1. Lee Y, Deelman TE, Chen K, Lin DSY, Tavakkoli A, Karp JM: Therapeutic luminal coating of the intestine. Nature Materials 2018, 17:834-+.
2. Duran-Lobato M, Niu Z, Alonso MJ: Oral Delivery of Biologics for Precision Medicine. Advanced Materials 2020, 32.
3. Ahadian S, Finbloom JA, Mofidfar M, Diltemiz SE, Nasrollahi F, Davoodi E, Hosseini V, Mylonaki I, Sangabathuni S, Montazerian H, et al: Micro and nanoscale technologies in oral drug delivery. Advanced Drug Delivery Reviews 2020, 157:37-62.
4. Song Q, Jia J, Niu X, Zheng C, Zhao H, Sun L, Zhang H, Wang L, Zhang Z, Zhang Y: An oral drug delivery system with programmed drug release and imaging properties for orthotopic colon cancer therapy. Nanoscale 2019, 11:15958-15970.
5. Lundquist P, Artursson P: Oral absorption of peptides and nanoparticles across the human intestine: Opportunities, limitations and studies in human tissues. Advanced Drug Delivery Reviews 2016, 106:256-276.
6. Fan W, Xia D, Zhu Q, Li X, He S, Zhu C, Guo S, Hovgaard L, Yang M, Gan Y: Functional nanoparticles exploit the bile acid pathway to overcome multiple barriers of the intestinal epithelium for oral insulin delivery. Biomaterials 2018, 151:13-23.
7. Cui Y, Shan W, Liu M, Wu L, Huang Y: A strategy for developing effective orally-delivered nanoparticles through modulation of the surface “hydrophilicity/hydrophobicity balance”. Journal of Materials Chemistry B 2017, 5:1302-1314.
8. Blanco E, Shen H, Ferrari M: Principles of nanoparticle design for overcoming biological barriers to drug delivery. Nature Biotechnology 2015, 33:941-951.
9. Wu J, Zheng Y, Liu M, Shan W, Zhang Z, Huang Y: Biomimetic Viruslike and Charge Reversible Nanoparticles to Sequentially Overcome Mucus and Epithelial Barriers for Oral Insulin Delivery. Acs Applied Materials & Interfaces 2018, 10:9916-9928.
10. Garcia-Diaz M, Birch D, Wan F, Nielsen HM: The role of mucus as an invisible cloak to transepithelial drug delivery by nanoparticles. Advanced Drug Delivery Reviews 2018, 124:107-124.
11. Yang X, Zhou T, Zwang TJ, Hong G, Zhao Y, Viveros RD, Fu T-M, Gao T, Lieber CM: Bioinspired neuron-like electronics. Nature Materials 2019, 18:510-+.
12. Chen Z, Wang Z, Gu Z: Bioinspired and Biomimetic Nanomedicines. Accounts of Chemical Research 2019, 52:1255-1264.
13. Maslanka Figueroa S, Fleischmann D, Goepferich A: Biomedical nanoparticle design: What we can learn from viruses. Journal of controlled release : official journal of the Controlled Release Society 2021, 329:552-569.
14. Zhu X, Wu J, Shan W, Zhou Z, Liu M, Huang Y: Sub-50 nm Nanoparticles with Biomimetic Surfaces to Sequentially Overcome the Mucosal Diffusion Barrier and the Epithelial Absorption Barrier. Advanced Functional Materials 2016, 26:2728-2738.
15. Chong LSH, Zhang J, Bhat KS, Yong D, Song J: Bioinspired cell-in-shell systems in biomedical engineering and beyond: Comparative overview and prospects. Biomaterials 2021, 266.
16. Yin L, Meng Z, Zhang Y, Hu K, Chen W, Han K, Wu BY, You R, Li CH, Jin Y, Guan YQ: Bacillus spore-based oral carriers loading curcumin for the therapy of colon cancer. Journal of Controlled Release 2018, 271:31-44.
17. Wu IL, Narayan K, Castaing JP, Tian F, Subramaniam S, Ramamurthi KS: A versatile nano display platform from bacterial spore coat proteins. Nature Communications 2015, 6:6777.
18. Clair G, Esbelin J, Mallea S, Bornard I, Carlin F: The spore coat is essential for Bacillus subtilis spore resistance to pulsed light, and pulsed light treatment eliminates some spore coat proteins. International Journal of Food Microbiology 2020, 323.
19. McKenney PT, Driks A, Eichenberger P: The Bacillus subtilis endospore: assembly and functions of the multilayered coat. Nature Reviews Microbiology 2013, 11:33-44.
20. Setlow P: Germination of Spores of Bacillus Species: What We Know and Do Not Know. Journal of Bacteriology 2014, 196:1297-1305.
21. Kaluzki I, Hailemariam-Jahn T, Doll M, Kaufmann R, Balermpas P, Zoeller N, Kippenberger S, Meissner M: Dimethylfumarate Inhibits Colorectal Carcinoma Cell Proliferation: Evidence for Cell Cycle Arrest, Apoptosis and Autophagy. Cells 2019, 8.
22. Qin S-Y, Cheng Y-J, Lei Q, Zhang A-Q, Zhang X-Z: Combinational strategy for high-performance cancer chemotherapy. Biomaterials 2018, 171:178-197.
23. Yu W, Shevtsov M, Chen X, Gao H: Advances in aggregatable nanoparticles for tumor-targeted drug delivery. Chinese Chemical Letters 2020, 31:1366-1374.
