In silico Structure Modeling and Comparative Analysis of Characterization Properties of Protein Polymers Useful for Protein-Based Nano Particulate Drug Delivery Systems (NPDDS): A Bioinformatics Approach

Abstract

With an increasing interest in nanoparticulate delivery systems, there is a greater need to identify biomaterials that are biocompatible and safe for human applications. Protein polymers from animal and plant sources are promising materials for designing nanocarriers. Composition of the protein plays an important role for specific drug delivery applications such as drug release, targeting, and stimuli responsive drug release. An important issue in protein polymers is characteristics such as size, charge, and hydrophobicity may play a significant role in phagocytic uptake and initiating a subsequent immune response. This remains to be investigated systematically by analyzing factors that influence nanoparticle characteristics of protein and reduce phagocytic uptake and does not initiate immune response too. Although protein polymers are biodegradable, it is essential to ensure that there must not be premature enzymatic breakdown of the protein nanoparticles in the systemic circulation. Surface modification of the protein nanoparticles can be used to address this issue to propose the necessary modification in the surface of the protein would be great contribution in the nano particulate drug delivery systems (NPPDS). Of the various proteins, gelatin and albumin have been widely studied for drug delivery applications. Plant proteins are yet to be investigated widely for drug delivery applications so there is need to find out the plant proteins capable to act as nanoparticles. The commercial success of albumin-based nanoparticles has created an interest in other proteins. An increased understanding of the physicochemical properties coupled with the developments in rDNA technology will open up new opportunities for protein-based nanoparticulate systems. In the present studies several proteins currently useful for drug delivery system were structurally modeled and has been analyzed to propose the essential characteristics of protein for protein-based NPDDS.