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CNRS彭玲研究員、中國藥大劉瀟璇教授 PNAS:基于bola型兩親性樹形分子實現核酸藥物選擇性和適應性遞送
2023-06-05  來源:高分子科技

  開發(fā)滿足不同特定需的功能材料在生物醫(yī)學中應用具有重的挑戰(zhàn)性。樹枝狀聚合物,憑借其精確的結構和多價協(xié)同性,定制精密功能材料典范。近日,法國國家科學研究中心-馬賽跨學科納米研究中心中國藥科大學合作并成功開發(fā)了一種基于bola型兩親性樹形分子bola-amphiphilic dendrimers)的精確載體平臺, 選擇性遞送不同類型核酸藥物siRNADNA(Figure 1)用于腫瘤治療。結果發(fā)表綜合性期刊Proceedings of the National Academy of Sciences of the U. S. A.(DOI: 10.1073/pnas.2220787120)


  合作團隊設計和開發(fā)了不同代數的bola型兩親性樹形分子對其遞送不同核酸分子的能力進行研究。結果表明,bola樹形分子的代數、核酸分子的大小以及bola樹形分子與核酸分子之間多價協(xié)同作用在很大程度上影響其選擇性遞送核酸分子的能力。例如,更高代數的bola8A有效地大尺寸質粒DNA 壓縮成小的納米復合物,顯著提高DNA靶細胞的攝取,展現出更優(yōu)異的DNA轉染活性;較低代數的bola4A則在有效保護短鏈siRNA分子的同時,高效地促進siRNA 的胞內釋放,進而發(fā)揮強有力的基因沉默效果 (Figure 2)。此外該類bola兩親性樹形分子所構建核酸藥物遞送系統(tǒng)能選擇性富集在腫瘤組織,并在腫瘤細胞內ROS刺激下特異性地釋放核酸,實現核酸藥物腫瘤細胞的靶向遞送。更令人欣喜的是,上述遞送體系在宮頸癌和卵巢異種移植小鼠腫瘤模型、以及高侵襲性的黑色素和三陰性乳腺癌轉移模型中,均表現出可媲美商業(yè)載體的核酸遞送效率,能夠精準調控致病基因的表達,發(fā)揮高效的抗腫瘤活性抗腫瘤轉移效果 (Figure 3)。本研究成果彰顯了bola型兩親性樹形分子作為按需定制核酸藥物遞送載體的巨大潛力。


  在過去的幾年中,法國國家科學研究中心-馬賽跨學科納米研究中心與中國藥科大學合作制備了一系列精確兩親性樹形分子用于核酸藥物遞送(Nat. Protoc.2021,16, 327–351; Chem. Commun. 2022, 58, 4168–4171),并系統(tǒng)總結了具有不同構型的兩親性樹形分子用于核酸藥物遞送優(yōu)點和局限性以及未來的發(fā)展方向(Acc. Mater. Res. 2022,3, 484-497)。推動核酸藥物遞送載體的開發(fā)奠定了研究基礎,為生物材料的開發(fā)和疾病的精準治療開辟了新的技術平臺和思路。


 Fig. 1. Bola-amphiphilic dendrimers for cargo-specific nucleic acid delivery. (A) Chemical structures of the bola-amphiphilic dendrimers bola2Abola4A, and bola8A studied in this work. (B) Cartoon illustration of bola-amphiphilic dendrimers bola4A and bola8A for cargo-selective and adaptive delivery of the two distinct nucleic acid types, DNA and siRNA. 


