Avidin is a glycoprotein from hen egg white that binds biotin with very high affinity. Here we describe OXavidin, a product containing aldehyde groups, obtained by ligand-assisted sugar oxidation of avidin by sodium periodate. OXavidin chemically reacts with cellular and tissue proteins through Schiff's base formation thus residing in tissues for weeks while preserving the biotin binding capacity. The long tissue residence of OXavidin as well as that of OXavidin/biotinylated agent complex occurs in normal and neoplastic tissues and immunohistochemistry shows a strong and homogenous stromal localization. Once localized in tissue/tumor, OXavidin becomes an “artificial receptor” for intravenous injected biotin allowing tumor targeting with biotinylated therapeutics like radioisotopes or toxins. Moreover, present data also suggest that OXavidin might be useful for the homing of biotinylated cells. Overall, OXavidin exhibits a remarkable potential for many different therapeutic applications.
We recently reported that the oxidized avidin, named AvidinOX®, resides for weeks within injected tissues as a consequence of the formation of Schiff's bases between its aldehyde groups and tissue protein amino groups. We also showed, in a mouse pre-clinical model, the usefulness of AvidinOX for the delivery of radiolabeled biotin to inoperable tumors. Taking into account that AvidinOX is the first oxidized glycoprotein known to chemically link to injected tissues, we tested in the mouse a panel of additional oxidized glycoproteins, with the aim of investigating the phenomenon. We produced oxidized ovalbumin and mannosylated streptavidin which share with avidin glycosylation pattern and tetrameric structure, respectively and found that neither of them linked significantly to cells in vitro nor to injected tissues in vivo, despite the presence of functional aldehyde groups. The study, extended to additional oxidized glycoproteins, showed that the in vivo chemical conjugation is a distinctive property of the oxidized avidin. Relevance of the high cationic charge of avidin into the stable linkage of AvidinOX to tissues is demonstrated as the oxidized acetylated avidin lost the property. Plasmon resonance on matrix proteins and cellular impedance analyses showed in vitro that avidin exhibits a peculiar interaction with proteins and cells that allows the formation of highly stable Schiff's bases, after oxidation.
A sensitive and specific micro ELISA, named MONOPLATE ELISA, for the detection of antibodies against P. falciparum sporozoites was developed. It can be applied to many kinds of samples including serum, plasma, whole blood, eluted bloodspot and mosquito bloodmeal as well. The method makes use of a single microtiter plate and the chemically synthesized (Asn-Ala-Asn-Pro)20 (NANP20) antigen both as coating material and as competitive (binding) inhibitor in the samples. The specific value of each sample is obtained as the absorbance difference between the uninhibited and the fully inhibited sample. Using appropriate conditions, the results can be evaluated by simple visual inspection of the plate, without any instrument. A rapid procedure, where the incubation times for sample and conjugate are just 15 minutes, is also described. When unknown samples from a P. falciparum endemic area were tested, a close correlation was found between our results and those obtained with the only commercial ELISA kit now available (Sclavo S.p.A). For screening purposes, as many as 48 samples per plate can be tested by this method.
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