Updated Review and Perspective on 20S Proteasome Inhibitors in the Treatment of Lung Cancer

2020 ◽  
Vol 20 (6) ◽  
pp. 392-409
Author(s):  
Sagar O. Rohondia ◽  
Zainab Sabry Othman Ahmed ◽  
Q. Ping Dou

: Lung cancer is the leading cause of cancer-related deaths worldwide. Most lung cancer patients are diagnosed at advanced stages and may benefit from pembrolizumab (anti-PD-1 antibody), cytotoxic chemotherapy and other adjuvant therapies. Despite the availability of various therapies, the response and survival rates have been low. Therefore, the study of different targets for the treatment of lung cancer has been one of the major focuses of cancer research. : The ubiquitin proteasome system (UPS) is a crucial regulator of cell homeostasis and plays an essential role in the growth and development of all cells. The UPS is dysregulated in human cancer cells including lung cancer cells. Therefore, targeting UPS is potentially a selective, effective treatment for lung cancer. Bortezomib, a 20S proteasome inhibitor that is clinically approved for the management of multiple myeloma, has been studied in various preclinical and clinical models of lung cancer. : Most preclinical studies have shown that a 20S proteasome inhibitor alone and its combination with other chemotherapeutic agents induce apoptosis in non-small cell lung cancer cell lines and animal models. Owing to the impressive preclinical results, many clinical trials were initiated using 20S proteasome inhibitors either as monotherapy or in combination with other conventional lung cancer therapies. Many combinational therapies of 20S PIs with conventional chemotherapy were shown to be well tolerated in clinical trials. However, there have not been any consistent data showing the beneficial effects of such proteasome inhibitor-based therapies. Low clinical efficacy of 20S PIs in lung cancer patients may be due to low drug penetration, the status of 20S proteasomes, oncogene expressions and the inherited or acquired resistance. Potential mechanisms of PI resistance or low or no clinical activity in lung cancer cells might include alteration of apoptotic proteins, overexpression or alteration of β5 subunit, or upregulation of heat shock proteins. Various cutting-edge strategies to counter this resistance or improve 20S PIs’ efficacy in lung cancer cells have been reviewed which include novel combination therapies, new drug delivery systems, development of more potent PIs, and targeting different sites of the UPS. A better understanding of PI resistance mechanisms in lung cancer cells can help improve current clinical treatment strategies and clinical outcomes.

2021 ◽  
Vol 6 (1) ◽  
Author(s):  
Yu Zhong ◽  
Liting Yang ◽  
Fang Xiong ◽  
Yi He ◽  
Yanyan Tang ◽  
...  

AbstractActin filament associated protein 1 antisense RNA 1 (named AFAP1-AS1) is a long non-coding RNA and overexpressed in many cancers. This study aimed to identify the role and mechanism of AFAP1-AS1 in lung cancer. The AFAP1-AS1 expression was firstly assessed in 187 paraffin-embedded lung cancer and 36 normal lung epithelial tissues by in situ hybridization. The migration and invasion abilities of AFAP1-AS1 were investigated in lung cancer cells. To uncover the molecular mechanism about AFAP1-AS1 function in lung cancer, we screened proteins that interact with AFAP1-AS1 by RNA pull down and the mass spectrometry analyses. AFAP1-AS1 was highly expressed in lung cancer clinical tissues and its expression was positively correlated with lung cancer patients’ poor prognosis. In vivo experiments confirmed that AFAP1-AS1 could promote lung cancer metastasis. AFAP1-AS1 promoted lung cancer cells migration and invasion through interacting with Smad nuclear interacting protein 1 (named SNIP1), which inhibited ubiquitination and degradation of c-Myc protein. Upregulation of c-Myc molecule in turn promoted the expression of ZEB1, ZEB2, and SNAIL gene, which ultimately enhanced epithelial to mesenchymal transition (EMT) and lung cancer metastasis. Understanding the molecular mechanism by which AFAP1-AS1 promotes lung cancer’s migration and invasion may provide novel therapeutic targets for lung cancer patients’ early diagnosis and therapy.


