Mitochondrion-Directed Nanoparticles Loaded with a Natural Compound and a microRNA for Promoting Cancer Cell Death via the Modulation of Tumor Metabolism and Mitochondrial Dynamics

Lo, Yu Li; Wang, Chen Shen; Chen, Yen-Chun; Wang, Tse Yuan; Chang, Yih Hsin; Chen, Chun‐Jung; Yang, Ching Ping

doi:10.3390/pharmaceutics12080756

Cited by 14 publications

(12 citation statements)

References 54 publications

(73 reference statements)

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“…However, due to the various bottlenecks, especially the poor pharmacokinetics and low potency of natural phytochemicals, future studies should focus on promoting the bioavailability of phytochemicals with new formulations or developing more potent analogues, such as nano-based drug delivery systems, 24 phytochemical-loaded chitosan-pectin core-shell nanoparticles, 26 glycosylation agents, 110 and functional snacks containing encapsulated phytochemicals, 111 to enhance the polarity and lighten the weak pharmacokinetic profile of natural products, facilitating their anti-cancer efficacy and even their conversion from bench to bedside. Furthermore, more studies should aim at designing and fabricating a novel nanocomplex for co-encapsulating two or multiple phytochemicals, which enable them to have synergistic anti-cancer potency.…”

Section: Future Perspectives and Conclusionmentioning

confidence: 99%

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Potential roles and molecular mechanisms of phytochemicals against cancer

2022

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Section: Future Perspectives and Conclusionmentioning

confidence: 99%

“…Phytochemicals, with natural plants being their potential sources and which include flavonoids, polyphenols, terpenoids, alkaloids, saponins, coumarins and so on, could target diverse signaling pathways, which may be a favorable way to block cancer progression and chemotherapy drug resistance. 15–38…”

Section: Phytochemicals For Cancer Prevention and Therapymentioning

confidence: 99%

Potential roles and molecular mechanisms of phytochemicals against cancer

2022

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“…Specifically, Irinotecan was efficiently delivered to the tumor mitochondria for targeted killing, while miR-200 suppressed tumor metastasis and increased tumor cell sensitivity to chemotherapy. Similarly, KLA-modified lipid nanoparticles were reported to load phytochemical agent Ellagic acid and miR-125 for a combinatorial therapy with effective inhibition of human tongue squamous carcinoma SAS cells (Lo et al, 2020).…”

Section: Small Molecule-modified Lipid Nanoparticlesmentioning

confidence: 99%

Subcellular delivery of lipid nanoparticles to endoplasmic reticulum and mitochondria

Shi

Luo

You

2022

WIREs Nanomed Nanobiotechnol

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Primarily responsible for the biogenesis and metabolism of biomolecules, endoplasmic reticulum (ER) and mitochondria are gradually becoming the targets of therapeutic modulation, whose physiological activities and pathological manifestations determine the functional capacity and even the survival of cells. Drug delivery systems with specific physicochemical properties (passive targeting), or modified by small molecular compounds, polypeptides, and biomembranes demonstrating tropism for ER and mitochondria (active targeting) are able to reduce the nonselective accumulation of drugs, enhancing efficacy while reducing side effects. Lipid nanoparticles feature high biocompatibility, diverse cargo loading, and flexible structure modification, which are frequently used for subcellular organelle‐targeted delivery of therapeutics. However, there is still a lack of systematic understanding of lipid nanoparticle‐based ER and mitochondria targeting. Herein, we review the pathological significance of drug selectively delivered to the ER and mitochondria. We also summarize the molecular basis and application prospects of lipid nanoparticle‐based ER and mitochondria targeting strategies, which may provide guidance for the prevention and treatment of associated diseases and disorders. This article is categorized under: Therapeutic Approaches and Drug Discovery > Nanomedicine for Oncologic Disease Biology‐Inspired Nanomaterials > Lipid‐Based Structures Nanotechnology Approaches to Biology > Nanoscale Systems in Biology Diagnostic Tools > In Vivo Nanodiagnostics and Imaging

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“…Natural drugs and active ingredients can also regulate MQC by modulating mitophagy, which may become a new strategy in the treatment of CVDs (Feng et al, 2017;Lo et al, 2020). Catalpol (CTL) increases myocardial mitophagy induced by glucose starvation and plays a protective role in the cardiomyocytes.…”

Section: Regulation Of Mitophagymentioning

confidence: 99%

“…As described above, natural drugs can control the quality of mitochondria by regulating their fission/fusion and energy metabolism, and autophagy, maintaining normal mitochondrial function (Takanashi et al, 2017;Arauna et al, 2019). As such, the effect of natural drugs on mitochondrial function has been investigated in previous studies on the material basis of natural drugs (Zhou H. et al, 2018;Lo et al, 2020). As shown in Figure 1 and Table 2, various natural drugs and active ingredients can protect mitochondrial function and structure by regulating MQC, and their effectiveness has been preliminarily verified in experimental studies of coronary atherosclerotic heart disease (CHD), acute myocardial infarction (AMI), heart failure (HF), myocardial I/R injury, and other CVDs.…”

Section: Regulation Of Mqc By Natural Drugs In Different Cvdsmentioning

confidence: 99%

Regulation of Mitochondrial Quality Control by Natural Drugs in the Treatment of Cardiovascular Diseases: Potential and Advantages

Chang

Zhang

Zhao

et al. 2020

Front. Cell Dev. Biol.

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Mitochondria are double-membraned cellular organelles that provide the required energy and metabolic intermediates to cardiomyocytes. Mitochondrial respiratory chain defects, structure abnormalities, and DNA mutations can affect the normal function of cardiomyocytes, causing an imbalance in intracellular calcium ion homeostasis, production of reactive oxygen species, and apoptosis. Mitochondrial quality control (MQC) is an important process that maintains mitochondrial homeostasis in cardiomyocytes and involves multi-level regulatory mechanisms, such as mitophagy, mitochondrial fission and fusion, mitochondrial energy metabolism, mitochondrial antioxidant system, and mitochondrial respiratory chain. Furthermore, MQC plays a role in the pathological mechanisms of various cardiovascular diseases (CVDs). In recent years, the regulatory effects of natural plants, drugs, and active ingredients on MQC in the context of CVDs have received significant attention. Effective active ingredients in natural drugs can influence the production of energy-supplying substances in the mitochondria, interfere with the expression of genes associated with mitochondrial energy requirements, and regulate various mechanisms of MQC modulation. Thus, these ingredients have therapeutic effects against CVDs. This review provides useful information about novel treatment options for CVDs and development of novel drugs targeting MQC.

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Mitochondrion-Directed Nanoparticles Loaded with a Natural Compound and a microRNA for Promoting Cancer Cell Death via the Modulation of Tumor Metabolism and Mitochondrial Dynamics

Cited by 14 publications

References 54 publications

Potential roles and molecular mechanisms of phytochemicals against cancer

Potential roles and molecular mechanisms of phytochemicals against cancer

Subcellular delivery of lipid nanoparticles to endoplasmic reticulum and mitochondria

Regulation of Mitochondrial Quality Control by Natural Drugs in the Treatment of Cardiovascular Diseases: Potential and Advantages

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