Purpose
Colorectal cancer (CRC) is the third most frequently diagnosed cancer and this study aimed to develop a conatumumab decorated, irinotecan prodrug and quercetin co-loaded delivery system for combined and targeted colorectal cancer treatment.
Methods
A conatumumab (C) decorated, irinotecan prodrug (I-p) and quercetin (Q) co-encapsulated NLC (C I-p/Q NLC) was developed.
In vitro
and
in vivo
antitumor efficiency of NLC was evaluated on CRC cells and mice xenograft.
Results
The results showed that the HT-29 cells uptake of C I-p/Q NLC was over 70%. Reactive oxygen species (ROS) sensitive irinotecan prodrug formulation showed improved drug release ability in hypoxic conditions. C I-p/Q NLC showed significantly higher cytotoxicity than non-decorated NLC, single drug-loaded NLC and free drugs.
In vivo
studies in a CRC-bearing model corroborated the capability of nanoparticles for the inhibition of cancer, leading to a reduction of tumor growth without systemic toxicity.
Conclusion
The conatumumab decorated, ROS sensitive prodrug contained combination nano-system is a promising platform for CRC therapy.
Background
This study was aimed at establishing a nomogram for survival prediction of Colorectal squamous cell carcinoma (CSCC), understanding the molecular pathogenesis, exploring a better treatment, and predicting the potential therapeutic agents.
Methods
Surveillance, Epidemiology, and End Results (SEER) database was used to obtained CSCC patients and the nomogram was performed. Propensity score matching (PSM), Kaplan–Meier analysis, subgroup analysis, and interaction test were used to explore the better treatment strategy for CSCC. Bioinformatics were used to explore the molecular mechanism and potential therapeutic drugs of CSCC.
Results
A total of 3949 CSCC patients were studied. The nomogram was constructed and evaluated to have a good performance. We found that the radiotherapy had a better effect than surgery, and the difference between radiotherapy and combined therapy was not significant. 821 differentially expressed genes in CSCC were obtained from GSE6988 dataset. DNA damage repair, mismatch repair, and cell cycle pathways might contribute to CSCC occurrence as indicated by KEGGpathway and GSEA analysis. Transcription factors analysis revealed that TP63 and STAT1 may have an important role in occurrence and development of CSCC. 1607 potential drugs against CSCC were found using the CMAP database, and molecular docking was carried out to show the binding energy between TP63 and drugs.
Conclusions
A good prognosis nomogram was constructed for CSCC. We also have a better understanding of the underlying molecular mechanisms of occurrence and development of CSCC and predicted potential therapeutic drugs, providing a theoretical basis for the treatment of CSCC.
Background
Gastric cancer (GC) is one of the major public health problems worldwide with high morbidity and mortality. Nowadays, traditional medicine may hold promise for the treatment of cancers. Gossypol-acetic acid (GAA) is a male contraceptive agent that shows anti-tumor effects on multiple types of cancers. However, whether GAA would inhibit the progression of GC remained unclear.
Methods
The potential targets of GAA were predicted by the Pharmmapper software and GC-related genes were obtained from the GeneCard database. The “GC-targets-GAA” network was constructed using the Cytoscape software. The PPI analysis of intersection genes was performed using the String software. The Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway analyses were performed using the DAVID software to explore the potential mechanism underlying the regulatory role of GAA in GC. The MTS test, plate cloning test, cell cycle and apoptosis assays were used to verify the function of GAA in GC.
Results
Ten hub genes related to cell cycle progression and apoptosis were identified. Many cancer-related signaling pathways were visualized by the Cytoscape software. Among them, the PI3K-Akt signaling pathway was the highest-ranked pathway. The MTS test and plate cloning test showed that GAA inhibited the proliferation of GC cells. The cell cycle and apoptosis assays showed that GAA induced G1 phase cell cycle arrest and apoptosis in GC cells.
Conclusion
Our study demonstrated the anti-tumor effect of GAA on GC through multiple targets and signaling pathways. These results provided a theoretical basis for further investigation of GAA in preclinical and clinical studies, and suggested the potential use of GAA as a novel therapeutic agent for the treatment of GC.
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