Multifunctional Self-Assembled DNA Nanospheres for Glioma Fluorescence/Magnetic Resonance Imaging and Therapy

Xu, Chunye; Liu, Qianqian; Shi, Jinlong; Liu, Zongheng; Lei, Zhu; Dai, Chengsi; Shi, Wei; Xu, Xide; Guo, Yuehua

doi:10.1021/acsanm.4c03033

ACS Appl. Nano Mater.

2024

DOI: 10.1021/acsanm.4c03033

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Multifunctional Self-Assembled DNA Nanospheres for Glioma Fluorescence/Magnetic Resonance Imaging and Therapy

Chunye Xu,

Qianqian Liu,

Jinlong Shi

et al.

Abstract: DNA molecules can form predictable nanostructures through sequence-directed hybridization. In this study, DNA nanospheres were designed for fluorescence/magnetic resonance imaging and drug delivery in glioma-bearing mice. DNA nanospheres were constructed using Y-shaped DNA, linker DNA, and an DNA aptamer through the hybridization of their sticky ends. Linker DNA was assembled by an i-motif sequence with its complementary strand and could cause pH-responsive dissociation of double strands. The DNA aptamer with … Show more

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DNA‐Based Nanocarriers to Sequester Altered microRNAs in Cardiac Dysfunction

Postigo,

Hernández‐Bellido,

Sánchez‐Barat

et al. 2024

Advanced Therapeutics

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MicroRNAs (miRs) play a critical role in modulating gene expression across biological processes, including cardiac aging and disease. As such, miRs have demonstrated therapeutic potential in several cardiac conditions. Efficient delivery of miR therapies to cardiac tissue is crucial for effective gene therapy and DNA‐based nanocarriers (DNCs), based on Watson‐Crick‐Franklin highly specific base‐pair recognition, have emerged as a promising, biocompatible alternative to viral‐based methods. Here, DNCs designed to modulate miR levels as a potential treatment for cardiac dysfunction are presented. Specifically, the DNCs target miR‐24‐2, which inhibits SERCA2 gene. In humans, the reduction of SERCA2 activity is a hallmark of heart failure and is altered in cardiac aging. The assembled DNCs bearing anti‐miR‐24‐2‐5p sequences effectively restore intracellular levels of SERCA2 in a HEK293 cell model. The DNCs proper assembly is thoroughly verified, while their stability and miR‐capture ability are demonstrated in vitro. The DNCs exhibit successful internalization into HEK293 and modest uptake into human cardiomyocytes. SERCA2 restoration by DNCs is significantly influenced by the miR‐capture sequence layout, underscoring the importance of precise design for optimal biological outcomes. This study highlights the potential of DNCs in cardiac therapies, a previously unexplored avenue for addressing cardiac dysfunction.

show abstract

DNA‐Based Nanocarriers to Sequester Altered microRNAs in Cardiac Dysfunction

Postigo,

Hernández‐Bellido,

Sánchez‐Barat

et al. 2024

Advanced Therapeutics

View full text Add to dashboard Cite

show abstract

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Multifunctional Self-Assembled DNA Nanospheres for Glioma Fluorescence/Magnetic Resonance Imaging and Therapy

Cited by 1 publication

References 36 publications

DNA‐Based Nanocarriers to Sequester Altered microRNAs in Cardiac Dysfunction

DNA‐Based Nanocarriers to Sequester Altered microRNAs in Cardiac Dysfunction

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