2021 ◽  
Vol 39 (15_suppl) ◽  
pp. e21031-e21031
Author(s):  
Yataro Daigo ◽  
Atsushi Takano ◽  
Yusuke Nakamura

e21031 Background: Since the clinical outcome of advanced lung cancer patients is still poor after standard therapies, development of new anti-cancer drugs with minimum risk of adverse effects and cancer biomarkers for precision medicine is urgently required. Methods: We have been screening new therapeutic target molecules and molecular biomarkers for lung cancers as follows; i) To identify overexpressed genes in lung cancers by the gene expression profile analysis, ii) To verify the target genes for their scarce expression in normal tissues, iii) To validate the clinicopathologic importance of their protein expression by tissue microarray covering 263 lung cancers, and iv) To confirm their function for the growth and/or invasive ability of the lung cancer cells by siRNAs and gene transfection assays. Results: We identified dozens of candidate target molecules and selected a gene encoding protein with a GAP domain, LAPG1 (lung cancer-associated protein with Gap domain 1). Immunohistochemical analysis showed that LAPG1 expression was observed in 69.9% of lung cancers. Moreover positivity of LAPG1 expression was associated with poor prognosis of lung cancer patients. Knockdown of LAPG1 expression by siRNAs suppressed growth of lung cancer cells. Introduction of LAPG1 increased the invasive activity of mammalian cells, indicating that LAPG1 could be a prognostic biomarker and therapeutic target for lung cancers. Conclusions: Comprehensive cancer genomics-based screening could be useful for selection of new cancer biomarkers and molecular targets for developing small molecules, antibodies, nucleic acid drugs, and immunotherapies.


2021 ◽  
Vol 11 ◽  
Author(s):  
Kan Wu ◽  
Xueqin Chen ◽  
Jianguo Feng ◽  
Shirong Zhang ◽  
Yasi Xu ◽  
...  

AimsRadiation therapy is used as the primary treatment for lung cancer. Unfortunately, radiation resistance remains to be the major clinic problem for lung cancer patients. Lysimachia capillipes capilliposide C (LC-C), an extract from LC Hemsl, has demonstrated multiple anti-cancer effects in several types of cancer. Here, we investigated the potential therapeutic impacts of LC-C on radiosensitivity in lung cancer cells and their underlying mechanisms.MethodsNon-small cell lung cancer cell lines were initially irradiated to generate ionizing radiation (IR)-resistant lung cancer cell lines. RNA-seq analysis was used to examine the whole-transcriptome alteration in IR-resistant lung cancer cells treated with or without LC-C, and the differentially expressed genes with most significance were verified by RT-qPCR. Colony formation assays were performed to determine the effect of LC-C and the target gene ErbB receptor feedback inhibitor 1 (ERRFI1) on radiosensitivity of IR-resistant lung cancer cells. In addition, effects of ERRFI1 on cell cycle distribution, DNA damage repair activity were assessed by flow cytometry and γ-H2AX immunofluorescence staining respectively. Western blotting was performed to identify the activation of related signaling pathways. Tumor xenograft experiments were conducted to observe the effect of LC-C and ERRFI1 on radiosensitivity of IR-resistant lung cancer cells in vivo.ResultsCompared with parental cells, IR-resistant lung cancer cells were more resistant to radiation. LC-C significantly enhanced the effect of radiation in IR-resistant lung cancer cells both in vitro and in vivo and validated ERRFI1 as a candidate downstream gene by RNA-seq. Forced expression of ERRFI1 alone could significantly increase the radiosensitivity of IR-resistant lung cancer cells, while silencing of ERRFI1 attenuated the radiosensitizing function of LC-C. Accordingly, LC-C and ERRFI1 effectively inhibited IR-induced DNA damage repair, and ERRFI1 significantly induced G2/M checkpoint arrest. Additional investigations revealed that down-regulation of EGFR/STAT3 pathway played an important role in radiosensitization between ERRFI1 and LC-C. Furthermore, the high expression level of ERRFI1 was associated with high overall survival rates in lung cancer patients.ConclusionsTreatment of LC-C may serve as a promising therapeutic strategy to overcome the radiation resistance and ERRFI1 may be a potential therapeutic target in NSCLC.


