Nikita Kulkarni scite author profile

Nikita Kulkarni

2Publications

40Citation Statements Received

112Citation Statements Given

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Northeastern University

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In vitrooptimization of liposomal nanocarriers prepared from breast tumor cell specific phage fusion protein

Wang¹,

Kulkarni²,

Bedi³

et al. 2011

Journal of Drug Targeting

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Fusion proteins created by phage display peptides with tumor cell specificity and the pVIII major coat protein of filamentous phages have been explored recently as a simple and cost-effective means for preparing tumor-targeted liposomes that improve the cytotoxicity of anticancer drugs in vitro. The next step in the development of this approach is the optimization of the liposome composition for the maximum targeting activity and subsequent testing in vivo. This study aimed to investigate the impact of preparation protocols, lipid composition and phage protein content on the targeting efficiency of phage protein-modified liposomes. Analysis of size, zeta potential and morphology was used to investigate the effect of preparation protocols on the stability and homogeneity of the phage liposomes. A previously developed coculture targeting assay and a factorial design approach were used to determine the role of lipid composition of the liposomal membrane on the target cell specificity of the phage liposomes. Western blot combined with proteinase K treatment detected the orientation of targeted phage protein in liposomal membrane. Phage protein, DPPG and PEG(2k)-PE showed positive effects on target specificity of phage liposomes. The results served to identify optimal formulation that offer an improved liposomal affinity for target tumor cells over the non-optimized formulation.

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On the Mechanism of Targeting of Phage Fusion Protein-Modified Nanocarriers: Only the Binding Peptide Sequence Matters

et al. 2011

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The integration of pharmaceutical nanocarriers with phage display techniques is emerging as a new paradigm for targeted cancer nanomedicines. We explored the direct use of landscape phage fusion proteins for the self-assembly of phage-derived binding peptides to liposomes for cancer cell targeting. The primary purpose of this study was to elucidate the targeting mechanism with a particular emphasis on the relative contributions of the two motifs that make up the landscape phage fusion protein (a binding peptide and the phage pVIII coat protein) to the targeting efficiency. Using transmission electron microscopy and dynamic light scattering, we confirmed the formation of phage-liposomes. Using FACS analysis, fluorescence microscopy, and fluorescence photospectrometry, we found that liposomes modified with MCF-7-specific phage fusion proteins (MCF-7 binding peptide, DMPGTVLP, fused to the phage PVIII coat protein) provided a strong and specific association with target MCF-7 cancer cells but not with co-cultured, non-target cells including C166-GFP and NIH3T3. The substitution for the binding peptide fused to phage pVIII coat protein abolished the targeting specificity. The addition of free binding peptide, DMPGTVLP, competitively inhibited the interaction of MCF-7-specific phage-liposomes with target MCF-7 cells but showed no reduction of MCF-7-associated plain liposomes. The proteolysis of the binding peptide reduced MCF-7 cell-associated phage-liposomes in a proteinase K (PK) concentration-dependent manner with no effect on the binding of plain liposomes to MCF-7 cells. Overall, only the binding peptide motif was involved in the targeting specificity of phage-liposomes. The presence of phage pVIII coat protein did not interfere with the targeting efficiency.

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Nikita Kulkarni

In vitrooptimization of liposomal nanocarriers prepared from breast tumor cell specific phage fusion protein

On the Mechanism of Targeting of Phage Fusion Protein-Modified Nanocarriers: Only the Binding Peptide Sequence Matters

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