Lung cancer remains the most common cancer worldwide. Although significant advances in screening have been made and early diagnosis strategies and therapeutic regimens have been developed, the overall survival rate remains bleak. Curcumin is extracted from the rhizomes of turmeric and exhibits a wide range of biological activities. In lung cancer, evidence has shown that curcumin can markedly inhibit tumor growth, invasion and metastasis, overcome resistance to therapy, and even eliminate cancer stem cells (CSCs). Herein, the underlying molecular mechanisms of curcumin were summarized by distinct biological processes. To solve the limiting factors that curtail the clinical applications of curcumin, nanoformulations encapsulating curcumin were surveyed in detail. Nanoparticles, including liposomes, micelles, carbon nanotubes (CNTs), solid lipid nanoparticles (SLNs), nanosuspensions, and nanoemulsions, were explored as proper carriers of curcumin. Moreover, it was firmly verified that curcumin has the ability to sensitize lung cancer cells to chemotherapeutic drugs, such as cisplatin and docetaxel, and to various targeted therapies. Regarding the advantages and drawbacks of curcumin, we concluded that combination therapy based on nanoparticles would be the optimal approach to broaden the application of curcumin in the clinic in the near future.
Aims: Bai-He-Gu-Jin-Tang (BHGJT) is a classic Chinese formula used to treat lung cancer, while the underlying molecular mechanism remains obscure. The aim of the study was to investigate the molecular mechanism of BHGJT on lung cancer and demonstrate the potential for synergistic treatment combining BHGJT with conventional therapy. Methods: Cell viability assay, colony formation assay and EdU assay were used to determine the in vitro effects of BHGJT, and a subcutaneous xenograft model was used to evaluate the in vivo effect. Cell cycle analysis, apoptosis rate analysis, immunohistochemical and immunofluorescent staining, Western blot assays and network pharmacology-based analysis were used to explore the underlying mechanisms. Results: We found that BHGJT inhibited cell proliferation via a dose-dependent pathway and obviously hindered tumor growth in vivo in lung cancer. Cell cycle arrest and apoptosis were pronouncedly induced by BHGJT via dysregulation of the cell cycle regulators CDK4 and Cyclin D1 and dysregulation of apoptosis-associated proteins, such as cleaved caspase 3/9 and the BCL-2 family. Based on a network pharmacology-based analysis and experimental evidence, we demonstrated that the AKT/GSK3β/ β-catenin signaling pathways were responsible for BHGJT-induced apoptosis in lung cancer cells. Additionally, autophagy was induced by BHGJT via the AMPK/mTORC1/ULK1 signaling pathway, and blocking autophagy with either chloroquine or a ULK1 inhibitor increased the killing efficiency of BHGJT in lung cancer cells. Conclusion:Our findings indicate that the BHGJT formula efficiently inhibits lung cancer growth and represents a potential complementary and alternative treatment for lung cancer.
The risk of gastrointestinal (GI) events induced by nonoperative therapies in patients with neuroendocrine tumors (NETs) is unclear. Nonoperative therapies include somatostatin analogs, molecular targeted agents, cytotoxic chemotherapy, interferon-α, and peptide receptor radionuclide therapy. We undertook an up-to-date meta-analysis to determine the incidence and relative risks (RRs) of GI events in NET patients treated with these therapies. MEDLINE, EMBASE, the Cochrane Central Register of Controlled Trials, and ClinicalTrials.gov were searched to identify relevant trials. Eligible trials were selected according to the PRISMA statement. Summary incidence, RR, and 95% CIs were calculated using random- and fixed-effects models. We included 2,890 patients from 17 randomized controlled trials in this meta-analysis. The experimental treatments led to increased incidence and risks of GI events compared to the control treatments (P<0.05). Diarrhea was the most common GI event. The experimental treatments were associated with increased risks of high-grade nausea (RR 2.36; 95% CI 1.05–5.25; P<0.01) and vomiting (RR 1.89; 95% CI 1.04–3.44; P<0.05). In regard to specific therapy regimens, everolimus led to increased risks of diarrhea (RR 2.97; 95% CI 1.83–4.83; P<0.05), vomiting (RR 2.19; 95% CI 1.38–3.48; P<0.05), and anorexia (RR 3.20; 95% CI 1.69–6.06; P<0.05), whereas VEGFR inhibitors led to increased risk of diarrhea (RR 2.12; 95% CI 1.39–3.25; P<0.05). Additionally, GI NETs led to higher risk of GI events than pancreatic NETs. Thus, nonoperative therapies are associated with increased risks of GI events in NET patients, and rigorous management is warranted to minimize the adverse impact on treatment outcomes and to improve quality of life.
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