posted on 2014-08-27, 00:00authored byAjay Vikram Singh, Madu Batuwangala, Ruchir Mundra, Krunal Mehta, Sanket Patke, Ermelinda Falletta, Rajendra Patil, W. N. Gade
This study reports a facile biomineralization
route for gold microplates (GMPs) synthesis using bovine serum albumin
(BSA) as a reductant and stabilizing agent. Adding BSA to HAuCl4 solution yields spontaneous versatile anisotropic and partially
hollow GMPs upon aging. We hypothesize that the instantaneous protein
denaturation at low pH enabled access to serine and threonine hydroxyl,
and sulfhydryl groups of BSA, which act as a reductant and stabilizer,
respectively. This reaction could be hastened by increasing the temperature
well beyond 65 °C. Transmission electron microscopy/X-ray diffraction
studies revealed highly crystalline and anisotropic structures (triangle,
pentagon, and rectangle). Atomic force microscopy/scanning electron
microscopy analyses demonstrated unique morphology of microplates
with a partially void core and BSA mineralized edge structure. RAW
264.7 mice peritoneal macrophage–microplate interaction studies
using live cell confocal imaging reveal that cells are capable of
selectively internalizing smaller GMPs. Large GMPs are preferentially
picked with sharp vertices but cannot be internalized and exhibit
frustrated phagocytosis-like phenomenon. We explored particle phagocytosis
as an actin mediated process that recruits phagosome-like acidic organelles,
shown by a lysosensor probe technique. The biocompatible GMPs exhibited
∼70% paclitaxel (PCL) loading and sustained release of PCL,
showing antitumor activity with the MCF-7 cell line, and could be
a novel drug carrier for breast cancer therapy.