Expression pattern of lncRNAs in pituitary adenomas.

Non-functioning pituitary adenomas (NFPAs) are a group of pituitary tumors lacking manifestations linked to high hormone production, such as acromegaly and Cushing's syndrome. NFPA carcinogenesis depends on several molecular players. Long non-coding RNAs (lncRNAs) are a class of molecular players whose role in tumorigenesis has just recently been recognized. In the current study, we appraised expressions of 5 lncRNAs, namely FGD5-AS1, ATP6V0E2-AS1, ARHGAP5-AS1, WWC2-AS2 and EPB41L4A-AS1 in NFPAs versus their corresponding non-tumoral samples. Expressions of ATP6V0E2-AS1, EPB41L4A-AS1, FGD5-AS1 and WWC2-AS2 were significantly increased in NFPA samples compared with adjacent non-tumoral samples (P values = 0.037, 0.007, 0.008 and 0.03, respectively). However, expression of ARHGAP5-AS1 was not different between NFPA samples and controls (P value = 0.62). EPB41L4A-AS1 and FGD5-AS1 could discriminate between NFPA samples and adjacent non-tumoral samples (P values = 0.03 and 0.04, respectively). However, the AUC values were not appropriate. There was a significant positive association between age of NFPA patients and invasiveness of NFPA (χ2 = 4.24, P value = 0.039). Moreover, there was a significant positive association between diseases duration and CSF leak (χ2 = 11.4, p value = 0.023). Finally, there was a significant positive association between tumor size and Knosp classification (χ2 = 11.5, p value = 0.02) and invasiveness of NFPA (χ2 = 6.12, p value = 0.04). The current study provides information about dysregulation of lncRNAs in NFPAs and warrants additional studies in this field.

Crosstalk of miRNAs with signaling networks in bladder cancer progression: Therapeutic, diagnostic and prognostic functions.

Urological cancers are considered as life-threatening diseases around the world. Bladder cancer is one of the most malignant urological tumors with high mortality and morbidity. Bladder cancer is a heterogenous disease and genetic alterations have shown to be key players in regulating its progression. Although conventional therapies are somewhat beneficial in improving prognosis and survival, bladder cancer patients suffer from recurrence. MicroRNAs (miRNAs) are endogenous short RNA molecules that do not encode proteins and show dysregulated expression in human cancers. miRNAs are regulators of vital biological processes in cells such as proliferation, migration, differentiation and apoptosis. Dysregulation of miRNAs is observed in bladder cancer and they are used as biomarkers for diagnosis and prognosis of patients. LncRNAs and circRNAs are modulators of bladder cancer progression via miRNA expression regulation. Overexpression of onco-suppressor miRNAs impairs bladder cancer progression, while oncogenic miRNAs drive tumor progression. Glycolysis and EMT mechanisms are two important factors for proliferation and migration of bladder cancer that are modulated by miRNAs. Furthermore, miRNAs can affect STAT3 and Wnt/ß-catenin as instances of molecular factors in regulating bladder tumor progression. Bladder tumor response to drug therapy and radiotherapy is regulated by miRNAs. Hence, aim of current review is to provide function of miRNAs in bladder cancer based on their crosstalk with other molecular pathways and interaction with biological processes.

EMT mechanism in breast cancer metastasis and drug resistance: Revisiting molecular interactions and biological functions.

One of the malignant tumors in women that has involved both developed and developing countries is breast cancer. Similar to other types of tumors, breast cancer cells demonstrate high metastatic nature. Besides, breast tumor cells have ability of developing drug resistance. EMT is the related mechanism to cancer metastasis and focus of current manuscript is highlighting function of EMT in breast tumor malignancy and drug resistance. Breast tumor cells increase their migration by EMT induction During EMT, N-cadherin and vimentin levels increase, and E-cadherin levels decrease to mediate EMT-induced breast tumor invasion. Different kinds of anti-cancer agents such as tamoxifen, cisplatin and paclitaxel that EMT induction mediates chemoresistance feature of breast tumor cells. Furthermore, EMT induction correlates with radio-resistance in breast tumor. Clinical aspect is reversing EMT in preventing chemotherapy or radiotherapy failure in breast cancer patients and improving their survival time. The anti-tumor agents that suppress EMT can be used for decreasing breast cancer invasion and increasing chemosensitivity of tumor cells. Furthermore, lncRNAs, miRNAs and other factors can modulate EMT in breast tumor progression that are discussed here.