ribosome-related proteins, may be responsible for the targeting of ribotoxins to the ribosome. The applications of the ribotoxins as tools in research and their uses as therapeutic and diagnostic agents are also reviewed in this paper.

Preclinical evaluation of the ribosome-inactivating proteins PAP-1, PAP-S and RTA in mice

In a preclinical mouse model the plant ribosome-inactivating proteins (RIPs) pokeweed antiviral proteins PAP-1, and PAP-S and ricin A-chain (RTA) induced a pathological elevation of serum concentrations of glutamate pyruvate transaminase (GPT) and blood urea nitrogen (BUN) and had a significant immunosuppressive effect on B- and T-lymphocytes. The present analysis and comparison of the biodistribution and systemic/organ toxicity associated with RIP injection suggest a possible in vivo mechanism of action of PAP-1 and PAP-S and identify several limitations in the clinical use of these two toxins and RTA. When administered intravenously, PAP-1 and PAP-S consistently accumulated in kidneys and induced histologically documented damage to kidney and liver, with a LD50 of 3.3 mg/kg and 1.6 mg/kg for PAP-1 and PAP-S, respectively. In mice injected with PAP-S after chlorpromazine (CPZ) administration, GPT levels returned to normal between 24 and 72 h after toxin injection, while the BUN levels remained elevated. Mortality of the animals was delayed but all mice eventually succumbed. All the three toxins inhibited the expansion of anti-sheep red blood cells (SRBC) antibody-forming cells and the production of anti-SRBC antibody levels, although PAP-S showed the most potent activity. Despite the immunosuppressive activity, all toxins were highly immunogenic.

Purification and characterization of a ribonuclease from Aspergillus giganteus IFO 5818, the gigantin. Immunological and enzymic comparison with alphasarcin

A protein has been isolated from a culture medium of Aspergillus giganteus IFO 5818 (gigantin) and purified by ion-exchange chromatography successively on DEAE-cellulose and carboxymethyl-cellulose, and gel-filtration chromatography on Biogel P10. With a high purity, gigantin was found to be a non-glycosylated basic protein with a relative molecular mass of 17000 +/- 200 determined in PAGE/SDS. Gigantin was able to digest the synthetic homopolymers of nucleic acids poly(A), poly(I), poly(C) and poly(U). The catalytic action has an optimal pH around 7.0, an optimal temperature at 45-55 degrees C and can be inhibited by cations. Gigantin activity, analyzed as its capacity to hydrolyze RNA from yeast, was comparable to that of alphasarcin, a similar biochemical protein produced by the strain A. giganteus MDH 18894. A study of the substrate specificity for alphasarcin indicated a preference for poly(A) and poly(I), while gigantin had greater activity on poly(C) and poly(U). The cross reaction of gigantin with a rabbit antiserum to alphasarcin suggests a high sequence similarity between both proteins. However, gigantin is immunologically distinguishable from alphasarcin as alphasarcin antiserum detects epitopes in alphasarcin that are not present in gigantin.

Recent developments in immunotoxin therapy

Immunotoxin (IT) research has been ongoing for 15 years. During the past 2 years, work has focused on several areas: on improvements and developments in first- and second-generation ITs; the preparation of new immunotoxin constructs with anti-tumor activity; novel animal models for preclinical evaluation of immunotoxins; and clinical trials, which are now entering Phase II or III in humans.

Sequence specific cleavage of messenger RNA by a modified ribonuclease H

Ribonuclease H (RNase H) is an endonuclease that cleaves only the RNA strand of an RNA-DNA hybrid to produce 5'-phosphate and 3'-hydroxy termini and lacks useful sequence specific recognition properties. A mutant form of the E. coli enzyme has been prepared that is suited for selective chemical modification at a site proximal to the substrate binding region. The chemical derivatization involves the formation of a disulfide linkage to a modified octadeoxyribonucleotide. The conjugate retains only 0.3% of the normal sequence independent RNase H activity demonstrating that substrate recognition can be modulated by a covalent appendage. A beta-globin RNA transcript containing a sequence complementary to that of the octadeoxyribonucleotide was cleaved in a catalytic fashion to two products upon treatment with the conjugate. The selectivity in the phosphodiester bond cleavage mediated by the conjugate was found to be different than that displayed by the nonderivatized enzyme. These results demonstrate the potential of semi-synthetic RNase H conjugates for mechanistic studies and their application as RNA targeted diagnostic or therapeutic agents.