2019 ◽  
Vol 37 (15_suppl) ◽  
pp. e13019-e13019
Author(s):  
Yataro Daigo ◽  
Atsushi Takano ◽  
Yusuke Nakamura

e13019 Background: Because the number of lung cancer patients who show good response to standard therapies is still limited, development of new anti-cancer agents with minimum risk of adverse effects and highly sensitive molecular biomarkers is urgently required. Methods: We have been screening novel therapeutic targets and their companion biomarkers for lung cancer as follows; i) To identify up-regulated genes in lung cancers by the gene microarray analysis, ii) To verify the candidate genes for their low expression in normal organs, iii) To validate the clinicopathological significance of their protein expression by tissue microarray covering hundreds of lung cancers, and iv) To verify their function for the growth of lung cancer cells by siRNAs. Results: We identified dozens of candidate oncoproteins and selected a serine/threonine kinase LASK2 (lung cancer-associated kinase 2). Immunohistochemical analysis showed that strong LASK2 positivity was an independent prognostic factor for non-small cell lung cancer patients (P < 0.0001). Suppression of LASK2 expression by its siRNAs inhibited proliferation of lung cancer cells. Introduction of LASK2 in mammalian cells also enhanced cellular growth in vitro and in mice model. Induction of LASK2 appeared to increase the levels of phosphorylation of oncogenic signal proteins for lung cancer. The data indicate that LASK2 is a prognostic biomarker and therapeutic target for lung cancers. Conclusions: Integrated genomics-based approach could facilitate the development of new cancer biomarkers as well as therapeutic targets for small molecules, monoclonal antibodies, nucleic acid drugs, and immunotherapies.


2019 ◽  
Vol 9 (1) ◽  
Author(s):  
Cheng-Wei Chou ◽  
Ching-Heng Lin ◽  
Tzu-Hung Hsiao ◽  
Chia-Chien Lo ◽  
Chih-Ying Hsieh ◽  
...  

AbstractThe p53 gene is an important tumour suppressor gene. Mutant p53 genes account for about half of all lung cancer cases. There is increasing evidence for the anti-tumour effects of statins via inhibition of the mevalonate pathway. We retrospectively investigated the correlation between statin use and lung cancer prognosis using the Taiwanese National Health Insurance Research Database, mainly focusing on early-stage lung cancer. This study reports the protective effects of statin use in early-stage lung cancer patients regardless of chemotherapy. Statin treatments reduced the 5-year mortality (odds ratio, 0.43; P < 0.001) in this population-based study. Significantly higher levels of cellular apoptosis, inhibited cell growth, and regulated lipid raft content were observed in mutant p53 lung cancer cells treated with simvastatin. Further, simvastatin increased the caspase-dependent apoptotic pathway, promotes mutant p53 protein degradation, and decreased motile activity in lung cancer cells with p53 missense mutations. These data suggest that statin use in selected lung cancer patients may have clinical benefits.


2016 ◽  
Vol 113 (18) ◽  
pp. E2526-E2535 ◽  
Author(s):  
Ching-Feng Chiu ◽  
Yi-Wen Chang ◽  
Kuang-Tai Kuo ◽  
Yu-Shiuan Shen ◽  
Chien-Ying Liu ◽  
...  

Therapy with epidermal growth factor receptor (EGFR) tyrosine kinase inhibitors (EGFR-TKIs, such as gefitinib or erlotinib) significantly prolongs survival time for patients with tumors harboring an activated mutation on EGFR; however, up to 40% of lung cancer patients exhibit acquired resistance to EGFR-TKIs with an unknown mechanism. FOXO3a, a transcription factor of the forkhead family, triggers apoptosis, but the mechanistic details involved in EGFR-TKI resistance and cancer stemness remain largely unclear. Here, we observed that a high level of FOXO3a was correlated with EGFR mutation-independent EGFR-TKI sensitivity, the suppression of cancer stemness, and better progression-free survival in lung cancer patients. The suppression of FOXO3a obviously increased gefitinib resistance and enhanced the stem-like properties of lung cancer cells; consistent overexpression of FOXO3a in gefitinib-resistant lung cancer cells reduced these effects. Moreover, we identified that miR-155 targeted the 3′UTR of FOXO3a and was transcriptionally regulated by NF-κB, leading to repressed FOXO3a expression and increased gefitinib resistance, as well as enhanced cancer stemness of lung cancer in vitro and in vivo. Our findings indicate that FOXO3a is a significant factor in EGFR mutation-independent gefitinib resistance and the stemness of lung cancer, and suggest that targeting the NF-κB/miR-155/FOXO3a pathway has potential therapeutic value in lung cancer with the acquisition of resistance to EGFR-TKIs.


