Real-world outcomes of chemotherapy for lung cancer patients undergoing hemodialysis: A multicenter retrospective cohort study (NEJ-042).

INTRODUCTION: Malignant tumors are the major cause of death in hemodialysis patients. Management of these patients remains challenging as there is no evidence that chemotherapy is beneficial, and a lack of information about actual clinical practice. METHODS: This multicenter retrospective study included hemodialysis patients who were diagnosed with lung cancer from January 2002 to June 2018. We reviewed their clinical information including patient characteristics associated with lung cancer and end-stage renal disease, regimen, efficacy and safety of chemotherapy, and outcomes. RESULTS: A total of 162 patients from 22 institutions in Japan were registered. Of 158 eligible patients, 91 received chemotherapy (80 as palliative chemotherapy and 11 as chemoradiotherapy) and 67 received best supportive care only regardless of cancer stage. In small cell lung cancer (SCLC) and non-small cell lung cancer (NSCLC) patients who received cytotoxic chemotherapy, the objective response rates (ORR) and median overall survival (OS) were 68.1 %, 12.3 months and 37.0 %, 8.5 months, respectively. The ORR and median OS in patients with EGFR-mutant NSCLC treated with EGFR-tyrosine kinase inhibitors (TKI) were 44.4 % and 38.6 months. The treatment-related adverse events (Grade 3 or higher) induced by cytotoxic chemotherapy were myelosuppression and febrile neutropenia; treatment-related death (TRD) was observed in one patient. TRD occurred in 3 of 18 patients who received EGFR-TKI. CONCLUSION: Chemotherapy should be considered for hemodialysis patients with EGFR-mutant NSCLC and SCLC. However, the survival benefits of chemotherapy for NSCLC patients with EGFR-wild type are unclear; physicians should carefully consider whether to offer chemotherapy to this patient subset.

Exacerbation of idiopathic interstitial pneumonias associated with lung cancer therapy.

OBJECTIVE AND METHODS: Idiopathic interstitial pneumonias (IIPs) frequently occur in association with lung cancer. However, there is no consensus on the best treatment of acute exacerbation of IIP in lung cancer patients (LC with IIP), including those with iatrogenic acute lung injury resulting from cancer treatments. We aimed to identify an appropriate strategy for treatment of this condition. We analyzed clinical features of 120 LC with IIP, retrospectively. RESULTS: The incidence of acute exacerbation related to anticancer treatment was 22.7%; when the incidence was examined separately for patients receiving chemotherapy or the best supportive care, the incidence was 20.0% and 31.3%, respectively. Additional investigations should be directed to finding suitable regimens for treatment of LC with IIP and the selection of appropriate patients with LC with IIP for chemotherapy. The incidence of acute exacerbation caused by combination regimens of carboplatin + paclitaxel or a platinum agent + etoposide was significantly lower than that of other regimens (0% vs. 18%, respectively; p=0.025, Fisher's Exact Test). Patients with high levels of C-reactive protein before chemotherapy had a significantly higher risk of developing acute exacerbation (odds ratio 5.60, p=0.028). CONCLUSION: There was no evidence that anticancer treatment, including chemotherapy, should be avoided in LC with IIP. To establish an appropriate cancer treatment for LC with IIP, a prospective clinical study should be performed to evaluate various treatment modalities in a larger patient population.

Reduced transcription of the Smad4 gene during pulmonary carcinogenesis in idiopathic pulmonary fibrosis.

Patients with idiopathic pulmonary fibrosis (IPF) have an increased risk of developing lung cancer. To identify key molecules involved in malignant transformation in IPF, we analyzed the expression profiles of lung and lung tumor tissue from patients with lung cancer and IPF (lung cancer/IPF) using cDNA arrays and real-time quantitative reverse transcriptase-polymerase chain reaction (RT-PCR). Reduced expression of the Smad4 gene was identified in all eight tumor samples from the lung cancer/IPF patients using real-time RT-PCR. Expression levels of Smad4 were significantly lower in tumors from lung cancer/IPF patients than in those from lung cancer patients without IPF or in lung cancer cell lines (p<0.01). Mutational analysis of TGF-ß type II receptor and Smad4 was performed using polymerase chain reaction-single strand conformation polymorphism (PCR-SSCP). The methylation status of the Smad4 promoter was analyzed using methylation-specific PCR with subsequent sequence analysis. No mutations were detected in the eight tumor samples, but hypermethylated regions were detected in the Smad4 promoter in two of the eight tumors with reduced Smad4 expression. Promoter reporter assays showed that the activity of the Smad4 promoter containing the sequence of the methylated region was significantly stronger than that of the Smad4 promoter with a deleted methylated region (p<0.002). Our findings indicate that the loss of the growth inhibitory response to TGF-ß signaling may be crucial in pulmonary carcinogensis or in the progression of lung cancer in IPF patients in whom TGF-ß is overexpressed; hypermethylation of the Smad4 promoter region may be one mechanism by which this occurs. These findings are useful for the development of preventive measures or treatment for lung cancer patients with IPF.

