[융합과학부] Enhancing cancer immunotherapy using biomaterials

Speaker: 박천권 교수(성균관대학교)

Date & Time: 2018. 11. 28.(수), 17:00

Where: 융대원 D-122호

Abstract

Unlike traditional approaches in oncology, cancer immunotherapy harnesses a patient’s coordinated and adaptive immune system in order to combat the disease. Recent clinical data have supported the utility of this therapeutic modality. The benefits of cancer immunotherapy include the potential 1) to treat all types of cancer, regardless of the underlying mutations or cell of origin; 2) to prevent metastasis and relapse by generating memory antitumor immunity; and 3) to decrease side effects relative to conventional cytotoxic treatment approaches (e.g., chemotherapy and radiotherapy). Still, the therapeutic index of cancer immunotherapy must be improved, since the proportion of patients responding to this approach remains unsatisfactory and the therapy often causes systemic toxicity following parental administration. To address these issues, we used various biomaterials-based drug delivery approaches to deliver immunomodulatory compounds in a spatiotemporally controlled manner in order to improve their efficacy and safety relative to conventional systemic administration.
In one example, we designed and prepared a hydrogel loaded with a combination of immunomodulatory drugs. We showed that a majority of mice were cured after administration of the hydrogel, which sustained the release of the immunotherapy. In contrast, most mice succumbed to tumor recurrence and metastasis following systemic or local administration of the same therapeutic combination in solution. In a second example, we developed antibody-targeted nanoparticles to target the delivery of immunomodulatory small molecules to specific endogenous immune cell subsets, including PD-1-expressing cells, in order to improve the efficacy and safety of the drug. We showed that the nanoparticles could specifically bind to the targeted cells in blood as well as tumors. Targeted delivery of the drug delayed tumor growth and extended the survival of tumor-bearing mice.
Our findings suggest that properly designed biomaterials and drug delivery technologies are useful tools to ensure sustained and/or targeted delivery of immunomodulatory compounds. Spatiotemporal control of drug release can harness the full potential of cancer immunotherapy, improving its efficacy while minimizing its toxicity by concentrating the action of such compounds on the relevant cells.

Biography

Ph.D. at Seoul National University, Republic of Korea [2009 – 2014]

– Major in Bioengineering (Biomaterials and Drug-Delivery)

B.S. at Hanyang University, Republic of Korea [2005 – 2009]

– Major in Media Communications Engineering (Electrical Engineering)

 

초청자 : 융합과학부 나노융합전공 이강원 교수 (kangwonlee@snu.ac.kr)

2018-11-27|