2021 ◽  
Vol 22 (11) ◽  
pp. 5820
Author(s):  
Cheng Zeng ◽  
Tingting Zou ◽  
Junyan Qu ◽  
Xu Chen ◽  
Suping Zhang ◽  
...  

Mitophagy plays a pro-survival or pro-death role that is cellular-context- and stress-condition-dependent. In this study, we revealed that cyclovirobuxine D (CVB-D), a natural compound derived from Buxus microphylla, was able to provoke mitophagy in lung cancer cells. CVB-D-induced mitophagy potentiates apoptosis by promoting mitochondrial dysfunction. Mechanistically, CVB-D initiates mitophagy by enhancing the expression of the mitophagy receptor BNIP3 and strengthening its interaction with LC3 to provoke mitophagy. Our results further showed that p65, a transcriptional suppressor of BNIP3, is downregulated upon CVB-D treatment. The ectopic expression of p65 inhibits BNIP3 expression, while its knockdown significantly abolishes its transcriptional repression on BNIP3 upon CVB-D treatment. Importantly, nude mice bearing subcutaneous xenograft tumors presented retarded growth upon CVB-D treatment. Overall, we demonstrated that CVB-D treatment can provoke mitophagy and further revealed that the p65/BNIP3/LC3 axis is one potential mechanism involved in CVB-D-induced mitophagy in lung cancer cells, thus providing an effective antitumor therapeutic strategy for the treatment of lung cancer patients


2008 ◽  
Vol 372 (4) ◽  
pp. 756-760 ◽  
Author(s):  
Lei Liu ◽  
Guo-qing Liao ◽  
Pei He ◽  
Hong Zhu ◽  
Peng-hui Liu ◽  
...  

2021 ◽  
Vol 39 (28_suppl) ◽  
pp. 79-79
Author(s):  
Jenny Jing Xiang ◽  
Alicia Roy ◽  
Christine Summers ◽  
Monica Delvy ◽  
Jessica Lee O'Donovan ◽  
...  

79 Background: Patient-trial matching is a critical step in clinical research recruitment that requires extensive review of clinical data and trial requirements. Prescreening, defined as identifying potentially eligible patients using select eligibility criteria, may streamline the process and increase study enrollment. We describe the real-world experience of implementing a standardized, universal clinical research prescreening protocol within a VA cancer center and its impact on research enrollment. Methods: An IRB approved prescreening protocol was implemented at the VACT Cancer Center in March 2017. All patients with a suspected or confirmed diagnosis of cancer are identified through tumor boards, oncology consults, and clinic lists. Research coordinators perform chart review and manually enter patient demographics, cancer type and stage, and treatment history into a REDCap (Research Electronic Data Capture) database. All clinical trials and their eligibility criteria are also entered into REDCap and updated regularly. REDCap generates real time lists of potential research studies for each patient based on his/her recorded data. The primary oncologist is alerted to a patient’s potential eligibility prior to upcoming clinic visits and thus can plan to discuss clinical research enrollment as appropriate. Results: From March 2017 to December 2020, a total of 2548 unique patients were prescreened into REDCAP. The mean age was 71.5 years, 97.5% were male, and 15.5% were African American. 32.57 % patients had genitourinary cancer, 17.15% had lung cancer, and 46.15% were undergoing malignancy workup. 1412 patients were potentially eligible after prescreening and 556 patients were ultimately enrolled in studies. The number of patients enrolled on therapeutic clinical trials increased after the implementation of the prescreening protocol (35 in 2017, 64 in 2018, 78 in 2019, and 55 in 2020 despite the COVID19 pandemic). Biorepository study enrollment increased from 8 in 2019 to 15 in 2020. The prescreening protocol also enabled 200 patients to be enrolled onto a lung nodule liquid biopsy study from 2017 to 2019. Our prescreening process captured 98.57% of lung cancer patients entered into the cancer registry during the same time period. Conclusions: Universal prescreening streamlined research recruitment operations and was associated with yearly increases in clinical research enrollment at a VA cancer center. Our protocol identified most new lung cancer patients, suggesting that, at least for this malignancy, potential study patients were not missed. The protocol was integral in our program becoming the top accruing VA site for NCI’s National Clinical Trial Network (NCTN) studies since 2019.


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