Enhanced Postsurgical Cancer Treatment Using Methacrylated Glycol Chitosan Hydrogel for Sustained DNA/Doxorubicin Delivery and Immunotherapyopen access
- Authors
- SEO, Hee Seung; Han, Jun-Hyeok; Lim, Jaesung; Bae, Ga-Hyun; Byun, Min Ji; WANG, CHI-PIN JAMES; Han, Jieun; Park, Juwon; Park, Hee Ho; Shin, MI KYUNG; Park, Tae-Eun; Kim, Tae hyung; Kim, Se-Na; Park, Woo Ram; Park, Chun Gwon
- Issue Date
- Mar-2024
- Publisher
- The Korean Society for Biomaterials | BioMed Central
- Citation
- Biomaterials Research, v.28, pp 1 - 14
- Pages
- 14
- Indexed
- SCIE
SCOPUS
KCI
- Journal Title
- Biomaterials Research
- Volume
- 28
- Start Page
- 1
- End Page
- 14
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/197526
- DOI
- 10.34133/bmr.0008
- ISSN
- 1226-4601
2055-7124
- Abstract
- Background: Cancer recurrence and metastasis are major contributors to treatment failure following tumor resection surgery. We developed a novel implantable drug delivery system utilizing glycol chitosan to address these issues. Glycol chitosan is a natural adjuvant, inducing dendritic cell activation to promote T helper 1 cell immune responses, macrophage activation, and cytokine production. Effective antigen production by dendritic cells initiates T-cell-mediated immune responses, aiding tumor growth control. Methods: In this study, we fabricated multifunctional methacrylated glycol chitosan (MGC) hydrogels with extended release of DNA/doxorubicin (DOX) complex for cancer immunotherapy. We constructed the resection model of breast cancer to verify the anticancer effects of MGC hydrogel with DNA/DOX complex. Results: This study demonstrated the potential of MGC hydrogel with extended release of DNA/DOX complex for local and efficient cancer therapy. The MGC hydrogel was implanted directly into the surgical site after tumor resection, activating tumor-related immune cells both locally and over a prolonged period of time through immune-reactive molecules. Conclusions: The MGC hydrogel effectively suppressed tumor recurrence and metastasis while enhancing immunotherapeutic efficacy and minimizing side effects. This biomaterial-based drug delivery system, combined with cancer immunotherapy, can substantial improve treatment outcomes and patient prognosis.
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