Multi-functional core-shell hybrid nanogels for pH-dependent magnetic manipulation, fluorescent pH-sensing, and drug delivery

Weitai Wu, Jing Shen, Zheng Gai, Kunlun Hong, Probal Banerjee, Shuiqin Zhou

Research output: Contribution to journalArticlepeer-review

105 Scopus citations

Abstract

Remotely optical sensing and drug delivery using an environmentally-guided magnetically-driven hybrid nanogel particle could allow for medical diagnostics and treatment. Such multifunctional hybrid nanogels (<200 nm) were prepared through the first synthesis of magnetic Ni NPs, followed by a moderate growth of fluorescent metallic Ag on the surface of Ni NPs, and then a coverage of a pH-responsive copolymer gel shell of poly(ethylene glycol-co-methacrylic acid) [p(EG-MAA)] onto the Ni-Ag bimetallic NP cores (18 ± 5 nm). The introduction of the pH-responsive p(EG-MAA) gel shell onto the magnetic and fluorescent Ni-Ag NPs makes the polymer-bound Ni-Ag NPs responsive to pH over the physiologically important range 5.0-7.4. The hybrid nanogels can adapt to surrounding pH and regulate the sensitivity in response to external magnetic field (such as a small magnet of 0.1 T), resulting in the accumulation of the hybrid nanogels within the duration from hours to a few seconds as the pH value decreases from 7.4 to 5.0. The pH-dependent magnetic response characteristic of the hybrid nanogels were further integrated with the pH change to fluorescent signal transduction and pH-regulated anticancer drug (a model drug 5-fluorouracil) delivery functions. The hybrid nanogels can overcome cellular barriers to enter the intracellular region and light up the mouse melanoma B16F10 cells. The multiple responsive hybrid nanogel that can be manipulated in tandem endogenous and exogenous activation should enhance our ability to address the complexity of biological systems.

Original languageEnglish
Pages (from-to)9876-9887
Number of pages12
JournalBiomaterials
Volume32
Issue number36
DOIs
StatePublished - Dec 2011

Funding

We gratefully acknowledge the financial support from the US Agency for International Development under the US-Pakistan Science and Technology Cooperative Program ( PGA-P280422 ). The research carried out in China was supported by the Xiamen University Start-Up Fund ( 985 Project). The research carried out at the CNMS, ORNL was sponsored by the Scientific User Facilities Division, Department of Energy of the US.

FundersFunder number
US-Pakistan Science and Technology Cooperative ProgramPGA-P280422
U.S. Department of Energy
United States Agency for International Development
Xiamen University

    Keywords

    • Biosensor
    • Drug delivery
    • Hybrid nanogels
    • Magnetic manipulation
    • Ni-Ag bimetallic nanoparticle
    • PH-responsive

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