Gemcitabine–Lipid Conjugate and ONC201 Combination Therapy Effectively Treats Orthotopic Pancreatic Tumor-Bearing Mice

Shrestha, Prakash; Ghanwatkar, Yashwardhan; Mahto, Sohan; Pramanik, Nilkamal; Mahato, Ram I.

doi:10.1021/acsami.4c02626

Cited by 2 publications

(1 citation statement)

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“… 88 Similarly, some scholars have constructed Gemcitabine and ONC201 liposomal dual drug delivery systems through a disulfide bond, which also shows unique advantages in anti-tumor and has a broad application prospect for the treatment of pancreatic ductal adenocarcinoma. 89 However, research indicates significant issues with the current manufacturing processes of liposomes and the low efficiency of intracellular delivery, limiting their widespread clinical application. 90 …”

Section: Type Of Drug Delivery Carrier Based On Disulfide Bondmentioning

confidence: 99%

Research Progress of Disulfide Bond Based Tumor Microenvironment Targeted Drug Delivery System

Ma,

Wang,

Zhang

et al. 2024

IJN

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Cancer poses a significant threat to human life and health. Chemotherapy is currently one of the effective cancer treatments, but many chemotherapy drugs have cell toxicity, low solubility, poor stability, a narrow therapeutic window, and unfavorable pharmacokinetic properties. To solve the above problems, target drug delivery to tumor cells, and reduce the side effects of drugs, an anti-tumor drug delivery system based on tumor microenvironment has become a focus of research in recent years. The construction of a reduction-sensitive nanomedicine delivery system based on disulfide bonds has attracted much attention. Disulfide bonds have good reductive responsiveness and can effectively target the high glutathione (GSH) levels in the tumor environment, enabling precise drug delivery. To further enhance targeting and accelerate drug release, disulfide bonds are often combined with pH-responsive nanocarriers and highly expressed ligands in tumor cells to construct drug delivery systems. Disulfide bonds can connect drug molecules and polymer molecules in the drug delivery system, as well as between different drug molecules and carrier molecules. This article summarized the drug delivery systems (DDS) that researchers have constructed in recent years based on disulfide bond drug delivery systems targeting the tumor microenvironment, disulfide bond cleavage-triggering conditions, various drug loading strategies, and carrier design. In this review, we also discuss the controlled release mechanisms and effects of these DDS and further discuss the clinical applicability of delivery systems based on disulfide bonds and the challenges faced in clinical translation.

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Section: Type Of Drug Delivery Carrier Based On Disulfide Bondmentioning

confidence: 99%