Avidin Fusion Protein Strategies in Targeted Drug and Gene Delivery

Laitinen, Olli H.; Airenne, Kari J.; Räty, Jani K.; Wirth, Thomas; Ylä‐Herttuala, Seppo

doi:10.2174/1570180053175197

Cited by 7 publications

(3 citation statements)

References 75 publications

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“…Chemical modifications of targeting proteins often damage their ability to bind cellular targets, yield heterogeneous preparations, and require custom development. To overcome these issues, several authors exploited the strong interactions between biotin and avidin, 64 a chicken protein with four biotin binding sites (Fig. 4).…”

Section: Targeting Moietiesmentioning

confidence: 99%

Targeted delivery of proteins by nanosized carriers

Solaro¹

2007

J. Polym. Sci. A Polym. Chem.

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Proteic drug administration poses some additional issues as compared with conventional drugs because of protein high molecular weight and short half‐life in plasma. It is well known that protein delivery canbe significantly improved by using targeted nanocarriers. Among the diverse investigated systems, this overview focuses onliposomes and nanoparticles. Indeed, because of their subcellular size, nanocarriers can cross the fenestration of the vascular epithelium and penetrate tissues. Moreover, nanosystems can be confined at the location of choice by conjugation to molecules that strongly bind the target cells. In spite of the significant progress made in the design and engineering of liposomes and nanoparticles tailored to the targeted delivery of proteins, these nanocarriers seldom succeed in delivering proteins directly inside the cell cytosol. Accordingly, some attention is also paid to virosomes and fusion proteins. These systems have a few advantages over conventional nanocarriers, particularly the ability to cross the cell membrane. They also share the main drawback of being highly immunogenic. © 2007 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 46: 1–11, 2008

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Section: Targeting Moietiesmentioning

confidence: 99%

Targeted delivery of proteins by nanosized carriers

Solaro¹

2007

J. Polym. Sci. A Polym. Chem.

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“…The first known avidin was isolated from the chicken ( Gallus gallus ) egg white in 1941 [ 1 ] as a minor protein component showing extremely high avidity to biotin (K d ≈ 10 −15 M) and is a text-book example of tight protein–ligand interaction [ 1 , 2 ]. This combined with the avidin’s compact tetrameric structure with four biotin-binding sites in each functional protein, and the existing methods to biotinylate a vast variety of biomolecules, has made avidin an important biotechnological tool in protein purification, detection, and assay technologies, but also in diagnostics and pharmaceuticals [ 3 , 4 ].…”

Section: Introductionmentioning

confidence: 99%

Bacterial avidins are a widely distributed protein family in Actinobacteria, Proteobacteria and Bacteroidetes

et al. 2021

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Background Avidins are biotin-binding proteins commonly found in the vertebrate eggs. In addition to streptavidin from Streptomyces avidinii, a growing number of avidins have been characterized from divergent bacterial species. However, a systematic research concerning their taxonomy and ecological role has never been done. We performed a search for avidin encoding genes among bacteria using available databases and classified potential avidins according to taxonomy and the ecological niches utilized by host bacteria. Results Numerous avidin-encoding genes were found in the phyla Actinobacteria and Proteobacteria. The diversity of protein sequences was high and several new variants of genes encoding biotin-binding avidins were found. The living strategies of bacteria hosting avidin encoding genes fall mainly into two categories. Human and animal pathogens were overrepresented among the found bacteria carrying avidin genes. The other widespread category were bacteria that either fix nitrogen or live in root nodules/rhizospheres of plants hosting nitrogen-fixing bacteria. Conclusions Bacterial avidins are a taxonomically and ecologically diverse group mainly found in Actinobacteria, Proteobacteria and Bacteroidetes, associated often with plant invasiveness. Avidin encoding genes in plasmids hint that avidins may be horizontally transferred. The current survey may be used as a basis in attempts to understand the ecological significance of biotin-binding capacity.

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“…Attempts to use a symmetrically biotinylated protein-cage nanoplatform for StAv coupling resulted in extensive cross-linking and aggregate formation, as expected. Although StAv can be covalently linked to biomolecules, the substantial effort directed at creating StAv chimeric fusion proteins suggests that this route is labor-intensive for many protein−StAv pairs. , Furthermore, our strategy of using toposelectively biotinylated nanoplatforms as the starting material not only facilitates coupling of StAv to the nanoplatform but also enables a measure of control over the stoichiometry of the coupling. Thus, the final nanoplatform is sufficiently functionalized for targeting while leaving many addressable sites available for designing functional activity or cargo transport into the system.…”

mentioning

confidence: 99%

A Streptavidin−Protein Cage Janus Particle for Polarized Targeting and Modular Functionalization

et al. 2009

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The incorporation of Janus particles into the repertoire of nanoscale building blocks adds a new level of control to supramolecular assembly. Here we demonstrate the potential for using toposelective modification to assemble new types of targeting nanoplatforms by docking the universal coupling protein, streptavidin (StAv), onto a restricted region of the surface of a small protein cage. The resulting StAv-functionalized Janus particles have the potential to be used to control the orientation of the nanoplatforms targeted to a cell surface. In addition, the StAv-biotin couple provides an ideal molecular adaptor for extending asymmetric (polarized) supramolecular assembly. To demonstrate this potential application, StAv-functionalized nanoplatforms were coupled to a biotinylated monoclonal antibody and used to target a microbial pathogen.

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Avidin Fusion Protein Strategies in Targeted Drug and Gene Delivery

Cited by 7 publications

References 75 publications

Targeted delivery of proteins by nanosized carriers

Targeted delivery of proteins by nanosized carriers

Bacterial avidins are a widely distributed protein family in Actinobacteria, Proteobacteria and Bacteroidetes

A Streptavidin−Protein Cage Janus Particle for Polarized Targeting and Modular Functionalization

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