GSH-pH dual-responsive engineered codoped Prussian blue multimodal theranostic nanoplatform induces TP53 deregulated apoptotic death of MDA-MB-231 with enhanced T1 - T2W MRI

Authors

Panchanan Sahoo, Jadavpur University
Sourav Kumar Nandi, Jadavpur University
Mandira Das, Jadavpur University
Sudip Kundu, Jadavpur University
Riya Roy, UGC-DAE Consortium for Scientific Research Kolkata
Sayan Kumar Bag, Jadavpur University
Kanchan Kumar Kole, Central Glass and Ceramic Research Institute India
Arunabha Thakur, Jadavpur University
Jiten Ghosh, Central Glass and Ceramic Research Institute India
Abhishek Mukherjee, Indian Statistical Institute, Kolkata
Chandan Kumar Ghosh, Jadavpur University

Article Type

Research Article

Publication Title

ACS Applied Nano Materials

Abstract

Though chemotherapy is an effective clinical treatment, individual drugs hardly achieve precise controlled release, causing unavoidable severe side effects due to off-targeting in the absence of any receptor of triple negative breast cancer (TNBC). Fortunately, the emergence of on-demand drug-release nanoparticles allows potential alternatives to overcome the limitation. In this work, a dual-responsive multimodal theranostic targeted smart nanoplatform has been prepared by employing mesoporous silica (mSiO2)-coated Dy³⁺, Gd³⁺-codoped Prussian blue nanocubes (PBNCs) with CytC as a gatekeeper to seal pores of mSiO2 via disulfide and boronate ester bonds as intermediate linkers for intracellular high glutathione, and acidic pH responsive drug release. Hyaluronic acid has been used as a targeting motif, facilitating the uptake of our synthesized nanoplatform, wherein a cumulative drug-release profile demonstrated that the nanoplatform exhibits very low sustained drug release at pH 7.0 (∼20% in 25 h), while the release gets accelerated at pH 5.0 and 8.0 mM GSH (∼60% in 25 h), realizing the “trigger release” of drug. The nanoplatform possesses excellent biocompatibility to HEK 293 cells, while it has high cytotoxicity (∼67%) toward TNBC (IC50 = 35.8 μM), ascribed to synergistic chemo-phototherapeutic effect. An in silico analysis, followed by immunocytochemical studies illustrate that the down-regulated TP53-BAX/BCL2 and upregulated CASP3 CYTS networks initiate an apoptotic cell-death mechanism. In addition, the nanoplatform exhibits potency as a dual-mode MRI contrast agent with high relaxivity (r1 and r2) values of ∼7.84 and ∼29.3 mM^-1 s^-1, which will be highly facilitating for the diagnosis and tracking of TNBC management for personalized medicine.

First Page

26617

Last Page

26628

DOI

10.1021/acsanm.4c05556

Publication Date

12-13-2024

Recommended Citation

Sahoo, Panchanan; Nandi, Sourav Kumar; Das, Mandira; Kundu, Sudip; Roy, Riya; Bag, Sayan Kumar; Kole, Kanchan Kumar; Thakur, Arunabha; Ghosh, Jiten; Mukherjee, Abhishek; and Ghosh, Chandan Kumar, "GSH-pH dual-responsive engineered codoped Prussian blue multimodal theranostic nanoplatform induces TP53 deregulated apoptotic death of MDA-MB-231 with enhanced T1 - T2W MRI" (2024). Journal Articles. 4818.
https://digitalcommons.isical.ac.in/journal-articles/4818