The Fe(3+) binding protein human serum transferrin (hTF) is well known for its role in cellular iron delivery via the transferrin receptor (TFR). A new application is the use of hTF as a therapy and targeted drug delivery system for a number of diseases. Recently, production of hTF in plants has been reported; such systems provide a relatively inexpensive, animal-free (eliminating potential contamination by animal pathogens) method to produce large amounts of recombinant proteins for such biopharmaceutical applications. Specifically, the production of Optiferrin (hTF produced in rice, Oryza sativa, from InVitria) has been shown to yield large amounts of functional protein for use in culture medium for cellular iron delivery to promote growth. In the present work we describe further purification (by gel filtration) and characterization of hTF produced in rice (purified Optiferrin) to determine its suitability in biopharmaceutical applications. The spectral, mass spectrometric, urea gel and kinetic analysis shows that purified Optiferrin is similar to recombinant nonglycosylated N-His tagged hTF expressed by baby hamster kidney cells and/or serum derived glycosylated hTF. Additionally, in a competitive immunoassay, iron-loaded Optiferrin is equivalent to iron-loaded N-His hTF in its ability to bind to the soluble portion of the TFR immobilized in an assay plate. As an essential requirement for any functional hTF, both lobes of purified Optiferrin bind Fe(3+) tightly yet reversibly. Although previously shown to be capable of delivering Fe(3+) to cells, the kinetics of iron release from iron-loaded Optiferrin™/sTFR and iron-loaded N-His hTF/sTFR complexes differ somewhat. We conclude that the purified Optiferrin might be suitable for consideration in biopharmaceutical applications.
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