Hongjiao Wu scite author profile

BackgroundTumor necrosis factor superfamily member 15 (TNFSF15) is closely related to tumorigenesis and development. This study aimed to investigate the correlations between TNFSF15 polymorphisms and genetic susceptibility to lung cancer.MethodsThis case-control study included 209 small cell lung cancer patients (SCLC), 340 non- small cell lung cancer patients (NSCLC) and 460 health controls. TNFSF15–638 A > G and − 358 T > C polymorphisms were genotyped by polymerase chain reaction-restrictive fragment length polymorphism (PCR-RFLP) analysis. Odds ratio (OR) and 95% confidence interval (95% CI) were estimated by unconditional logistic regression.ResultsOur results showed that subjects carrying the TNFSF15–638GG genotype or -358CC genotype were more likely to develop SCLC (−638GG, OR = 1.84, 95%CI = 1.13–2.99; -358CC, OR = 2.44, 95%CI = 1.46–4.06), but not NSCLC (P > 0.05). In stratified analysis, −638GG genotype was related to SCLC among males (OR = 1.95, 95%CI = 1.09–3.45, P = 0.023) and older patients (OR = 2.93, 95%CI = 1.44–8.68, P = 0.006). However, -358CC genotype was associated with SCLC among females (OR = 8.42, 95%CI = 2.22–31.89, P = 0.002) and older subjects with OR (95%CI) of 11.04 (3.57–34.15) (P < 0.001). Moreover, TNFSF15 -358CC was linked with a higher risk of SCLC among non-smokers (OR = 2.54, 95%CI = 1.20–5.35, P = 0.015) but not among smokers (OR = 1.88, 95%CI = 0.92–3.84, P = 0.086).ConclusionThese findings highlight the importance of TNFSF15 polymorphisms in the development of SCLC.

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Phlorizin from sweet tea inhibits the progress of esophageal cancer by antagonizing the JAK2/STAT3 signaling pathway

Jia

Xie

et al. 2021

Oncol Rep

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Phlorizin, an important member of the dihydrochalcone family, has been widely used as a Chinese Traditional Medicine for treatment of numerous diseases. The present study aimed to investigate the potential therapeutic effects of phlorizin on esophageal cancer. Phlorizin, extracted from sweet tea, was used to treat esophageal cancer cells. Cell proliferation, migration and invasion were determined using Cell Counting Kit-8 and colony formation assays, and wound healing and Transwell assays, respectively. RNA sequencing and bioinformatics analysis was used to investigate the potential mechanism of phlorizin in the development of esophageal cancer. Fluorescent staining and flow cytometry was used to measure the level of apoptosis. The expression level of the proteins, P62/SQSTM1 and LC3 І/II, and the effect of phlorizin on the JAK2/STAT3 signaling pathway was detected using western blot analysis. The results demonstrated that phlorizin could inhibit cell proliferation, migration and invasion. Bioinformatics analysis showed that phlorizin might be involved in pleiotropic effects, such as the 'JAK/STAT signaling pathway' (hsa04630), 'MAPK signaling pathway'(hsa04010) and 'apoptosis' (hsa04210). It was also confirmed that phlorizin promoted apoptosis and inhibited autophagy in the esophageal cancer cells. Notably, phlorizin might inhibit the proteins in the JAK/STAT signaling pathway, which would affect cancer cells. Taken together, the present data showed that phlorizin inhibited the progression of esophageal cancer by antagonizing the JAK2/STAT3 signaling pathway.

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Impact of Genetic Variation in TLR4 3′UTR on NSCLC Genetic Susceptibility

