Polycystic ovary syndrome (PCOS) is a metabolic and endocrine disorder which affects women of reproductive age with prevalence of 8–18%. The oocyte within the follicle is surrounded by cumulus cells (CCs), which connect with mural granulosa cells (MGCs) that are responsible for secreting steroid hormones. The main aim of this study is comparing gene expression profiles of MGCs and CCs in PCOS and control samples to identify PCOS-specific differentially expressed genes (DEGs). In this study, two microarray databases were searched for mRNA expression microarray studies performed with CCs and MGCs obtained from PCOS patients and control samples. Three independent studies were selected to be integrated with naive meta-analysis since raw meta-data from these studies were found to be highly correlated. DEGs in these somatic cells were identified for PCOS and control groups. This study enabled us to reveal dysregulation in MAPK (mitogen activated protein kinase), insulin and Wnt signaling pathways between CCs and MGCs in PCOS. The meta-analysis results together with qRT-PCR validations provide evidence that molecular signaling is dysregulated through MGCs and CCs in PCOS, which is important for follicle and oocyte maturation and may contribute to the pathogenesis of the syndrome.
Objective:
Breast Cancer (BC) is the most common type of cancer diagnosed in women. A common
treatment strategy for BC is still not available because of its molecular heterogeneity and resistance is developed
in most of the patients through the course of treatment. Therefore, alternative medicine resources as being novel
treatment options are needed to be used for the treatment of BC. Usnic Acid (UA) that is one of the secondary
metabolites of lichens used for different purposes in the field of medicine and its anti-proliferative effect has
been shown in certain cancer types, suggesting its potential use for the treatment.
Methods:
Anti-proliferative effect of UA in BC cells (MDA-MB-231, MCF-7, BT-474) was identified through
MTT analysis. Microarray analysis was performed in cells treated with the effective concentration of UA and
UA-responsive miRNAs were detected. Their targets and the pathways that they involve were determined using
a miRNA target prediction tool.
Results:
Microarray experiments showed that 67 miRNAs were specifically responsive to UA in MDA-MB-231
cells while 15 and 8 were specific to BT-474 and MCF-7 cells, respectively. The miRNA targets were mostly
found to play role in Hedgehog signaling pathway. TGF-Beta, MAPK and apoptosis pathways were also the
prominent ones according to the miRNA enrichment analysis.
Conclusion:
The current study is important as being the first study in the literature which aimed to explore the
UA related miRNAs, their targets and molecular pathways that may have roles in the BC. The results of pathway
enrichment analysis and anti-proliferative effects of UA support the idea that UA might be used as a potential
alternative therapeutic agent for BC treatment.
Breast cancer is the most common cancer among women and the molecular pathways that play main roles in breast cancer regulation are still not completely understood. MicroRNAs (miRNAs) and transcription factors (TFs) are important regulators of gene expression. It is important to unravel the relation of TFs, miRNAs, and their targets within regulatory networks to clarify the processes that cause breast cancer and the progression of it. In this study, mRNA and miRNA expression studies including breast tumors and normal samples were extracted from the GEO microarray database. Two independent mRNA studies and a miRNA study were selected and reanalyzed. Differentially expressed (DE) mRNAs and miRNAs between breast tumor and normal samples were listed by using BRB-Array Tools. CircuitsDB2 analysis conducted with DE miRNAs and mRNAs resulted in 3 significant circuits that are SOX10-and hsa-miR-301a-dependent. The following significant circuits were characterized and validated bioinformatically by using web-based tools: SOX10→hsa-miR-301a→HOXA3, SOX10→hsa-miR-301a→KIT, and SOX10→hsa-miR-301a→NFIB. It can be concluded that regulatory motifs involving miRNAs and TFs may be useful for understanding breast cancer regulation and for predicting new biomarkers.
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