Exosomes and microRNAs: New potential therapeutic candidates in Alzheimer disease therapy

Exosomes are biological nanocarriers which could be involved in a variety of basic physiological events. They exert their effects via targeting their cargos (i.e., DNAs, messenger RNAs, microRNAs miRNAs, and proteins) to host cells, which led to change behaviors of recipient cells. One of the important aspects of exosomes is the roles of them in disease conditions. Increasing evidence indicated that exosomes are one of the main players in Alzheimer�s disease (AD) pathogenesis. Hence, it seems that these nanocarriers could be used as diagnostic and therapeutic biomarkers in AD treatment. Another important player in AD pathogenesis is miRNA. MiRNAs are short noncoding RNAs which exert their effects as epigenetic regulators. These molecules involved in different stages of AD. Therefore, miRNAs could be used as prognostic, diagnostic, and therapeutic biomarkers in AD. Here, we summarized various roles of exosomes and application of them in AD pathogenesis. Moreover, we highlighted the utilization of miRNAs as a therapeutic option in AD therapy. © 2018 Wiley Periodicals, Inc

Exosomes and microRNAs: New potential therapeutic candidates in Alzheimer disease therapy

Exosomes are biological nanocarriers which could be involved in a variety of basic physiological events. They exert their effects via targeting their cargos (i.e., DNAs, messenger RNAs, microRNAs miRNAs, and proteins) to host cells, which led to change behaviors of recipient cells. One of the important aspects of exosomes is the roles of them in disease conditions. Increasing evidence indicated that exosomes are one of the main players in Alzheimer�s disease (AD) pathogenesis. Hence, it seems that these nanocarriers could be used as diagnostic and therapeutic biomarkers in AD treatment. Another important player in AD pathogenesis is miRNA. MiRNAs are short noncoding RNAs which exert their effects as epigenetic regulators. These molecules involved in different stages of AD. Therefore, miRNAs could be used as prognostic, diagnostic, and therapeutic biomarkers in AD. Here, we summarized various roles of exosomes and application of them in AD pathogenesis. Moreover, we highlighted the utilization of miRNAs as a therapeutic option in AD therapy. © 2018 Wiley Periodicals, Inc

Diet and cancer prevention: Dietary compounds, dietary MicroRNAs, and dietary exosomes

Cancer is one of main health public problems worldwide. Several factors are involved in beginning and development of cancer. Genetic and internal/external environmental factors can be as important agents that effect on emerging and development of several cancers. Diet and nutrition may be as one of important factors in prevention or treatment of various cancers. A large number studies indicated that suitable dietary patterns may help to cancer prevention or could inhibit development of tumor in cancer patients. Moreover, a large numbers studies indicated that a variety of dietary compounds such as curcumin, green tea, folat, selenium, and soy isoflavones show a wide range anti-cancer properties. It has been showed that these compounds via targeting a sequence of cellular and molecular pathways could be used as suitable options for cancer chemoprevention and cancer therapy. Recently, dietary microRNAs and exosomes have been emerged as attractive players in cancer prevention and cancer therapy. These molecules could change behavior of cancer cells via targeting various cellular and molecular pathways involved in cancer pathogenesis. Hence, the utilization of dietary compounds which are associated with powerful molecules such as microRNAs and exosomes and put them in dietary patterns could contribute to prevention or treatment of various cancers. Here, we summarized various studies that assessed effect of dietary patterns on cancer prevention shortly. Moreover, we highlighted the utilization of dietary compounds, dietary microRNAs, and dietary exosomes and their cellular and molecular pathways in cancer chemoprevention. © 2017 Wiley Periodicals, Inc

The assessment of selected MiRNAs profile in HIV, HBV, HCV, HIV/HCV, HIV/HBV Co-infection and elite controllers for determination of biomarker

