Investigation of water‐insoluble hydrophobic polyethylenimines as <scp>RNAi</scp> vehicles in chronic myeloid leukemia therapy

Ansari, Aysha; Remant, K C; Jiang, Xiaoyan; Uludağ, Hasan

doi:10.1002/jbm.a.37214

Cited by 7 publications

(6 citation statements)

References 83 publications

(166 reference statements)

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“…Modified PEI holds significant promise for gene delivery, but selecting the appropriate approach to create successful gene carrier remains a challenge to attain satisfactory therapeutic effects. PEI1.2k is a branched PEI which has been successfully modified with lipids and utilized for both pDNA and siRNA delivery in our lab previously. − In this present study, we prepared a library of PEI1.2k-SA-Far polymers (PEI1.2k-SA-Far5, PEI1.2k-SA-Far7, and PEI1.2k-SA-Far9; named as the original mole fraction of SA-Far added to the reaction) from PEI1.2k and SA-Far as described in the experimental section and depicted in Figure a. Due to controlled substitution of hydrophobic SA-Far on hydrophilic PEI1.2k, the resulting lipopolymers prepared here remained water-soluble.…”

Section: Resultsmentioning

confidence: 99%

Tuning the Potency of Farnesol-Modified Polyethylenimine with Polyanionic Trans-Booster to Enhance DNA Delivery

Rajendran,

Morales,

Meenakshi Sundaram

et al. 2024

ACS Biomater. Sci. Eng.

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Low molecular weight polyethylenimine (PEI) based lipopolymers become an attractive strategy to construct nonviral therapeutic carriers with promising transfection efficiency and minimal toxicity. Herein, this paper presents the design and synthesis of novel farnesol (Far) conjugated PEI, namely PEI1.2k-SA-Far7. The polymers had quick DNA complexation, effective DNA unpacking (dissociation), and cellular uptake abilities when complexed with plasmid DNA. However, they were unable to provide robust transfection in culture, indicating inability of Far grafting to improve the transfection efficacy significantly. To overcome this limitation, the commercially available polyanionic Trans-Booster additive, which is capable of displaying electrostatic interaction with PEI1.2k-SA-Far7, has been used to enhance the uptake of pDNA polyplexes and transgene expression. pDNA condensation was successfully achieved in the presence of the Trans-Booster with more stable polyplexes, and in vitro transfection efficacy of the polyplexes was improved to be comparable to that obtained with an established reference reagent. The PEI1.2k-SA-Far7/pDNA/Trans-Booster ternary complex exhibited good compatibility with cells and minimal hemolysis activity. This work demonstrates the exemplary potency of using additives in polyplexes and the potential of resultant ternary complexes for effective pDNA delivery.

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Section: Resultsmentioning

confidence: 99%

Tuning the Potency of Farnesol-Modified Polyethylenimine with Polyanionic Trans-Booster to Enhance DNA Delivery

Rajendran,

Morales,

Meenakshi Sundaram

et al. 2024

ACS Biomater. Sci. Eng.

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“…Characterization results revealed that CHO-modified PEI had a significantly smaller size and an enhanced siRNA loading capacity compared with pure PEI. The good therapeutic effect of increased cell uptake was observed in the treatment of chronic myeloid leukemia [ 146 ]. By modifying PEI with tyrosine, Karimov et al were able to significantly enhance the transfection efficiency of siRNA, reduce PEI-induced toxicity, improve biocompatibility, and also show positive therapeutic effects in a mice tumor model.…”

Section: Sirna Nanocarriersmentioning

confidence: 99%

Research Status and Prospect of Non-Viral Vectors Based on siRNA: A Review

Tong

Liu

Cao

et al. 2023

IJMS

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Gene therapy has attracted much attention because of its unique mechanism of action, non-toxicity, and good tolerance, which can kill cancer cells without damaging healthy tissues. siRNA-based gene therapy can downregulate, enhance, or correct gene expression by introducing some nucleic acid into patient tissues. Routine treatment of hemophilia requires frequent intravenous injections of missing clotting protein. The high cost of combined therapy causes most patients to lack the best treatment resources. siRNA therapy has the potential of lasting treatment and even curing diseases. Compared with traditional surgery and chemotherapy, siRNA has fewer side effects and less damage to normal cells. The available therapies for degenerative diseases can only alleviate the symptoms of patients, while siRNA therapy drugs can upregulate gene expression, modify epigenetic changes, and stop the disease. In addition, siRNA also plays an important role in cardiovascular diseases, gastrointestinal diseases, and hepatitis B. However, free siRNA is easily degraded by nuclease and has a short half-life in the blood. Research has found that siRNA can be delivered to specific cells through appropriate vector selection and design to improve the therapeutic effect. The application of viral vectors is limited because of their high immunogenicity and low capacity, while non-viral vectors are widely used because of their low immunogenicity, low production cost, and high safety. This paper reviews the common non-viral vectors in recent years and introduces their advantages and disadvantages, as well as the latest application examples.

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“…One day after treatment with lipopolymer/siFLT3 complexes, cells were seeded in methylcellulose and colonies were counted as described previously (34). The colonies were stained by incubating with the MTT reagent for 2 h, followed by acquiring photographs of individual wells.…”

Section: Colony Formation Assaymentioning

confidence: 99%

Lipopolymer Mediated siRNA Delivery Targeting Aberrant Oncogenes for Effective Therapy of Myeloid Leukemia

Uludag,

Ansari,

et al. 2023

Preprint

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In contrast to exploiting proteins as targets like most conventional drugs and tyrosine kinase inhibitors (TKI), that are rendered futile in the face of emerging drug resistance, RNA Interference (RNAi) exerts its therapeutic action towards disease-driving aberrant genes. To realize the potential of RNAi, the major challenge is to efficiently deliver the therapeutic mediator of RNAi, small interfering RNA (siRNA) molecules. In this study, we explored the feasibility of using aliphatic lipid-grafted polymers (lipopolymers) for the delivery of siRNAs against the FLT3 oncogene in acute myeloid leukemia (AML) and BCR-ABL oncogene in chronic myeloid leukemia (CML). The lipopolymer delivered siRNA potently suppressed the proliferation AML and CML cells via silencing of the targeted oncogenes. In mouse subcutaneous xenograft models, intravenously administered lipopolymer/siRNA complexes displayed significant inhibitory effect on tumor growth. Combining siFLT3 complexes with gilteritinib allowed for reduction of effective drug dosage, longer duration of remission, and enhanced survival after relapse. Anti-leukemic activity of siBCR-ABL complexes was similar in wild-type and TKI-resistant cells, and therapeutic efficacy was confirmed in vivo through prolonged survival of the NCG hosts systemically implanted with TKI-resistant cells. These results demonstrate the preclinical efficacy of lipopolymer facilitated siRNA delivery, providing a novel therapeutic platform for myeloid leukemias.

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Investigation of water‐insoluble hydrophobic polyethylenimines as RNAi vehicles in chronic myeloid leukemia therapy

Cited by 7 publications

References 83 publications

Tuning the Potency of Farnesol-Modified Polyethylenimine with Polyanionic Trans-Booster to Enhance DNA Delivery

Tuning the Potency of Farnesol-Modified Polyethylenimine with Polyanionic Trans-Booster to Enhance DNA Delivery

Research Status and Prospect of Non-Viral Vectors Based on siRNA: A Review

Lipopolymer Mediated siRNA Delivery Targeting Aberrant Oncogenes for Effective Therapy of Myeloid Leukemia

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