Purpose: HIF-1α has critical roles in formation of Tumor microenvironment by regulating genes involved in angiogenesis and anaerobic respiration. TME fuels tumors growth and metastasis and presents therapy with several challenges. Therefore, we aimed to investigate if Melittin disrupts HIF-1α signaling pathway in breast adenocarcinoma cell line MDA-MB-231.Methods: breast adenocarcinoma cell line MDA-MB-231 was cultured in presence of different doses of Melittin and MTT assay was carried out to measure Melittin's cytotoxic. Cells were exposed to 5% C 2 to mimic hypoxic conditions and Melittin. Western blot was used to measure HIF-1α protein levels. Gene expression analysis was performed using real-time PCR to measure relative mRNA abundance of genes involved in tumor microenvironment formation.Findings: Our results revealed that Melittin effectively inhibits HIF-1α at transcriptional and translation/post-translational level. HIF-1α protein and mRNA level was signi cantly decreased in Melittin-treated groups. It is found that inhibition of HIF-1α by Melittin is through downregulation of NFκB gene expression. Furthermore, gene expression analysis showed a downregulation in VEGFA and LDHA expression due to inhibition of HIF-1α protein by Melittin. In addition, cell toxicity assay showed that Melittin inhibits the growth of MDA-MB-231 cell line through activation of extrinsic and intrinsic apoptotic pathways by upregulating TNF and BAX expression.Conclusions: Melittin suppresses the expression of genes responsible for formation of TME physiological hallmarks by suppressing HIF-1α signaling pathway. Our results suggest that Melittin can modulate tumor microenvironment by inhibition of VEGFA and LDHA.
Ribosomal proteins are fundamental components of the ribosomes in all living cells. The ribosomal protein uS5 (Rps2) is a stable component of the small ribosomal subunit within all three domains of life. In addition to its interactions with proximal ribosomal proteins and rRNA inside the ribosome, uS5 has a surprisingly complex network of evolutionarily conserved non-ribosome-associated proteins. In this review, we focus on a set of four conserved uS5-associated proteins: the protein arginine methyltransferase 3 (PRMT3), the programmed cell death 2 (PDCD2) and its PDCD2-like (PDCD2L) paralog, and the zinc finger protein, ZNF277. We discuss recent work that presents PDCD2 and homologs as a dedicated uS5 chaperone and PDCD2L as a potential adaptor protein for the nuclear export of pre-40S subunits. Although the functional significance of the PRMT3–uS5 and ZNF277–uS5 interactions remain elusive, we reflect on the potential roles of uS5 arginine methylation by PRMT3 and on data indicating that ZNF277 and PRMT3 compete for uS5 binding. Together, these discussions highlight the complex and conserved regulatory network responsible for monitoring the availability and the folding of uS5 for the formation of 40S ribosomal subunits and/or the role of uS5 in potential extra-ribosomal functions.
Background: Lung cancer is one of the most fatal human cancers both in males and females. This type of cancer is categorized to different subtypes among them is non-small cell lung cancer (NSCLC). NSCLC accounts for about 80% of all cases. Long non-coding RNAs (lncRNAs) have been shown to influence the pathogenic course of lung cancer. However, the contribution of LINC01433 lncRNA in this type of cancer in Iranian patients is not clear. Purpose: In the current project, we evaluated expression of LINC01433 in 42 NSCLC samples and their paired non-tumoral tissues using quantitative real time polymerase chain reaction method. Samples were collected from patients admitted to Labbafinejad Hospital during 2016-2017. Results: There was no significant difference in the expression of LINC01433 between tumoral and non-tumoral tissues (expression ratio 0.67, p = 0.42). Expression of this lncRNA was not associated with any of clinical and demographic data including age, gender, smoking history, stage or cancer subtype. Conclusion: Based on the similar expression levels of this lncRNA between tumoral and non-tumoral tissues and lack of association between expression levels and clinical data, this lncRNA is not a possible contributor to lung cancer in Iranian patients. However, expression analysis of this lncRNA in larger sample sizes is needed to verify our results. Key wordslung cancer -expression -long non-coding RNA Souhrn Východiska: Karcinom plic je jedním z nejfatálnějších karcinomů jak u mužů, tak u žen. Tento typ karcinomu je rozdělen do různých podtypů, k nimž patří nemalobuněčný karcinom plic (non-small cell lung cancer -NSCLC). NSCLC představuje asi 80 % všech případů. Bylo prokázáno, že dlouhé nekódující RNA (long non-coding RNA -lncRNA) ovlivňují patogenezi karcinomu plic. Vliv lncRNA LINC01433 na tento typ karcinomu u íránských pacientů však není jednoznačný. Cíl: V tomto projektu jsme pomocí kvantitativní polymerázové řetězové reakce v reálném čase vyhodnotili expresi LINC01433 ve 42 vzorcích NSCLC a jejich párových nenádorových tkáních. Vzorky byly odebrány od pacientů přijatých do nemocnice Labbafinejad v letech 2016-2017. Výsledky: Nebyl nalezen žádný významný rozdíl v expresi LINC01433 mezi nádorovými a nenádorovými tkáněmi (poměr exprese 0,67; p = 0,42). Exprese této lncRNA nebyla spojena s žádnými klinickými a demografickými údaji vč. věku, pohlaví, historie kouření, stadia nebo podtypu karcinomu. Závěr: Na základě podobných hladin exprese této lncRNA mezi nádorovými a nenádorovými tkáněmi a chybějící asociace mezi hladinami exprese a klinickými údaji nemá tato lncRNA vliv na karcinom plic u íránských pacientů. K ověření našich výsledků je však nutná analýza exprese této lncRNA na větším vzorku pacientů. Klíčová slovakarcinom plic -exprese -dlouhé nekódující RNA The authors declare they have no potential conflicts of interest concerning drugs, products, or services used in the study.Autoři deklarují, že v souvislosti s předmětem studie nemají žádné komerční zájmy.The Editorial Board declares that the manu...
Purpose: HIF-1α has critical roles in formation of Tumor microenvironment by regulating genes involved in angiogenesis and anaerobic respiration. TME fuels tumors growth and metastasis and presents therapy with several challenges. Therefore, we aimed to investigate if Melittin disrupts HIF-1α signaling pathway in breast adenocarcinoma cell line MDA-MB-231.Methods: breast adenocarcinoma cell line MDA-MB-231 was cultured in presence of different doses of Melittin and MTT assay was carried out to measure Melittin’s cytotoxic. Cells were exposed to 5% C2 to mimic hypoxic conditions and Melittin. Western blot was used to measure HIF-1α protein levels. Gene expression analysis was performed using real-time PCR to measure relative mRNA abundance of genes involved in tumor microenvironment formation.Findings: Our results revealed that Melittin effectively inhibits HIF-1α at transcriptional and translation/post-translational level. HIF-1α protein and mRNA level was significantly decreased in Melittin-treated groups. It is found that inhibition of HIF-1α by Melittin is through downregulation of NFκB gene expression. Furthermore, gene expression analysis showed a downregulation in VEGFA and LDHA expression due to inhibition of HIF-1α protein by Melittin. In addition, cell toxicity assay showed that Melittin inhibits the growth of MDA-MB-231 cell line through activation of extrinsic and intrinsic apoptotic pathways by upregulating TNF and BAX expression. Conclusions: Melittin suppresses the expression of genes responsible for formation of TME physiological hallmarks by suppressing HIF-1α signaling pathway. Our results suggest that Melittin can modulate tumor microenvironment by inhibition of VEGFA and LDHA.
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