Gao

et al. 2020

Journal of Oncology

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Toll-like receptors (TLRs) are expressed not only in immune cells but also in a variety of tumor cells. Single-nucleotide polymorphisms (SNPs) located in the TLRs’ promoter or the 3′ untranslated region may affect gene expression by affecting the activity of the promoter or regulating the binding of mRNA to miRNA. This study aimed to investigate the association of the SNPs in TLR genes with the susceptibility to NSCLC. This case-control study involved 700 lung cancer patients and 700 healthy controls. All individuals were genotyped for all selected SNPs in TLR genes using polymerase chain reaction (PCR) test-based restriction fragment length polymorphism (PCR-RFLP) and TaqMan SNP genotyping assay. The association of genetic variations in TLRs with the susceptibility to NSCLC was evaluated by unconditional logistic regression with OR (95% CI). After evaluating transcriptional factor or miRNA binding capability by bioinformatics methods, six TLRs were identified for further analysis. We did not find that TLR3 rs5743303, TLR4 rs1927914, TLR4 rs11536891, TLR5 rs1640816, and TLR7 rs3853839 were associated with NSCLC risk (P>0.05). Our data showed that TLR4 rs7869402 C > T polymorphism reduced the risk of NSCLC with OR (95% CI) of 0.63 (0.45–0.89). When stratified by gender and age, the individuals carrying at least one rs7869402T allele significantly decreased the NSCLC risk among males (OR = 0.58, 95% CI = 0.38–0.87) and among youngsters (OR = 0.43, 95% CI = 0.27–0.69). Smoking stratification analysis showed that the rs7869402T allele-containing genotype reduced the risk of NSCLC with OR (95% CI) of 0.50 (0.29–0.87) among smokers but not among nonsmokers (P>0.05). When the individuals were classed by the pathological type, we found that the rs7869402T-containing genotype was associated with the risk of adenocarcinoma (OR = 0.62, 95% CI = 0.41–0.92) but not with that of squamous cell carcinoma (OR = 0.71, 95% CI = 0.44–1.13) and other types (OR = 0.23, 95% CI = 0.03–1.70). Compared with the TLR4 Ars1927914-Crs7869402-Trs11536891 haplotype, the Grs1927914-Trs7869402-Trs11536891 haplotype was associated with a decreased risk for developing NSCLC with OR (95% CI) of 0.57 (0.41–0.80). These results indicated that the TLR4 rs7869402 variation affects the genetic susceptibility to NSCLC.

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Pseudogene CSPG4P12 affects the biological behavior of non‑small cell lung cancer by Bcl‑2/Bax mitochondrial apoptosis pathway

et al. 2022

Exp Ther Med

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Increasing evidence has shown that chondroitin sulfate proteoglycan 4 (CSPG4) serve a critical role in tumor progression. However, the roles of chondroitin sulfate proteoglycan 4 pseudogene 12 (CSPG4P12) remain to be elucidated. The present study aimed to investigate the potential effects of CSPG4P12 on the physiological behaviors of non-small cell lung cancer (NSCLC) and its underlying biological mechanism. The expression levels of CSPG4P12 in NSCLC tissues and adjacent normal tissues were analyzed using the gene expression profiling interactive analysis 2 database and reverse transcription-quantitative PCR. Cell Counting Kit-8 and colony formation assays were performed to measure cell proliferation. In addition, Transwell and wound healing assays were performed to assess cell invasion and migration. Cell adhesion was measured by cell-extracellular matrix adhesion assay. Hoechst 33342 staining assay was performed to detect nucleoli of apoptotic cells, and transmission electron microscopy (TEM) was utilized for apoptosis detection. Immunofluorescence and western blot assays were performed to measure the expression levels of apoptosis-related proteins. The present results revealed that the expression levels of CSPG4P12 in NSCLC tissues were significantly lower compared with those in adjacent normal tissues. Overexpression of CSPG4P12 inhibited cell proliferation, invasion, migration and adhesion whilst promoting apoptosis. There were missing mitochondrial cristae and mitochondrial vacuoles in the CSPG4P12-overexpressed cells when observed under TEM. Overexpression of CSPG4P12 also increased the expression of Bax and p53, whereas it inhibited the expression of Bcl2. In conclusion, CSPG4P12 could inhibit NSCLC development and tumorigenesis by activating the p53/Bcl2/Bax mitochondrial apoptotic pathway.

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Hongjiao Wu

Genetic variants in the regulation region of TLR4 reduce the gastric cancer susceptibility

TNFSF15 promoter polymorphisms increase the susceptibility to small cell lung cancer: a case-control study

Phlorizin from sweet tea inhibits the progress of esophageal cancer by antagonizing the JAK2/STAT3 signaling pathway

Impact of Genetic Variation in TLR4 3′UTR on NSCLC Genetic Susceptibility

Pseudogene CSPG4P12 affects the biological behavior of non‑small cell lung cancer by Bcl‑2/Bax mitochondrial apoptosis pathway

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