Prashanth K. Jayanna scite author profile

Libraries of random peptides displayed on the surface of filamentous phages are a valuable source for biospecific ligands. However, their successful use can be hindered by a disproportionate representation of different phage clones and fluctuation of their composition that arises during phage reproduction, which have potential to affect efficiency of selection of clones with an optimal binding. Therefore, there is a need to develop phage display libraries with extended and varied repertoires of displayed peptides. In this work, we compared the complexity, evolution and representation of two phage display libraries displaying foreign octamers and nonamers in 4000 copies as the N-terminal part of the major coat protein pVIII of phage fd-tet (landscape libraries). They were obtained by replacement of amino acids 2-4 and 2-5 of pVIII with random octa- and nonamers, respectively. Statistical analysis of the libraries revealed their dramatic censoring and evolution during amplification. Further, a survey of both libraries for clones that bind common selectors revealed the presence of different non-overlapping families of target-specific clones in each library justifying the concept that different landscape libraries cover different areas of a sequence space.

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Liposomes targeted by fusion phage proteins

Jayanna¹,

Torchilin²,

Petrenko³

2009

Nanomedicine: Nanotechnology, Biology and Medicine

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Targeting of nanocarriers has long been sought after to improve the therapeutic indices of anticancer drugs. Here we provide the proof of principle for a novel approach of nanocarrier targeting through their fusion with target-specific phage coat proteins. The source of the targeted phage coat proteins are landscape phage libraries-collections of recombinant filamentous phages with foreign random peptides fused to all 4,000 copies of the major coat protein. We exploit in our approach the intrinsic physico-chemical properties of the phage major coat protein as a typical membrane protein.Landscape phage peptides specific for specific tumors can be obtained by affinity selection and purified fusion coat proteins can be assimilated into liposomes to obtain specific drug loaded nanocarriers. As a paradigm for inceptive experiments, a streptavidin-specific phage peptide selected from a landscape phage library was incorporated into ~100 nm liposomes. Targeting of liposomes was proved by their specific binding to streptavidin-coated beads.

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Phage protein‐targeted cancer nanomedicines

Petrenko

Jayanna

2013

FEBS Letters

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Nanoencapsulation of anticancer drugs improves their therapeutic indices by virtue of the enhanced permeation and retention effect which achieves passive targeting of nanoparticles in tumors. This effect can be significantly enhanced by active targeting of nanovehicles to tumors. Numerous ligands have been proposed and used in various studies with peptides being considered attractive alternatives to antibodies. This is further reinforced by the availability of peptide phage display libraries which offer an unlimited reservoir of target-specific probes. In particular landscape phages with multivalent display of target-specific peptides which enable the phage particle itself to become a nanoplatform creates a paradigm for high throughput selection of nanoprobes setting the stage for personalized cancer management. Despite its promise, this conjugate of combinatorial chemistry and nanotechnology has not made a significant clinical impact in cancer management due to a lack of using robust processes that facilitate scale-up and manufacturing. To this end we proposed the use of phage fusion protein as the navigating modules of novel targeted nanomedicine platforms which are described in this review.

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Landscape phage ligands for PC3 prostate carcinoma cells

Jayanna

Bedi

DeInnocentes

et al. 2010

Protein Engineering Design and Selection

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Tumor-specific cytotoxicity of drugs can be enhanced by targeting them to tumor receptors using tumor-specific ligands. Phage display technology with its high throughput capacity for the analysis of targeting ligands possessing specific binding properties represents a very attractive tool in the quest for molecular ligands. Also, current phage nanobiotechnology concepts allow the use of intact phage particles and isolated phage coat proteins per se as components of nanomedicines. Herein, we describe the use of two landscape phage libraries to obtain phage ligands against PC3 prostate carcinoma cells. Following a very stringent selection scheme, we were able to identify three phage ligands, bearing the fusion peptides, DTDSHVNL, DTPYDLTG and DVVYALSDD that demonstrated specificity and selectivity to PC3 cells based on target-association assays, microscopy and flow cytometry. The phage ligands and their fusion coat proteins can be used as navigating modules in both therapeutic and diagnostic approaches to prostate carcinoma.

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Phage Display for Generating Peptide Reagents

et al. 2008

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This unit presents detailed protocols for selection and propagation of landscape phages, which are fusions of filamentous phage fd (or its close relatives M13 and f1) and foreign DNA that result in chimeric phage virions with foreign peptides (8 to 9 amino acids long) covering the entire surface of the phage particles. These landscape phages bind specifically to mammalian and bacterial cells, spores, or discrete molecular targets.

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