Fadi Obeid scite author profile

TSPO is involved in cigarette smoke (CS)-induced cellular toxicity, which may result in oral and pulmonary diseases and lung cancer. H1299 lung cancer cells were exposed directly to CS. The H1299 cells were pretreated with our TSPO ligands MGV-1 and 2-Cl-MGV-1 (Ki = 825 nM for both) at a concentration of 25 µM 24 h prior to CS exposure. Cell death and apoptotic markers were measured, in addition to TSPO expression levels, ATP synthase activity, generation of reactive oxygen species (ROS), depolarization of mitochondrial membrane potential (ΔΨm), cAMP and LDH levels. Pretreatment with MGV-1 and 2-Cl-MGV-1 (25 µM), 24 h prior to CS exposure, differentially attenuated the CS-induced cellular insult as well as cell death in H1299 lung cancer cells. These protective effects included prevention of ATP synthase reversal, ROS generation, depolarization of the mitochondrial membrane and elevation in LDH. The preventive efficacy of 2-Cl-MGV-1 was superior to that achieved by MGV-1. Both ligands did not prevent the elevation in cAMP. These findings may indicate a mild protective effect of these TSPO ligands in CS-related pulmonary and keratinocyte cellular pathology.

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Focused Ultrasound Enhances Brain Delivery of Sorafenib Nanoparticles

Dahis

Azagury

Obeid

et al. 2022

Advanced NanoBiomed Research

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Glioblastoma (GBM) is a universally lethal form of brain cancer. The success of novel treatments is hindered by the blood–brain barrier (BBB), which prevents most drugs from penetrating GBM tumors. Sorafenib (SFB), a proapoptotic multikinase inhibitor, has been investigated for the treatment of GBM; however, survival benefit among patients has not improved. Recently, an indocyanine‐stabilized nanoparticulate form of SFB (SFB NPs) with improved tumor accumulation was developed in comparison to SFB alone. Herein, the benefit of SFB NPs and focused ultrasound (FUS)‐mediated BBB disruption is assessed to enable noninvasive, safe, and reversible BBB permeation for enhanced SFB NPs brain accumulation. Treatment of SFB NPs and FUS yields lower IC50 values (2.7 and 29 μm in 2D and 3D U87 cell models vs 7.5 and 37.1 μm for SFB NPs alone). SFB NPs and FUS with microbubbles improve SFB NPs uptake by U87 cells compared to SFB NPs alone (46% increase; p = 0.0123). In vivo, FUS enhances SFB NPs brain accumulation by 2.5‐fold compared to the contralateral hemisphere, and 3.6‐fold compared to unsonicated brains. In conclusion, SFB NPs are a promising agent for GBM treatment and its therapeutic capacity can be potentially enhanced when combined with FUS‐mediated BBB disruption.

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Correction to: Liposomal Carrier Conjugated to APP-Derived Peptide for Brain Cancer Treatment

et al. 2021

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Fadi Obeid

Liposomal Carrier Conjugated to APP-Derived Peptide for Brain Cancer Treatment

The TSPO Ligands MGV-1 and 2-Cl-MGV-1 Differentially Inhibit the Cigarette Smoke-Induced Cytotoxicity to H1299 Lung Cancer Cells

Focused Ultrasound Enhances Brain Delivery of Sorafenib Nanoparticles

Correction to: Liposomal Carrier Conjugated to APP-Derived Peptide for Brain Cancer Treatment

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