24. Zhang H, Dong S, Li Z, Feng X, Xu W, Tulinao CMS, Jiang Y, Ding J: Biointerface engineering nanoplatforms for cancer-targeted drug delivery. Asian Journal of Pharmaceutical Sciences 2020, 15:397-415.
25. Song Q, Zheng C, Jia J, Zhao H, Feng Q, Zhang H, Wang L, Zhang Z, Zhang Y: A Probiotic Spore-Based Oral Autonomous Nanoparticles Generator for Cancer Therapy. Adv Mater 2019, 31:e1903793.
26. Wei X, Liu L, Li X, Wang Y, Guo X, Zhao J, Zhou S: Selectively targeting tumor-associated macrophages and tumor cells with polymeric micelles for enhanced cancer chemo-immunotherapy. Journal of Controlled Release 2019, 313:42-53.
27. Zhao T, Zhou H, Lei L, Guo C, Yang Q, Gong T, Sun X, Song X, Gong T, Zhang Z: A new tandem peptide modified liposomal doxorubicin for tumor "ecological therapy". Nanoscale 2020, 12:3359-3369.
28. Zeng S, Ou H, Gao Z, Zhang J, Li C, Liu Q, Ding D: HCPT-peptide prodrug with tumor microenvironment -responsive morphology transformable characteristic for boosted bladder tumor chemotherapy. Journal of controlled release : official journal of the Controlled Release Society 2020, 330:715-725.
29. Wu H, Wang C, Sun J, Sun L, Wan J, Wang S, Gu D, Yu C, Yang C, He J, et al: Self-Assembled and Self-Monitored Sorafenib/Indocyanine Green Nanodrug with Synergistic Antitumor Activity Mediated by Hyperthermia and Reactive Oxygen Species-Induced Apoptosis. Acs Applied Materials & Interfaces 2019, 11:43996-44006.
30. Shamay Y, Shah J, Isik M, Mizrachi A, Leibold J, Tschaharganeh DF, Roxbury D, Budhathoki-Uprety J, Nawaly K, Sugarman JL, et al: Quantitative self-assembly prediction yields targeted nanomedicines. Nature Materials 2018, 17:361-+.
31. Li Y, Lin J, Ma J, Song L, Lin H, Tang B, Chen D, Su G, Ye S, Zhu X, et al: Methotrexate-Camptothecin Prodrug Nanoassemblies as a Versatile Nanoplatform for Biomodal Imaging-Guided Self-Active Targeted and Synergistic Chemotherapy. Acs Applied Materials & Interfaces 2017, 9:34650-34665.
32. Zhang A, Hai L, Wang T, Cheng H, Li M, He X, Wang K: NIR-triggered drug delivery system based on phospholipid coated ordered mesoporous carbon for synergistic chemo-photothermal therapy of cancer cells. Chinese Chemical Letters 2020, 31:3158-3162.
33. Wei L, Chen J, Ding J: Sequentially stimuli-responsive anticancer nanomedicines. Nanomedicine 2021, 16:261-264.
34. Xu Q, Ensign LM, Boylan NJ, Schoen A, Gong X, Yang J-C, Lamb NW, Cai S, Yu T, Freire E, Hanes J: Impact of Surface Polyethylene Glycol (PEG) Density on Biodegradable Nanoparticle Transport in Mucus ex Vivo and Distribution in Vivo. Acs Nano 2015, 9:9217-9227.
35. Murgia X, Loretz B, Hartwig O, Hittinger M, Lehr C-M: The role of mucus on drug transport and its potential to affect therapeutic outcomes. Advanced Drug Delivery Reviews 2018, 124:82-97.
36. Bansil R, Turner BS: The biology of mucus: Composition, synthesis and organization. Advanced Drug Delivery Reviews 2018, 124:3-15.
37. Menzel C, Bernkop-Schnuerch A: Enzyme decorated drug carriers: Targeted swords to cleave and overcome the mucus barrier. Advanced Drug Delivery Reviews 2018, 124:164-174.
38. Ren T, Wang Q, Xu Y, Cong L, Gou J, Tao X, Zhang Y, He H, Yin T, Zhang H, et al: Enhanced oral absorption and anticancer efficacy of cabazitaxel by overcoming intestinal mucus and epithelium barriers using surface polyethylene oxide (PEO) decorated positively charged polymer-lipid hybrid nanoparticles. Journal of Controlled Release 2018, 269:423-438.
39. Yang D, Liu D, Deng H, Zhang J, Qin M, Yuan L, Zou X, Shao B, Li H, Dai W, et al: Transferrin Functionization Elevates Transcytosis of Nanogranules across Epithelium by Triggering Polarity-Associated Transport Flow and Positive Cellular Feedback Loop. ACS Nano 2019, 13:5058-5076.
40. Wu L, Liu M, Shan W, Zhu X, Li L, Zhang Z, Huang Y: Bioinspired butyrate-functionalized nanovehicles for targeted oral delivery of biomacromolecular drugs. Journal of Controlled Release 2017, 262:273-283.
41. Bemena LD, Mukama O, Neiman AM, Li Z, Gao X-D, Nakanishi H: In vitro reconstitution of the yeast spore wall dityrosine layer discloses the mechanism of its assembly. Journal of Biological Chemistry 2017, 292:15880-15891.
42. Wang L, Hu Y, Hao Y, Li L, Zheng C, Zhao H, Niu M, Yin Y, Zhang Z, Zhang Y: Tumor-targeting core-shell structured nanoparticles for drug procedural controlled release and cancer sonodynamic combined therapy. Journal of Controlled Release 2018, 286:74-84.