Celso Tarso Rodrigues Viana scite author profile

Activation of the Wnt signaling pathway promotes lung cancer progression and contributes to poor patient prognosis. The porcupine inhibitor LGK974, a novel orally bioavailable cancer therapeutic in Phase I clinical trials, induces potent Wnt signaling inhibition and leads to suppressed growth and progression of multiple types of cancers. The clinical use of LGK974, however, is limited in part due to its low solubility and high toxicity in tissues that rely on Wnt signaling for normal homeostasis. Here, we report the use of host-guest chemistry to enhance the solubility and bioavailability of LGK974 in mice through complexation with cyclodextrins (CD). We assessed the effects of these complexes to inhibit Wnt signaling in lung adenocarcinomas that are typically driven by overactive Wnt signaling. 2D 1H NMR confirmed host-guest complexation of CDs with LGK974. CD:LGK974 complexes significantly decreased the expression of Wnt target genes in lung cancer organoids and in lung cancer allografts in mice. Further, CD:LGK974 complexes increased the bioavailability upon oral administration in mice compared to free LGK974. In a mouse lung cancer allograft model, CD:LGK974 complexes induced potent Wnt signaling inhibition with reduced intestinal toxicity compared to treatment with free drug. Collectively, the development of these complexes enables safer and repeated oral or parenteral administration of Wnt signaling inhibitors, which hold promise for the treatment of multiple types of malignancies.

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Synthetic matrix of polyether-polyurethane as a biological platform for pancreatic regeneration

Pereira

Viana

Orellano

et al. 2017

Life Sciences

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Ionizable Lipid Nanoparticle-Mediated Delivery of Plasmid DNA in Cardiomyocytes

Scalzo

Santos

Ferreira

et al. 2022

IJN

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PLGA nanofibers improves the antitumoral effect of daunorubicin

Guimarães

Oliveira

Gomes

et al. 2015

Colloids and Surfaces B: Biointerfaces

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Genetic strain differences in the development of peritoneal fibroproliferative processes in mice

Marques

Castro

Campos

et al. 2014

Wound Repair Regeneration

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Fibroproliferative processes are regulated by a wide variety of tissue components and genetic factors. However, whether there are genetic differences in peritoneal fibroproliferative tissue formation, with consequent differences in response to drug treatment, is unclear. We characterize the influence of the genetic background on peritoneal fibroproliferative tissue induced by sponge implants in DBA/1, Swiss, C57BL/6, and BALB/c mouse strains. In addition, responses to dipyridamole in the implants were evaluated. Angiogenesis, assessed by intra-implant hemoglobin content, was highest in Swiss mice, whereas levels of vascular endothelial growth factor were highest in C57BL/6 mice. The levels of pro-inflammatory cytokines and of inflammatory enzymes (myeloperoxidase- and N-acetyl-β-D-glucosaminidase) were also strain-related. The pro-fibrogenic markers transforming growth factor beta-1 and collagen were lowest in implants placed in DBA/1 mice, whereas those in C57BL/6 mice had the highest levels. Differential sensitivity to dipyridamole was also observed, with this compound being pro-angiogenic in implants placed in DBA/1 mice but antiangiogenic in implants placed in Swiss. An overall anti-inflammatory response was observed in the inbred strains. Antifibrogenic effects were observed only in implants placed in C57BL/6 mice. These important strain-related differences in the development of peritoneal fibrosis and in response to dipyridamole must be considered in the design and analysis of studies on fibrogenesis in mice.

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Amitriptyline Downregulates Chronic Inflammatory Response to Biomaterial in Mice

et al. 2020

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Deletion of the chemokine receptor CCR2 attenuates foreign body reaction to implants in mice

Castro

Marques

Viana

et al. 2014

Microvascular Research

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Erlotinib/hydroxypropyl-β-cyclodextrin inclusion complex: characterization and in vitro and in vivo evaluation

Gontijo

Guimarães

Viana

et al. 2015

J Incl Phenom Macrocycl Chem

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