| POLYMERS AND POLYMER MATRIX COMPOSITES |
|
|
|
|
|
| Advances in Stimulus-Responsive Gene Delivery Systems in Cancer Therapy |
| ZHANG Lihua†, LI Jiang†, WANG Juan, YAN Xu, WANG Junli, BAI Yunfeng*, FENG Feng*
|
| Shanxi Province Key Laboratory of Chemical and Biological Sensing, School of Chemistry and Chemical Engineering, Shanxi Datong University, Datong 037009, Shanxi, China |
|
|
|
|
Abstract Over the past decades, there has been tremendous progress in cancer gene therapy, but adverse events such as lower gene delivery efficiency and bioavailability remain major clinical challenges. Nano-delivery systems have unique advantages in cancer therapy. Due to avoiding premature drug leakage, improving blood circulation stability, increasing drug concentration in the lesion, improving drug bioavailability, and mitigating adverse reactions of anticancer drugs, stimulus-responsive gene delivery systems have become a research hotspot in cancer therapy. In this paper, the latest research progress of stimuli-responsive gene delivery systems in the field of tumor therapy over the last years is detailed, with emphasis on endogenous stimuli (pH, enzyme, redox, reactive oxygen species, and others) and exogenous stimuli (magnetic field, heat, light, and ultrasound), respectively. The problems and challenges faced by them are discussed.
