Lung cancer is the most common cause of cancer-related deaths worldwide. More efficient treatments are desperately needed. For decades, the success of platinum-based anticancer drugs has promoted the exploration of metal-based agents. Four ruthenium-based complexes have also entered clinical trials as candidates of anticancer metallodrugs. However, systemic toxicity, severe side effects and drug-resistance impeded their applications and efficacy. Stimuli-responsiveness of Pt- and Ru-based complexes provide a great chance to weaken the side effects and strengthen the clinical efficacy in drug design. This review provides an overview on the stimuli-responsive Pt- and Ru-based metallic anticancer drugs for lung cancer. They are categorized as endo-stimuli-responsive, exo-stimuli-responsive, and dual-stimuli-responsive prodrugs based on the nature of stimuli. We describe various representative examples of structure, response mechanism, and potential medical applications in lung cancer. In the end, we discuss the future opportunities and challenges in this field.
Purpose To identify molecular basis of four parameters obtained from dynamic contrast-enhanced magnetic resonance imaging, including functional tumor volume (FTV), longest diameter (LD), sphericity, and contralateral background parenchymal enhancement (BPE). Material and methods Pretreatment-available gene expression profiling and different treatment timepoints MRI features were integrated for Spearman correlation analysis. MRI feature-related genes were submitted to hypergeometric distribution-based gene functional enrichment analysis to identify related Kyoto Encyclopedia of Genes and Genomes annotation. Gene set variation analysis was utilized to assess the infiltration of distinct immune cells, which were used to determine relationships between immune phenotypes and medical imaging phenotypes. The clinical significance of MRI and relevant molecular features were analyzed to identify their prediction performance of neoadjuvant chemotherapy (NAC) and prognostic impact. Results Three hundred and eighty-three patients were included for integrative analysis of MRI features and molecular information. FTV, LD, and sphericity measurements were most positively significantly correlated with proliferation-, signal transmission-, and immune-related pathways, respectively. However, BPE did not show marked correlation relationships with gene expression alteration status. FTV, LD and sphericity all showed significant positively or negatively correlated with some immune-related processes and immune cell infiltration levels. Sphericity decreased at 3 cycles after treatment initiation was also markedly negatively related to baseline sphericity measurements and immune signatures. Its decreased status could act as a predictor for prediction of response to NAC. Conclusion Different MRI features capture different tumor molecular characteristics that could explain their corresponding clinical significance.
Objectives Previous studies have shown that tripartite motif-containing 28 (TRIM28) might be a latent target for cancer therapy. However, the detailed roles and mechanisms of TRIM28 in hepatocellular carcinoma (HCC) remain ambiguous. Methods We systematically analyzed TRIM28 mRNA expression and protein levels in HCC tissues based on large-scale data and publicly available immunohistochemistry images. We estimated the prognostic capacity of TRIM28 in HCC. Additionally, we performed gene enrichment, immune infiltration, and drug sensitivity analyses to further explore the roles of TRIM28 in HCC. To determine the effect of TRIM28 expression on HCC cell proliferation and migration, successful transfection of siRNAs was conducted in MHCC97-L and Huh7 cells, followed by cell functional assays. Results We verified the overexpression of TRIM28 in HCC at the mRNA and protein levels. The summary receiver operating characteristics curve with the area under curve of 0.84 (95 % CI: 0.81–0.87) indicated the high accuracy of increasing TRIM28 expression for discriminating HCC from non-HCC tissues. According to The Cancer Genome Atlas datasets, TRIM28 mRNA expression was significantly related to age, grade, stage, and pathologic T (p<0.05). Increased TRIM28 expression levels were significant correlated to poor survival in HCC patients. An enrichment analysis suggested that TRIM28-reated genes primarily participated in the spliceosome signaling pathway, with hub genes including SNRPA1, SNRPF, SNRPD1, SF3B2, SNRPB, SNRPE, and EFTUD2. TRIM28 expression was correlated with the infiltration of five immune cells. Higher TRIM28 expression was linked to better sensitivity of tumor cells to pluripotin. Molecular docking showed that pluripotin could bind to TRIM28. Further, knockdown of TRIM28 inhibited the proliferation and migration of HCC cells. Conclusions TRIM28 is highly expressed in HCC and contribute to the proliferation and migration of HCC cells, leading to unfavorable outcomes. These findings indicate TRIM28 promise as a novel prognostic indicator.
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