Details

Autor(en) / Beteiligte

• Geng, Peng
• Li, Yan
• Macharia, Daniel K.
• Ren, Xiaoling
• Meng, Ruru
• Wang, Wei
• Lan, Haichuang
• Xiao, Shuzhang

Titel

One Stone, Three Birds: Design and Synthesis of “All-in-One” Nanoscale Mn-Porphyrin Coordination Polymers for Magnetic Resonance Imaging-Guided Synergistic Photodynamic-Sonodynamic Therapy

Ist Teil von

• Journal of colloid and interface science, 2024-04, Vol.660, p.1021-1029

Ort / Verlag

United States: Elsevier Inc

Erscheinungsjahr

2024

Quelle

Elsevier ScienceDirect Journals

Beschreibungen/Notizen

• The “all-in-one” type of MnPPs was reported as efficient nanoplatforms for MRI-guided synergistic photodynamic-sonodynamic therapy of malignant tumor, and it would inspire to develop other PpIX-related molecules with the similar structure for bioapplication. [Display omitted] •“All-in-one” type of MnPPs was synthesized by self-assembling PpIX with Mn2+ ion through a mild sonication route.•The MnPPs showed light/US-excited 1O2 generation and MRI capacity.•The MnPPs exhibited significant inhibition of tumor growth due to synergistic PDT-SDT therapy. Multifunctional nanomaterials with potential applications in both bioimaging and photodynamic-sonodynamic therapy have great advantages in cancer theranostic, but the design and preparation of “all-in-one” type of multifunctional nanomaterials with single component remains challenging. Herein the “all-in-one” type of Mn-PpIX (Protoporphyrin IX) coordination polymers (MnPPs) was reported as efficient nano-photo/sonosensitizers. The MnPPs had an average size of ∼ 110 nm. Upon light/US (ultrasound) irradiation for 5 min, 61.8 % (light) and 32.4 % (US) of DPBF (1.3-diphenyl isobenzofuran) was found to be oxidized by MnPPs, which showed effective ROS (reactive oxygen species) generation for photodynamic/sonodynamic therapy (PDT/SDT). In addition, MnPPs revealed excellent biosafety and could be engulfed by cells to produce intracellular ROS under light/US excitation for efficient killing tumor cells. When MnPPs was injected into mice, the tumor could be monitored via MRI (magnetic resonance imaging). In addition, tumor growth could be significantly inhibited by the synergistic PDT-SDT. Therefore, the present study not only represents MnPPs as an “all-in-one” type of multifunctional nanomaterials for MRI-guided PDT-SDT therapy, but also provides some insights for designing other PpIX-related molecules with the similar structure for bioapplication.