|
|
Published: 10 May 2025
Online: 2025-04-28
|
|
|
|
|
1 Bray F, Laversanne M, Sung H, et al. CA: A Cancer Journal for Clinicians, 2024, 74(3), 229.
2 Wang Y H, Ma X D, Zhou W H, et al. Smart Medicine, 2022, 1(1), 20220013.
3 Zhang D X, Zhong D N, Ouyang J, et al. Nature Communication, 2022, 13(1), 1413.
4 Zhang Q F, Kuang G Z, Zhang L X, et al. Biomedical Technology, 2023, 2, 77.
5 Zhang X D, Chen X K, Zhao Y L. Nano-Micro Letters, 2022, 14(1), 95.
6 Davis M E. Current Opinion in Biotechnology, 2002, 13(2), 128.
7 Vogelstein B, Kinzler K W. National Library of Medicine, 2004, 10(8), 789.
8 Kay M A. Nature Reviews Genetics, 2011, 12, 316.
9 Mingozzi F, High K A. Nature Reviews Genetics, 2011, 12, 341.
10 Friedmann T, Roblin R. Science, 1972, 175(4025), 949.
11 Zhang Q F, Kuang G Z, Li W Z, et al. Nano-Micro Letters, 2023, 15(3), 299.
12 Song N C, Fan X T, Guo X C, et al. Advanced Materials, 2024, 36(15), 2309534.
13 Naldini L. Nature, 2015, 526(7573), 351.
14 Jin L, Zeng X, Liu M, et al. Theranostics, 2014, 4(3), 240.
15 Amer M H. Molecular and Cellular Therapies, 2014, 2(1), 1.
16 Kim H J, Kim A, Miyata K, et al. Advanced Drug Delivery Reviews, 2016, 104, 61.
17 Liu Y, Xu C F, Iqbal S, et al. Advanced Drug Delivery Reviews, 2017, 115, 98.
18 Van Den Berg A I, Yun C O, Schifelers R M, et al. Journal of Controlled Release, 2021, 331, 121.
19 Li L, Song L, Liu X, et al. ACS Nano, 2017, 11(1), 95.
20 Mellott A J, Forrest M L, Detamore M S. Annals of Biomedical Engineering, 2013, 41(3), 446.
21 Yang J P, Zhang Q, Chang H, et al. Chemical Reviews, 2015, 115(11), 5274.
22 Saw P E, Yao H R, Lin C H, et al. Nano Letters, 2019, 19(9), 5967.
23 Wu Y X, Zheng J D, Zeng Q, et al. Nano Research, 2020, 13(9), 2399.
24 Yu C, Ding B B, Zhang X Y, et al. Biomaterials, 2018, 155, 112.
25 Yatvin M B, Weinstein J N, Dennis W H, et al. Science, 1978, 202(4374), 1290.
26 Wu Y J, Zhou D F, Zhang Q F, et al. Biomacromol, 2016, 17(8), 2650.
27 Zhou M X, Zhang X C, Xie J, et al. Nanomaterials, 2018, 8(11), 952.
28 Connor J, Huang L. Cancer Research, 1986, 46(7), 3431.
29 Yan Y F, Ding H W. Nanomaterials(Basel), 2020, 10, 1613.
30 Pham S H, Choi Y H, Choi J H. Pharmaceutics, 2020, 12, 630.
31 Peng H, Qiao L, Shan G S, et al. Carbohydrate Polymers, 2022, 291, 119554.
32 Pang X, Jiang Y, Xiao Q C, et al. Journal of Controlled Release, 2016, 222, 116.
33 Das S S, Bharadwaj P, Bilal M, et al. Polymers (Basel), 2020, 12, 1397.
34 Zhao T, Liang C, Zhao Y R, et al. Journal of Nanobiotechnology, 2022, 20(1), 177.
35 Liu Y, Zou Y, Feng C, et al. Nano Letters, 2020, 20(3), 1637.
36 Li Y W, Yue S Z, Cao J Y, et al. Theranostics, 2020, 10(18), 8250.
37 Shahriari M, Zahiri M, Abnous K, et al. Journal of Controlled Release, 2019, 308, 172.
38 Egeblad M, Werb Z. Nature Reviews Cancer, 2002, 2(3), 161.
39 Wei Y, Lv J J, Zhu S Y, et al. Drug Discovery Today, 2024, 29(7), 104014.
40 Park H, Saravanakumar G, Kim J, et al. Advanced Healthcare Materials, 2021, 10(5), e2000834.
41 Shahriari M, Zahiri M, Abnous K, et al. Journal of Controlled Release, 2019, 308, 172.
42 Song N C, Chu Y W, Li S A, et al. Advanced Functional Materials, 2023, 33, 2306634.
43 Lin Y H, Huang Y Q, Yang Y L, et al. Analytical Chemistry, 2020, 92(22), 15179.
44 Yang J, Li Z K, Shen M L, et al. Advanced Science, 2021, 8(13), 2100292.
45 Mu J, Lin J, Huang P, et al. Chemical Society Reviews, 2018, 47, 5554e73.
46 Xie A, Hanif S, Ouyang J, et al. EBioMedicine, 2020, 56, 102821.
47 Lian G J, Gnanaprakasam J R, Wang T T, et al. Elife, 2018, 10(7), 36158.
48 Liu Y, Tian Y, Tian Y F, et al. Advanced Materials, 2015, 27(44), 7156.
49 Mirhadi E, Mashreghi M, Faal maleki M, et al. International Journal of Pharmaceutics, 2020, 589, 119882.
50 Kuang G Z, Zhang Q F, He S S, et al. Polymer Chemistry, 2020, 11(44), 7078.
51 Cheng R, Feng F, Meng F H, et al. Journal of Controlled Release, 2011, 152(1), 2.
52 Zhan Y R, Tan J, Hei M W, et al. Journal of Materials Chemistry B, 2022, 10(8), 1308.
53 Han T Y, Huan M L, Cai Z D, et al. Advanced Healthcare Materials, 2023, 12(32), e2302094.