The difference of angiogenesis in human lung adenocarcinoma cell lines with different metastatic potency.

We investigated the ability of angiogenesis in PC9/F9 cells (from a highly metastatic human lung adenocarcinoma cell line) as compared with PC9 cells (from a low metastatic human lung adenocarcinoma cell line). In vivo tumor growth assay using BALB/c nude mice (7 mice/group), showed that the tumor volume of PC9/F9 cells on day 35 (230.7+/-31.3 mm(3)) was significantly larger than that of PC9 cells (90.9+/-24.7 mm(3)) (p<0.001). However, there was no significant difference between PC9/F9 cells and PC9 cells in an in vitro growth assay. In a dorsal air sac assay (DAS assay) using ICR mice (3 mice/group), PC9/F9 cells (4.7+/-1.2 vessels) showed stronger neovascurizationin in compared with PC9 cells (0.3+/-0.4 vessels) (p<0.05). In an enzyme linked immunosorbent assay (ELISA) and Western blotting analysis there were no significant differences between PC9/F9 cells and PC9 cells in the protein expression of vascular endothelial growth factor (VEGF). There was no significant difference between the gene expression levels of PC9/F9 cells and PC9 cells on cDNA array analysis. Matrix metalloproteinase-2 (MMP-2) activity in PC9/F9 cells was remarkably stronger than that of PC9 cells in Gelatin Zymography. From these results, we considered that of the increased metastasis of PC9/F9 cells might be induced by augmented angiogenesis. Furthermore, we speculated that the augmented angiogenesis of the highly metastatic PC9/F9 cell line might be induced by increased MMP-2 activity.

Reduced transcription of the RB2/p130 gene in human lung cancer.

Reduced expression of the retinoblastoma gene (RB)2/p130 protein, as well as mutation of exons 19, 20, 21, and 22 of the same gene, has been reported in primary lung cancer. However, it has been suggested by other investigators that mutational inactivation and loss of the RB2/p130 gene and protein, respectively, are rare events in lung cancer. In order to determine the contribution and mechanisms of RB2/p130 gene inactivation to lung cancer development and progression, we quantified RB2/p130 mRNA expression levels in a range of human lung cancer cell lines (n = 13) by real-time reverse transcription (RT)-polymerase chain reaction (PCR) analysis. In comparison to normal lung tissue, reduced transcription of the RB2/p130 gene was found in all small cell lung cancer cell lines examined, along with six out of the eight nonsmall cell lung cancers tested, most of which had inactivation of RB/p16 pathway. On the basis of Western blot analysis, the expression of RB2/p130 protein was consistent with RNA expression levels in all lung cancer cell lines examined. In addition, the mutational status of the RB2/p130 gene (specifically, exons 19, 20, 21, and 22) was determined in 30 primary lung cancers (from patients with distant metastasis) and 30 lung cancer cell lines by PCR-single strand conformation polymorphism (SSCP) analysis and direct DNA sequencing. There was no evidence of somatic mutations within the RB2/p130 gene in the 60 lung cancer samples (both cell lines and tumors) assessed, including the 11 lung cancer cell lines that displayed reduced expression of the gene. Furthermore, hypermethylation of the RB2/p130 promoter was not found in any of the above-mentioned 11 cell lines, as determined by a DNA methylation assay, combined bisulfite restriction analysis (COBRA). The results of the present study suggest that the reduced RB2/p130 expression seen in lung cancer may be in part transcriptionally mediated, albeit not likely via a mechanism involving hypermethylation of the RB2/p130 promoter. The observed reduction in RB2/p130 gene expression may be due to histone deacetylation, altered mRNA stability, and/or other forms of transcriptional regulation.

The promoter region of the human BUBR1 gene and its expression analysis in lung cancer.

Mitotic checkpoint impairment is present in human lung cancers with chromosomal instability (CIN). Spindle-checkpoint genes have been reported to be mutated in several human cancers, but these mutations are infrequent. Recent reports suggest that the hBUBR1 gene may play an important role in mitotic checkpoint control and in mitotic checkpoint impairment in human cancers. We analyzed the expression of hBUBR1 in lung cancer cell lines using real time quantitative RT-PCR. The expression of BUBR1 was found to be up-regulated in all of these cell lines. In addition, we cloned and characterized the promotor region of hBUBR1 and determined its genomic structure, which includes 23 exons. The open reading frame (ORF) of the hBUBR1 gene comprises exons 1 through 23. There are GC-rich regions located at the flanking region and about 150 bp upstream from exon 1. The promoter region (424 bp upstream from exon 1) showed promoter activity and includes multiple transcription factor consensus binding motifs, including those for Sp1, Nkx-2, CdxA, SRY, MyoD, Ik-2, HNF-3b, Staf, Oct-1, Nkx-2, v-Myb, and AML 1a. Multiple pathways leading to activation of those binding factors may contribute to hBUBR1 gene transcription. Knowledge of the genomic structure and the promoter region of the hBUBR1 gene will facilitate investigation of its role in mitotic checkpoint control and tumor progression in human cancers.