Charge
Reversal Polypyrrole Nanocomplex-Mediated Gene
Delivery and Photothermal Therapy for Effectively Treating Papillary
Thyroid Cancer and Inhibiting Lymphatic Metastasis
posted on 2022-03-15, 13:33authored byMenghong Xu, Duo Zhao, Yuwen Chen, Chaoyi Chen, Lulu Zhang, Lihong Sun, Jing Chen, Qingshuang Tang, Suhui Sun, Cheng Ma, Xiaolong Liang, Shumin Wang
As
a traditional treatment for papillary thyroid cancer (PTC),
surgical resection of diseased tissues often brings lots of inconveniences
to patients, and the tumor recurrence and metastasis are difficult
to avoid. Herein, we developed a gene and photothermal combined therapy
nanosystem based on a polypyrrole (Ppy)–poly(ethylene imine)–siILK
nanocomplex (PPRILK) to achieve minimally invasive ablation
and lymphatic metastasis inhibition in PTC simultaneously. In this
system, gelatin-stabilized Ppy mainly acted as a photothermal- and
photoacoustic (PA)-responsive nanomaterial and contributed to its
well-behaved photosensitivity in the near-infrared region. Moreover,
gelatin-stabilized Ppy possessed a charge reversal function, facilitating
the tight conjunction of siILK gene at physiological pH (7.35–7.45)
and its automatic release into acidic lysosomes (pH 4.0–5.5);
the proton sponge effect generated during this process further facilitated
the escape of siILK from lysosomes to the cytoplasm and played its
role in inhibiting PTC proliferation and lymphatic metastasis. With
the guidance of fluorescence and PA bimodal imaging, gene delivery
and Ppy location in tumor regions could be clearly observed. As a
result, tumors were completely eradicated by photothermal therapy,
and the recurrences and metastases were obviously restrained by siILK.