Department of Gynecology, Women's Hospital of Nanjing Medical University (Nanjing Maternity and Child Health Care Hospital), Nanjing 210001, China.
Centre for Diseases Prevention and Control of Eastern Theater, Nanjing 210002, China.
ACS Appl Mater Interfaces. 2022 Jun 22;14(24):27551-27563. doi: 10.1021/acsami.2c02949. Epub 2022 Jun 10.
Hypoxic environment is a bottleneck of photodynamic therapy (PDT) in tumor treatment, as oxygen is the critical substrate for photosensitivity reaction. Herein, a sustained oxygen supply system based on cerium nanoparticles and hydrogel (GHCAC) was explored for enhanced synergistic PDT and gas therapy. Ceria nanoparticles were prepared as a drug carrier by self-assembly mediated by hyaluronic acid (HA), a targeting for CD44 on cervical cancer cells, followed by photosensitizer and l-arginine (l-Arg) loading. Then, the GHCAC system was developed by incorporating a prepared nanocarrier (HCePA) and O-evolving agent calcium peroxide (CaO) into the hydrogel (Gel) developed by a poloxamer. Gel in the system could moderately infiltrate HO to react with CaO and generate sustained oxygen using the catalase-like activity of HCePA. The system could efficiently alleviate hypoxia in tumor environments for up to 7 days, meeting the "once injection, repeat irradiation" strategy and enhanced PDT efficacy. Besides, the generated singlet oxygen (O) in the PDT process could also oxidize l-Arg into high concentrations of nitric oxide for synergistic gas therapy. The developed oxygen supplied and drug delivery Gel system is a new strategy for synergistic PDT/gas therapy to overcome cervical cancer.
缺氧环境是肿瘤治疗中光动力疗法(PDT)的一个瓶颈,因为氧气是光敏反应的关键底物。在此,探索了基于纳米氧化铈和水凝胶(GHCAC)的持续供氧系统,以增强协同 PDT 和气体治疗。通过透明质酸(HA)介导的自组装制备纳米氧化铈作为药物载体,HA 是宫颈癌细胞 CD44 的靶向配体,随后负载光敏剂和 l-精氨酸(l-Arg)。然后,通过将制备的纳米载体(HCePA)和产氧剂过氧化钙(CaO)掺入由泊洛沙姆开发的水凝胶(Gel)中,开发了 GHCAC 系统。该系统中的凝胶可以适度渗透到 HO 中,与 CaO 反应,并利用 HCePA 的类过氧化物酶活性产生持续的氧气。该系统可以有效地缓解肿瘤环境中的缺氧长达 7 天,满足“一次注射,重复照射”的策略并增强 PDT 疗效。此外,PDT 过程中产生的单线态氧(O)也可以将 l-Arg 氧化成高浓度的一氧化氮,用于协同气体治疗。开发的供氧和药物输送凝胶系统是克服宫颈癌的协同 PDT/气体治疗的新策略。
