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.

Current status of ribosome inactivating proteins.

Ribosome inactivating proteins (RIPs) are a group of naturally occurring plant proteins with a RNA-N-glycosidases activity which depurinate rRNA at a specific universally conserved position (i.e. cleavage of N-glycosidic bond of a specific adenine of 28S rRNA). These proteins are found in different parts of plants, in concentrations ranging from a few micrograms to several hundred mg per 100 g of plant tissues. RIPs exist in two forms, type 1 having a single polypeptide chain with a molecular mass of approximately 30 kDa possessing N-glycosidase activity; and type 2 with two or four polypeptide chains having a molecular mass of approximately 60 kDa and approximately 120 kDa respectively showing lectin activity along with N-glycosidase moiety. Such biomolecules causing cytotoxicity are being exploited for designing immunotoxins/hormonotoxins using heterobifunctional conjugates. These carrier conjugates with the RIPs can influence cellular trafficking and inhibition of protein synthesis. We are witnessing a novel protein from plants that can be utilised for various therapeutical treatments ranging from cancers, AIDS and other viral diseases of present times.

Hormonotoxins: synthesis, characterization and bioefficacy of some defined disulfide linked conjugates of ovine LH with a ribosome inactivating protein, gelonin.

In order to synthesise a bioeffective hormonotoxin for selective targeting to specific cells in the gonads, gelonin, a single chain RIP obtained from an Indian plant, Gelonium multiflorum of Euphorbeaceae family was covalently linked to oLH with the use of N-succinimidyl-3-(2-pyridyldithio)propionate, generating a linkage containing a disulfide bond and a amide bond. The hormonotoxins were separated according to their molecular weight (indirectly according to oLH:gelonin molar ratio) and a complete biochemical analysis was performed. The linkage occurred through the epsilon-NH2 group of alpha oLH as judged from RP-HPLC analysis. The conjugates were devoid of ingredients as determined by SDS-PAGE and RP-HPLC analysis. The hormonotoxins retained substantial receptor binding, steroidogenic activity and immunoreactivity of oLH and gelonin to their antibodies. Hormonotoxins bind to the Leydig tumour cells via oLH part leaving gelonin free as judged by competitive displacement analysis. The hormonotoxin was internalized to the sufficient degree to effectively inhibit protein synthesis. The cytotoxicity of 1:1 molar ratio conjugate was relatively higher than that of others. The cytotoxicity of presently described more defined hormonotoxins exhibited higher receptor binding and cytotoxicity than the hormonotoxins reported earlier [Singh, et al., J Biol Chem, 264 (1989) 3089].