54 Shim M S, Xia Y. Angewandte Chemie International Edition, 2013, 52(27), 6926.
55 Gao F X, Xiong Z R. Frontiers in Chemistry, 2021, 9, 649048.
56 Zhang C, Chen J, Song Y. ACS Applied Materials & Interfaces, 2022, 14(2), 2587.
57 Yang H Y, Liu R F, Xu Y X, et al. Nanomicro Letters, 2021, 13(1), 35.
58 He Y L, Guo S W, Wu L N, et al. Biomaterials, 2019, 225, 119501.
59 Lai E C. Current Biology, 2003, 13(23), R925.
60 Liu J T, Zhang L, Lei J P, et al. ACS Applied Materials & Interfaces, 2015, 7(34), 19016.
61 Cortez M A, Bueso-ramos C, Ferdin J, et al. Nature Reviews Clinical Oncology, 2011, 8(8), 467.
62 Yue R Y, Chen M, Ma N. ACS Applied Materials & Interfaces, 2020, 12(29), 32493.
63 Yu S, Zhou Y, Sun Y, et al. Angewandte Chemie International Edition, 2021, 60(11), 5948.
64 Edelman E R, Kost J, Bobeck H, et al. Journal of Biomedical Materials Research, 1985, 19(1), 67.
65 Albarqi A H, Wong L H, Schumann C, et al. ACS Nano, 2019, 13(6), 6383.
66 Liu C H, Chen Y J, Wu W C, et al. International Journal of Biological Macromolecules, 2023, 253(8), 127357.
67 Bae Y H, Okano T, Hsu R, et al. Die Makromolekulare Chemie, Rapid Communications, 1987, 8(10), 481.
68 Agarwal S, Zhang Y, Maji S, et al. Materials Today, 2012, 15(9), 388.
69 Wagner E. Advances in Genetics, 2014, 88, 231.
70 Lachelt U, Wagner E. Chemical Reviews, 2015, 115(19), 11043.
71 Venditto V J, Szoka F C. Advanced Drug Delivery Reviews, 2013, 65(1), 80.
72 Au J L, Yeung B Z, Wientjes M G, et al. Advanced Drug Delivery Reviews, 2016, 97, 280.
73 Fliervoet L A L, Zhang H Y, Groesen E V, et al. Nanoscale, 2020, 12, 10347.
74 Wang P, Zhang L M, Zheng W F, et al. Angewandte Chemie International Edition, 2018, 57(6), 1491.
75 Liu Y J, Shu G M, Li X, et al. Advanced Functional Materials, 2018, 28(32), 1802026.
76 Suzuki A, Tanaka T. Nature, 1990, 346, 345.
77 Shao Q, Xing B G. Chemical Society Reviews, 2010, 39(8), 2835.
78 Bandara H D, Burdette S C. Chemical Society Reviews, 2012, 41(5), 1809
79 Klajn R. Chemical Society Reviews, 2014, 43(1), 148.
80 Zhao H H, Wang Z H, He X T, et al. ACS Applied Nano Materials, 2024, 7(10), 12053.
81 Wu P, Wang X F, Wang Z G, et al. ACS Applied Materials & Interfaces, 2019, 11(20), 18691.
82 Zhang Q F, Wang X C, Kuang G Z, et al. Research, 2022, 2022, 9784510.
83 Zhang Q F, Wang X C, Kuang G Z, et al. Bioactive Materials, 2023, 24(3), 185.
84 Krasnovskaya O O, Akasov R A, Spector D V. ACS Applied Materials & Interfaces, 2023, 15(10), 12882.
85 Zhang Q F, Kuang G Z, He S S, et al. Nano Letters, 2020, 20(5), 3039.
86 Kuang G Z, Lu H T, He S S, et al. Advanced Healthcare Materials, 2021, 10(20), 2100938.
87 Qi S P, Zhang P F, Ma M, et al. Small, 2019, 15(1), e1804332.
88 Kost J. Clinical Materials, 1993, 13(1-4), 155.
89 Pu Y Y, Yin H H, Dong C H, et al. Advanced Materials, 2021, 33(45), 2104641.
90 Yan L, Gao S J, Shui S S, et al. International Journal of Biological Macromolecules, 2020, 162, 1303.
91 Lee Y, Lee S, Lee D Y, et al. Angewandte Chemie International Edition, 2016, 55(36), 10676.
92 Cheng R, Meng F H, Deng C, et al. Biomaterials, 2013, 34(14), 3647.
93 Zou J H, Li Z, Zhu Y, et al. Bioactive Materials, 2024, 34, 414.
94 Yang S, Yang Y, Xia X, et al. Advanced Functional Materials, 2024, 34(33), 2400500.
95 Qiao Z Y, Zhang R, Du F S, et al. Journal of Control Release, 2011, 152(1), 57.
96 Liu J J, Li G M, Guo H H, et al. ACS Applied Materials & Interfaces, 2023, 15(10), 12809.
97 Yuan Y, Liu J, Yu X N, et al. Acta Biomaterialia, 2021, 135, 556.
98 Gujrati M, Vaidya A M, Mack M, et al. Advanced Healthcare Materials, 2016, 5(22), 2882.
99 Li Z, Zhu L, Liu W, et al. Acta Biomaterialia, 2020, 107, 242.
100 Shi Z, Yang Y H, Guo Z Y, et al. Bioorganic Chemistry, 2023, 135, 106485.
101 Fang Y, Chen S, Zhang M Y, et al. Advanced Healthcare Materials, 2023, 12(28), 2301401.
102 Yang Y, Yang Y, Xie X, et al. International Journal of Pharmaceutics, 2016, 506(1-2), 158.
103 Liang Y X, Sun X Y, Xu D Z, et al. ACS Applied Bio Materials, 2024, 7(5), 3202. |
|
|
|
渝公网安备50019002502923号 © Editorial Office of Materials Reports.
2025, Vol. 39 
