Preparation and characterization of the recombinant selenomethionine analogue of insulin-like growth factor-I.

Insulin-like growth factor-I (IGF-I), a single-chain polypeptide consisting of 70 amino acids and 3 disulfide bridges, is a member of a class of growth factors that are involved in many proliferative and metabolic processes. To assist in solving the crystallographic three-dimensional structure, we have expressed a recombinant fusion protein precursor of IGF-I in a methionine auxotrophic strain of Escherichia coli grown in the presence of selenomethionine. An homogeneous preparation of selenomethionyl-IGF-I was then obtained by chemical cleavage of the fusion protein. The selenomethionine analogue of IGF-I was characterized by electrospray mass spectrometry, peptide mapping, analytical chromatography, and electrophoresis as well as by biological assays. The final preparation of IGF-I was found to incorporate about 90% of selenium and fully retained the functional activity.

Hydroxylamine-induced cleavage of the asparaginyl-glycine motif in the production of recombinant proteins: the case of insulin-like growth factor I.

Hydroxylamine-induced cleavage at the asparaginyl-glycine dipeptide site inserted between the two moieties of recombinant fusion proteins has been used at both the analytical and the preparative scale to obtain the mature protein. In this study a model protein containing a fusion precursor of insulin-like growth factor I was used to investigate the influence of the operating conditions on the cleavage reaction and the formation of undesired side products such as hydroxamate and deamidated analogs. Moreover, the stability of the cleavage site toward deamidation was examined and a chemometric study performed to define the effect of the reaction conditions on the cleavage yield and on the formation of side products.

Characterization of a saporin isoform with lower ribosome-inhibiting activity.

We have expressed in Escherichia coli five isoforms of saporin, a single-chain ribosome-inactivating protein (RIP). Translation inhibition activities of the purified recombinant polypeptides in vitro were compared with those of recombinant dianthin 30, a less potent and closely related RIP, and of ricin A chain. Dianthin 30, and a saporin isoform encoded by a cDNA from leaf tissue (SAP-C), both had about one order of magnitude lower activity in translation inhibition assays than all other isoforms of saporin tested. We recently demonstrated that saporin extracted from seeds of Saponaria officinalis binds to alpha2-macroglobulin receptor (alpha2MR; also termed low density lipoprotein-receptor-related-protein), indicating a general mechanism of interaction of plant RIPs with the alpha2MR system [Cavallaro, Nykjaer, Nielsen and Soria (1995) Eur. J. Biochem. 232, 165-171]. Here we report that SAP-C bound to alpha2MR equally well as native saporin. However, the same isoform had about ten times lower cytotoxicity than the other saporin isoforms towards different cell lines. This indicates that the lower cell-killing ability of the SAP-C isoform is presumably due to its altered interaction with the protein synthesis machinery of target cells. Since saporin binding to the alpha2MR is competed by heparin, we also tested in cell-killing experiments Chinese hamster ovary cell lines defective for expression of either heparan sulphates or proteoglycans. No differences were observed in cytotoxicity using native saporin or the recombinant isoforms. Therefore saporin binding to the cell surface should not be mediated by interaction with proteoglycans, as is the case for other alpha2MR ligands.

Investigation on minor degraded derivatives of the recombinant hirudin variant HM2 from Hirudinaria manillensis isolated by isoelectric focusing in multicompartment electrolyzers.

On isoelectric focusing in immobilized pH gradients (IPG) a preparation of recombinant hirudin from Hirudinaria manillensis, purified to homogeneity, was found to still contain a total of 5% minor components: three with higher pI values (pIs 4.10, 4.25 and 4.31), one with a lower pI value (pI 3.98) as compared with the main form (pI 4.03). Multicompartment electrolyzers with isoelectric membranes and micropreparative IPG gel slabs allowed the recovery of pure fractions of such minor components, which were further characterized by electrospray mass spectra, limited proteolysis, and sequence analysis. All four minor isoforms were found to be cleavage products of the parent, full-length hirudin molecule (molecular mass 6797 Da), as follows: the pI 4.31 (5032 Da) had lost sixteen amino acids from the N-terminus, the pI 4.25 (6212 Da) lacked five amino acids from the C-terminus, the pI 4.10 (2980 Da) was a cleavage product at residue Cys37, and the pI 3.98 (6610 Da) lacked the dipeptide Val-Ser at the N-terminus. Combining the extreme resolving power of IPGs with the high accuracy of mass spectra was found to be an attractive strategy in decoding post-synthetic modifications often encountered in r-DNA proteins.

Characterization of proteins by sequential isoelectric focusing on immobilized pH gradients and electrospray mass spectrometry.