Fig. 2. Physicochemical characterization of and rationale behind the cargo-selective delivery performance of bola4A and bola8A. (A) The sizes and the ζ-potentials of the DNA/dendrimer complex and the siRNA/dendrimer complex obtained with DNA (24 ng/μL) at an N/P ratio of 2 and siRNA (1.0 μM) at an N/P ratio of 10. (B, C) Cellular uptake and intracellular trafficking of DNA and siRNA delivered by the bola-amphiphilic dendrimers bola4A and bola8A. Confocal imaging of the cellular uptake of (B) the DNA/dendrimer complexes (12 ng/μL YOYO-1-labeled DNA, N/P ratio of 1.0) and (C) the siRNA/dendrimer complexes (50 nM Cy5-labeled siRNA, N/P ratio of 10) in SKOV-3 cells, evaluated using confocal microscopy. The green channel image shows the YOYO-1-labeled DNA (green), the red channel image shows the Cy5-labeled siRNA (red), and the blue channel image shows the nuclei of the SKOV-3 cells stained by Hoechst33342 (blue). (D) The siRNA release from the siRNA/dendrimer complexes assessed using heparin-coupled ethidium bromide (EB) fluorescence assays. ***p < 0.001 versus siRNA/bola4A or siRNA/bola8A, and significance was determined using two-way ANOVA (mean ± SD, n = 3). Atomistic MD simulations of bola4A and bola8A in the presence of siRNA (E and F) and DNA (G and H), respectively. Bola4A atoms are shown as “firebrick spheres”, with the terminal charged amine groups highlighted in deep sky-blue, while bola8A atoms are depicted as dark red spheres with the terminal charged amines colored in navy blue. The siRNA (“orchid” light purple) and the DNA (dark purple) are portrayed as their van der Waals surface and the oxygen atoms in water are shown as cyan transparent spheres. Hydrogen atoms, ions and counterions (Na+ and Cl-) are omitted for clarity. (I) Binding data of bola4A and bola8A with siRNA and DNA as derived from atomistic MD simulations: free energy of effective binding (ΔGbind,eff), number of effective charges (Neff), and effective-charge-normalized free energy of binding (ΔGbind,eff/Neff) for the nucleic acid/dendrimer complexes are listed. 


Fig. 3. Effective inhibition of tumor metastasis using DNA and siRNA therapeutics delivered by bola8A and bola4A respectively in lung metastatic cancer model. (A-E) 4T1-luc metastatic tumor-bearing mice received intravenous injections of PBS buffer (control), p53 alone, p53/bola8A complex, p53/Lipo complex (2.0 mg/kg DNA, 1.5 mg/kg bola8A, N/P ratio of 1.0), siAKT2 alone, siAKT2/bola4A complex, or siAKT2/MC3 complex (1.0 mg/kg siRNA, 3.9 mg/kg bola4A, N/P ratio of 5.0) (n=5): (A) In vivo bioluminescence imaging of 4T1-luc tumor metastases in the mice. (B) Ex vivo bioluminescence imaging of 4T1-luc tumor metastases in the lung at the experimental end point post treatment. (C) Histological analysis of lung tissues from 4T1-luc metastatic tumor-bearing mice at the experimental end point post treatment. The metastatic lesions (red solid outlines) were identified as cell clusters with darkly stained nuclei. Scale bars, 1 mm. (D) p53 and (E) AKT2 protein expression revealed by immunohistochemistry staining after treatments. Scale bar, 200 μm. (F-J) B16-F10-luc metastatic tumor-bearing mice received intravenous injections of PBS buffer (control), p53 alone, p53/bola8A complex, p53/JetPEI complex (2.0 mg/kg DNA, 1.5 mg/kg bola8A, N/P ratio of 1.0), siAKT2 alone, siAKT2/bola4A complex, or siAKT2/MC3 complex (1.0 mg/kg siRNA, 3.9 mg/kg bola4A, N/P ratio of 5.0) (n=5): (F) in vivo bioluminescence imaging of B16-F10-luc tumor metastases in the mice. (G) Ex vivo bioluminescence imaging of B16-F10-luc tumor metastases in the lung tissue or images of excised lung tissues at the experimental end point post treatment. (H) Histological analysis of lung tissues from B16-F10-luc metastatic tumor-bearing mice at the experimental end point post treatment. The metastatic lesions (red solid outline) were identified as cell clusters with darkly stained nuclei. Scale bars, 1.0 mm. (I) p53 and (J) AKT2 protein expression revealed by immunohistochemistry staining after treatments. Scale bar, 200 μm. p53: plasmid DNA expressing tumor suppressor protein p53, siAKT2: siRNA targeting AKT2.


  中國藥科大學藥物科學研究院博士后陳家軒(中國藥科大學與法國艾克斯-馬賽大學聯(lián)合培養(yǎng)博士)和博士后朱丹丹為本文共同第一作者。中國藥科大學藥物科學研究院劉瀟璇教授和法國國家科學研究中心-馬賽跨學科納米研究中心彭玲研究員為本文共同通訊作者。


  原文鏈接https://www.pnas.org/doi/10.1073/pnas.2220787120

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