Construction and pathogenicity of Aspergillus fumigatus mutants that do not produce the ribotoxin restrictocin

Aspergillus fumigatus, the most common cause of invasive pulmonary aspergillosis (IPA), produces a potent cytotoxin called restrictocin. To investigate the role of restrictocin in IPA, we have constructed fungal strains in which the res gene has been inactivated by gene disruption. These disruptants lack the specific extracellular ribonucleolytic activity associated with restrictocin, as measured by an in vitro rabbit reticulocyte lysate assay. Western blot analysis of one disruptant, using an anti-restrictocin monoclonal antibody, confirmed that the toxin is not produced. The growth characteristics of the disruptants could not be distinguished from those of their parental isolates on a variety of culture media. The pathogenicity of two disruptants was assessed in a murine model of IPA. There were no significant differences in mortality when these strains were compared with the parental isolates and an ectopic transformant. In addition, histological examination of infected lung tissue did not reveal any obvious differences in the number or size of fungal colonies or in the polymorphonuclear leucocyte response. Our results demonstrate that restrictocin is not an important virulence factor in this model of IPA.

A transformant of Aspergillus fumigatus deficient in the antigenic cytotoxin ASPFI

The aspfI gene encoding a ribonucleotoxin, a putative virulence factor of Aspergillus fumigatus, was inactivated by gene disruption. Gene replacement through homologous recombination by the disrupted allele tagged by the hygromycin B resistance marker was performed by transformation of a pathogenic strain. One transformant with the disrupted aspfI gene failed to produce the ASPFI protein and was shown to be pathogenic for mice. We concluded that this ribotoxin is not a main factor in the colonization of the lung tissues by A. fumigatus.

A critical comparison of three internalization assays applied to the evaluation of a given mAb as a toxin-carrier candidate

In the attempt to define a strategy for screening new monoclonal antibodies (mAb) that could be appropriate for clinical application in oncology, we evaluated the suitability of three methods: a direct internalization assay (DIA), an indirect internalization assay (IIA) and an indirect cytotoxicity assay (ICA), by applying them to already selected mAb. The latter were directed against three antigenic systems [38-kDa glycoprotein (gp38), epidermal growth factor receptor, and the neu oncogene product], which, according to their tumor selectivity, could be considered suitable for mAb-guided therapy. The dose-dependent and time-dependent binding, as well as the low intra-assay variability, demonstrated the reliability of the three tests. However, a certain degree of inter-assay variability was observed in each one, the highest value being that found when IIA was applied. Furthermore, the degree of variability, as well as the predictability, seemed to be more related to the mAb/antigen (Ag) combination used rather than to the test applied. From the overall data we suggest a procedure to be applied for screening purposes. As a first approach applied to the raw material, ICA is only suitable for screening in the case of an already selected toxin whereas IIA may be helpful to eliminate the true negative mAb. After purification of the relevant mAb a repeated analysis using DIA could allow the selection of true internalizing mAb. However, this second screening should be followed by a further analysis of the fate of the Ag-Ab complex after internalization.

Production and characterization of a monoclonal antibody against the ribosome inactivating protein alpha sarcin

In order to improve the purification of immunoconjugates containing alpha sarcin, a ribosome-inactivating protein, and in the attempt to define the enzymic region of the toxin, MAbs against alpha sarcin were produced. From 5 fusions, by adopting a short period of immunization and very low doses of the immunogen, 10 anti-toxin-producing clones were obtained. One of them, named MAsg2 (IgG2b), due to its specific reactivity and secreting properties, was selected for further characterization. MAsg2 was found to recognize an epitope which is common to two, i.e. alpha sarcin and clavatin, of the three different aspergillins tested, but is not involved in the active site of the toxins.

Secretion of a potential virulence factor, a fungal ribonucleotoxin, during human aspergillosis infections

We show by cloning and nucleotide sequence analysis that the 18kDa antigen found in the urine of patients suffering from aspergillosis is related to the fungal protein toxins restrictocin and mitogillin. These are inhibitors of translation which act by catalytic inactivation of eukaryotic ribosomes; they may be implicated in the pathogenesis of the disease.

Isolation and nucleotide sequence of the Aspergillus restrictus gene coding for the ribonucleolytic toxin restrictocin and its expression in Aspergillus nidulans: the leader sequence protects producing strains from suicide

We describe the cloning and characterization of the gene coding for the ribotoxin restrictocin, from Aspergillus restrictus (gene res, EMBL accession Number X56176). This toxin is a potent inhibitor of protein synthesis in eucaryotes and is of potential interest as a component of immunotoxins. To analyze the mechanism of self-protection in the producing organism, the res gene was cloned into the vector pFB39 and introduced into Aspergillus nidulans. The secretion of active restrictocin from transformants suggests that the pro-toxin is not an active nuclease but is activated during the process of secretion.