The coupling of isoelectric focusing on immobilized pH gradients (IPG) with electrospray-mass spectrometry (ES-MS) was applied to the characterization of proteins according to two different and important properties, such as net surface charge and molecular mass. From a technical point of view, these methods are complementary, since ES-MS requires ion-free samples as usually supplied by isoelectric focusing on IPGs. This report describes the experiments carried out on model proteins to demonstrate the feasibility of the sequential application of these two techniques for the characterization of proteins. A minimum of 5 micrograms protein was needed for good signal by mass spectrometry. The following proteins were studied: myoglobin, truncated interleukin-6-mutein, recombinant cytochrome c551 and insulin-like growth factor I. Extraction from the IPG matrix was carried out in 70% acetonitrile/30% water/0.05% trifluoroacetic acid either by passive diffusion or by centrifugation through a 0.22 micron Amicon membrane, with protein recoveries of 80-85%.

Detection of traces of a trisulphide derivative in the preparation of a recombinant truncated interleukin-6 mutein.

A new mutein of interleukin-6, called delta 22-IL-6 Cys 3,4, characterized by the deletion of the first 22 amino acids at the N-terminal end and by the substitution of the first two cysteines (Cys23 and Cys29) with serine residues, was produced in Escherichia coli and was found to maintain the structural and functional properties of the human native form. A partially purified preparation still showed in isoelectric focusing a minor acidic component (pI 6.10) and a more basic component (pI 6.70), the native form having a pI of 6.56. This preparation was further fractionated in a multi-compartment electrolyser with isoelectric membranes, which allowed the collection of the more alkaline species for characterization. Mass spectra of the pI 6.70 form gave an additional mass of 32 atomic mass units (amu), suggesting the addition of two oxygen atoms (a potential oxidation of two methionine residues to sulphoxide). However, the five methionine residues in this higher pI form were identified after enzymatic hydrolysis and peptide mapping and were found to be in a reduced state. In addition, the pI 6.70 form was quickly converted into the native form by mild reductive treatment. On digestion and fingerprinting, the peptide from residues 50 to 65 of the pI 6.70 species (containing the only two cysteine residues of the molecule) exhibited a more hydrophobic behaviour in reversed-phase high-performance liquid chromatography and retained a mass increase of 32 amu. These experimental findings more likely suggest the addition of an extra sulphur atom to the only disulphide bridge to give an unusual protein trisulphide molecule.

Streptomyces peucetius daunorubicin biosynthesis gene, dnrF: sequence and heterologous expression.

The dnrF gene, responsible for conversion of aklavinone to epsilon-rhodomycinone via C-11 hydroxylation, was mapped in the daunorubicin (Dnr) gene cluster of Streptomyces peucetius ATCC 29050, close to drrAB, one of the anthracycline-resistance genes. The dnrF gene was sequenced and should encode a protein of 489 amino acids with a molecular mass of 52 kDa. The deduced DnrF protein shows significant similarities with bacterial FAD- and NADPH-dependent hydroxylases either required to introduce hydroxyl groups into polycyclic aromatic polyketide antibiotics or involved in catabolism of aromatic compounds. Heterologous expression of dnrF in Streptomyces lividans TK23 and in Escherichia coli demonstrated that the gene encodes a NADPH-dependent hydroxylase catalysing the hydroxylation of aklavinone to yield epsilon-rhodomycinone. The enzyme is inactive on anthracyclines glycosylated at position C-7 and its activity decreases to a different extent with other substrate modifications, indicating that DnrF has a significant substrate specificity.

Mode of interaction between tumor necrosis factor alpha and a monoclonal antibody expressing a recurrent idiotype.

Tumor Necrosis Factor alpha (TNF alpha) is an inflammatory cytokine which exists mainly as a 51kD complex built up of 3 identical, noncovalently-linked polypeptide subunits. We have raised monoclonal antibodies (mAb) against human TNF alpha (huTNF alpha). One of these mAb (mAb78, mouse IgG1k) was studied in detail. mAb78 expresses a recurrent idiotype typical of the BALB/c anti-huTNF alpha antibody response. HuTNF alpha bound to mAb78 with an affinity constant (Kobs) of 3.2 x 10(10)M-1. The number of huTNF alpha-binding sites per mAb78 molecule was approximately 0.7. At concentrations higher than the Kobs mAb78 neutralized huTNF alpha at a approximately 1.3:1 molar ratio. mAb78 precipitated huTNF alpha in a double immunodiffusion assay in agar. Gel-filtration experiments of mAb78-huTNF alpha mixtures, that had been set up in large antigen excess, detected complexes of 570 kD as the smallest ones formed under these conditions. We propose that these results are accommodated best by a model according to which cyclic complexes built up of 3 mAb78 and 2 huTNF alpha molecules are the smallest units formed upon interaction of the reagents. In view of this model we discuss how huTNF alpha and mAb78 can undergo a precipitin reaction.