Background: The emerging relationship between microRNAs (miRNA) and viral-control is a topic of interest in the field of HIV. Host-genome might play an important role in the control of viremia. The aim of this study was to assess the specific miRNA profile that could contribute to the control of HIV replication in Elite Controllers. Materials and methods: The expression level of miRNAs was evaluated in 6 group patients, Elite Controller (EC), HIV, HBV, HCV, HIV-HBV-HIV-HCV, and healthy controls using real-time PCR assays. Also, liver enzymes (ALT and AST) and CD4 T cell count was assessed. Results: After adequate normalization, expression level of miRNAs was determined. The expression level of miR-146 in HIV/HCV co-infected patients was the highest in all groups. The miRNAs expression profile was significantly different in patient groups compared to control and EC. Some miRNA was significantly correlated with viral load and CD4 T cell count. Conclusions: The involvement of the mentioned miRNAs and correlation of these with viral and cellular parameters can justify the clinical outcome of all patient groups. The differentially expressed miRNA profile in patients suggests that miRNAs can be serve as biomarkers for risk of disease progression and differentiation of infections. Moreover, determining the profiles of miRNAs due to involvement of these in the pathogenesis of infection and manipulating these miRNAs could lead to opening a new gate to infection control. © 202

The assessment of selected MiRNAs profile in HIV, HBV, HCV, HIV/HCV, HIV/HBV Co-infection and elite controllers for determination of biomarker

Background: The emerging relationship between microRNAs (miRNA) and viral-control is a topic of interest in the field of HIV. Host-genome might play an important role in the control of viremia. The aim of this study was to assess the specific miRNA profile that could contribute to the control of HIV replication in Elite Controllers. Materials and methods: The expression level of miRNAs was evaluated in 6 group patients, Elite Controller (EC), HIV, HBV, HCV, HIV-HBV-HIV-HCV, and healthy controls using real-time PCR assays. Also, liver enzymes (ALT and AST) and CD4 T cell count was assessed. Results: After adequate normalization, expression level of miRNAs was determined. The expression level of miR-146 in HIV/HCV co-infected patients was the highest in all groups. The miRNAs expression profile was significantly different in patient groups compared to control and EC. Some miRNA was significantly correlated with viral load and CD4 T cell count. Conclusions: The involvement of the mentioned miRNAs and correlation of these with viral and cellular parameters can justify the clinical outcome of all patient groups. The differentially expressed miRNA profile in patients suggests that miRNAs can be serve as biomarkers for risk of disease progression and differentiation of infections. Moreover, determining the profiles of miRNAs due to involvement of these in the pathogenesis of infection and manipulating these miRNAs could lead to opening a new gate to infection control. © 202

The assessment of selected MiRNAs profile in HIV, HBV, HCV, HIV/HCV, HIV/HBV Co-infection and elite controllers for determination of biomarker

Background: The emerging relationship between microRNAs (miRNA) and viral-control is a topic of interest in the field of HIV. Host-genome might play an important role in the control of viremia. The aim of this study was to assess the specific miRNA profile that could contribute to the control of HIV replication in Elite Controllers. Materials and methods: The expression level of miRNAs was evaluated in 6 group patients, Elite Controller (EC), HIV, HBV, HCV, HIV-HBV-HIV-HCV, and healthy controls using real-time PCR assays. Also, liver enzymes (ALT and AST) and CD4 T cell count was assessed. Results: After adequate normalization, expression level of miRNAs was determined. The expression level of miR-146 in HIV/HCV co-infected patients was the highest in all groups. The miRNAs expression profile was significantly different in patient groups compared to control and EC. Some miRNA was significantly correlated with viral load and CD4 T cell count. Conclusions: The involvement of the mentioned miRNAs and correlation of these with viral and cellular parameters can justify the clinical outcome of all patient groups. The differentially expressed miRNA profile in patients suggests that miRNAs can be serve as biomarkers for risk of disease progression and differentiation of infections. Moreover, determining the profiles of miRNAs due to involvement of these in the pathogenesis of infection and manipulating these miRNAs could lead to opening a new gate to infection control. © 202