Biochemical, cytotoxic and pharmacokinetic properties of an immunotoxin composed of a mouse monoclonal antibody Fib75 and the ribosome-inactivating protein alpha-sarcin from Aspergillus giganteus

An immunotoxin was synthesized by the attachment of alpha-sarcin, the ribosome-inactivating protein derived from the mould Aspergillus giganteus, to a monoclonal mouse IgG2 antibody Fib75. The alpha-sarcin immunotoxin exerted toxic effects in tissue culture against the EJ human bladder carcinoma cell line, expressing the antigen recognised by the Fib75 antibody, inhibiting the incorporation of [3H]leucine by 50% at a concentration of 0.46 nM. The cytotoxic effects of the alpha-sarcin immunotoxin were indistinguishable from those of a Fib75 immunotoxin made with ricin A chain. Fib75-alpha-sarcin was cleared from the circulation of the rat with biphasic kinetics following intravenous administration. The alpha- and beta-phase half-lives were 0.8 h and 6 h, respectively, similar to the serum half-lives of analogous Fib75 immunotoxins made with ribosome-inactivating proteins derived from plants. alpha-Sarcin was completely stable in physiological saline buffer at 37 degrees C, whereas the ribosome-inactivating activity of ricin A chain was gradually lost under identical conditions. alpha-Sarcin may be a valuable alternative to ricin A chain for the construction of therapeutic immunotoxins because of its smaller size and greater thermostability.

Fractionation of the ribosome inactivating protein preparations with triazine dyes

Aspergillins are ribosome-inactivating proteins (RIPs), isolated from several strains of Aspergillus. The interaction between Cibacron Blue F3GA and two members of this family, alpha sarcin and mitogillin, and other RIPs of type I, was studied. Alpha sarcin retention depended on pH and ionic strength. By chromatography on Affi-Gel Blue in mild experimental conditions, mitogillin and PAP-I did not interact with the dye, whereas 40% of alpha sarcin and 70-90% of briodin, RTA and gelonin were recovered in the bound fraction. In all cases, the major fraction showed a higher toxicity level in protein synthesis inhibition assays. The unbound alpha sarcin, conjugated with the anti-ovarian carcinoma monoclonal antibody MOv17, showed on OVCA 432 a cytotoxicity which was 900 times higher than that exerted by the alpha sarcin alone.

Epidermal growth factor labeled beta-amanitin-poly-L-ornithine: preparation and evidence for specific cytotoxicity

Poly-L-ornithine with an average molecular weight of 32K was reacted with beta-amanitin hydroxysuccinimide ester to form an amide-linked toxin conjugate. Loading of the polymeric chain with amanitin was high, corresponding to up to 35% of the total weight. To this amatoxin vehicle we attached a targeting molecule, human recombinant leucine-21 epidermal growth factor (hrEGFL), via a disulfide-containing linker moiety. A typical average stoichiometry of the hrEGFL labeled toxin conjugate was (L-Orn)164(beta-amanitin)19(COC2H4SSC2H4CO-hrEGFL)2. The affinity for EGF receptors of hrEGFL bound in this conjugate was tested by using A 431 cells. The affinity was eight times lower than that of unsubstituted hrEGFL but regarded as high enough for studying specific toxicity effects with cells bearing EGF receptors. We found that beta-amanitin in the labeled conjugate was able to inhibit the growth of A 431 cells at a concentration of 28 nM, 80 times lower than for native beta-amanitin and 20 times lower than for poly-L-ornithine-bound beta-amanitin without the hrEGFL label. The approximately 20-fold enhancement of cytotoxicity suggests a specific internalization of the toxin conjugate mediated by the hormone label. This idea is supported by the fact that also in another transformed fibroblast cell line, with an increased though smaller number of EGF receptors than A 431 cells, the corresponding enhancement of cytotoxicity was demonstrable but less pronounced (7-fold). The hormone-mediated increase in cytotoxicity of EGF labeled poly-L-ornithine-beta-amanitin conjugates, combined with their moderate toxicity in the mouse, encourages further examination of such compounds in tumor model systems in vivo.(ABSTRACT TRUNCATED AT 250 WORDS)

Transformation of Aspergillus giganteus to hygromycin B resistance

A wild strain of A. giganteus was transformed to hygromycin B resistance using a bacterial resistance gene under the control of A. nidulans sequences. Stable transformants arose by heterogenous integration, mainly of tandem repeats of vector DNA at various sites in the host genome. Between 6 and 30 resistant colonies were obtained per microgram DNA per 3 x 10(3) viable protoplasts. Vector DNA could be recovered by transformation of Escherichia coli with undigested genomic DNA from Aspergillus giganteus transformants.