Overexpression of Reactive Oxygen Species Modulator 1 Predicts Unfavorable Clinical Outcome in EGFR-Mutant Lung Adenocarcinomas Treated With Targeted Therapy

Dihydroartemisinin (DHA), a natural product derived from the herbal medicine Artemisia annua, is recently used as a novel anti-cancer agent. However, some intrinsic disadvantages limit its potential for clinical management of cancer patients, such as poor water solubility and low bioavailability. Nowadays, the nanoscale drug delivery system emerges as a hopeful platform for improve the anti-cancer treatment. Accordingly, a metal-organic framework (MOF) based on zeolitic imidazolate framework-8 was designed and synthesized to carry DHA in the core (ZIF-DHA). Contrast with free DHA, these prepared ZIF-DHA nanoparticles (NPs) displayed preferable anti-tumor therapeutic activity in several ovarian cancer cells accompanied with suppressed production of cellular reactive oxygen species (ROS) and induced apoptotic cell death. 4D-FastDIA-based mass spectrometry technology indicated that down-regulated reactive oxygen species modulator 1 (ROMO1) might be regarded as potential therapeutic targets for ZIF-DHA NPs. Overexpression of ROMO1 in ovarian cancer cells significantly reversed the cellular ROS-generation induced by ZIF-DHA, as well as the pro-apoptosis effects. Taken together, our study elucidated and highlighted the potential of zeolitic imidazolate framework-8-based MOF to improve the activity of DHA to treat ovarian cancer. Our findings suggested that these prepared ZIF-DHA NPs could be an attractive therapeutic strategy for ovarian cancer.

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Metal-organic framework-encapsulated dihydroartemisinin nanoparticles induces apoptotic cell death in ovarian cancer by blocking ROMO1-mediated ROS production

Yan

Yang

Han

et al. 2023

J Nanobiotechnol

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ROMO1 – a potential immunohistochemical prognostic marker for cancer development

Tsoneva,

Vasileva-Slaveva,

Kostov

et al. 2023

Oncologie

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Reactive Oxygen Species Modulator 1 (ROMO1) was first discovered in 2006, and its structural characteristics were elucidated by Lee et al. in 2018. This novel protein resides in the inner mitochondrial membrane and exerts control over the production of reactive oxygen species (ROS) by modulating membrane potential and permeability. ROS, in turn, plays a multifaceted role in cancer progression: at low concentrations, it serves as a critical player in cell signaling, influencing tumor suppression and immune system maintenance; at moderate concentrations, it promotes cancer progression, while high concentrations induce apoptosis. ROMO1, as a key regulator of intracellular ROS, significantly impacts cancer cell invasion and growth. Existing literature demonstrates that overexpression of ROMO1 is strongly associated with lymph node metastasis and a dismal prognosis in cancer patients, making it a promising prognostic factor for solid malignant tumors. ROMO1 can be investigated by various methods including immunohistochemistry (IHC) which is one very suitable method in our opinion.

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Overexpression of Reactive Oxygen Species Modulator 1 Predicts Unfavorable Clinical Outcome in EGFR-Mutant Lung Adenocarcinomas Treated With Targeted Therapy

Cited by 2 publications

References 42 publications

Metal-organic framework-encapsulated dihydroartemisinin nanoparticles induces apoptotic cell death in ovarian cancer by blocking ROMO1-mediated ROS production

Metal-organic framework-encapsulated dihydroartemisinin nanoparticles induces apoptotic cell death in ovarian cancer by blocking ROMO1-mediated ROS production

ROMO1 – a potential immunohistochemical prognostic marker for cancer development

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