Glatiramer Acetate Complexes CpG Oligodeoxynucleotides into Nanoparticles and Boosts Their TLR9-Driven Immunity

TLR9型 格拉默 化学 CpG寡核苷酸 CpG站点 免疫 纳米颗粒 先天免疫系统 细胞生物学 计算生物学 纳米技术 生物 生物化学 免疫学 受体 基因 免疫系统 材料科学 多发性硬化 基因表达 DNA甲基化
作者
Huan Gong,J. Daniel Griffin,Chad E. Groer,Sa Wu,Grant M. Downes,Grace Markum,Moustafa M. Abdelaziz,Nabil A. Alhakamy,M. Laird Forrest,Cory Berkland
出处
期刊:Molecular Pharmaceutics [American Chemical Society]
卷期号:21 (12): 6323-6338 被引量:7
标识
DOI:10.1021/acs.molpharmaceut.4c00841
摘要

Unmethylated cytosine-guanine oligodeoxynucleotides (CpG ODNs) have a storied history as agonists for Toll-like receptor 9 (TLR9). CpG ODNs have shown promising antitumor effects in preclinical studies by inducing potent proinflammatory immune responses. However, clinical success has been hindered by inconsistent efficacy and immune-related toxicities caused by systemic exposure to CpG ODNs. We previously identified that glatiramer acetate (GA), an FDA-approved, lysine-rich polypeptide, could complex class B CpG into cationic nanoparticles which persist at the intratumoral injection site while mitigating the induction of systemic proinflammatory cytokines in mouse tumor models. To extend GA applications across subtypes of CpG ODN (class A, B, and C), we evaluated physiochemical properties and identified the immunological signaling of GA and its complexes with different classes of CpG ODNs. We compared the physiochemical characteristics of three types of GA-CpG nanoparticles, followed by assessments of cell uptake efficiency and endolysosomal trafficking. We then performed successive in vitro and in vivo assays to evaluate immunological discrepancies. Complexation with GA preserved the immunological activity of CpG ODN subtypes while encapsulating them into cationic spherical nanoparticles. GA improved the cellular uptake of CpG ODNs, generally increased retention in early endosomes, and amplified immunological responses. A subsequent in vivo experiment confirmed the achievement of potent tumor suppression while mitigating systemic immune-related toxicities. Together, these data help elucidate the noncanonical role of GA to serve as a nucleic acid delivery scaffold that can improve the efficacy and safety of CpG adjuvant for clinical cancer immunotherapy.
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