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Öğe Graphene oxide nanoarchitectures in cancer biology: Nano-modulators of autophagy and apoptosis(Elsevier, 2023) Taheriazam, Afshin; Abad, Ghazaleh Gholamiyan Yousef; Hajimazdarany, Shima; Imani, Mohammad Hassan; Ziaolhagh, Setayesh; Zandieh, Mohammad Arad; Bayanzadeh, Seyedeh DelaramNanotechnology is a growing field, with many potential biomedical applications of nanomedicine for the treatment of different diseases, particularly cancer, on the horizon. Graphene oxide (GO) nanoparticles can act as carbon-based nanocarriers with advantages such as a large surface area, good mechanical strength, and the capacity for surface modification. These nanostructures have been extensively used in cancer therapy for drug and gene delivery, photothermal therapy, overcoming chemotherapy resistance, and for imaging procedures. In the current review, we focus on the biological functions of GO nanoparticles as regulators of apoptosis and autophagy, the two major forms of programmed cell death. GO nanoparticles can either induce or inhibit autophagy in cancer cells, depending on the conditions. By stimulating autophagy, GO nanocarriers can promote the sensitivity of cancer cells to chemotherapy. However, by impairing autophagy flux, GO nanoparticles can reduce cell survival and enhance inflammation. Similarly, GO nanomaterials can increase ROS production and induce DNA damage, thereby sensitizing cancer cells to apoptosis. In vitro and in vivo experiments have investigated whether GO nanomaterials show any toxicity in major body organs, such as the brain, liver, spleen, and heart. Molecular pathways, such as ATG, MAPK, JNK, and Akt, can be regulated by GO nanomaterials, leading to effects on autophagy and apoptosis. These topics are discussed in this review to shed some lights towards the biomedical potential of GO nanoparticles and their biocompatibility, paving the way for their future application in clinical trials.Öğe Non-coding RNAs targeting notch signaling pathway in cancer : from proliferation to cancer therapy resistance(Elsevier B.V., 2022) Hashemi, Mehrdad; Hasani, Sahar; Hajimazdarany, Shima; Mirmazloomi, Seyed Reza; Makvandy, Sara; Zabihi, Abbas; Goldoost, Yeganeh; Gholinia, Nazanin; Kakavand, Amirabbas; Tavakolpournegari, Alireza; Salimimoghadam, Shokooh; Nabavi, Noushin; Zarrabi, Ali; Taheriazam, Afshin; Entezari, Maliheh; Hushmandi, KiavashCancer is a challenging to treat disease with a high mortality rate worldwide, nevertheless advances in science has led to a decrease in the number of death cases caused by cancer. Aberrant expression of genes occurs during tumorigenesis therefore targeting the signaling pathways that regulate these genes' expression is of importance in cancer therapy. Notch is one of the signaling pathways having interactions with other vital cell signaling molecules responsible for cellular functions such as proliferation, apoptosis, invasion, metastasis, epithelial-to-mesenchymal transition (EMT), angiogenesis, and immune evasion. Furthermore, the Notch pathway is involved in response to chemo- and radiotherapy. Thus, targeting the Notch signaling pathway in cancer therapy can be beneficial for overcoming the therapeutic gaps. Non-coding RNAs (ncRNAs) are a class of RNAs that include short ncRNAs (such as micro RNAs) and long ncRNAs (lncRNAs). MicroRNAs (miRNAs) are ~22 nucleotides in length while lncRNAs have more than 200 nucleotides. Both miRNAs and lncRNAs control vital cellular mechanisms in cells and affect various signaling pathways and Notch is among them. The current review aims to discuss the critical role of ncRNAs in the regulation of the Notch signaling pathway by focusing on different cancer hallmarks including proliferation, apoptosis, autophagy, EMT, invasion, metastasis, and resistance to therapies.Öğe Non-coding RNAs targeting notch signaling pathway in cancer: From proliferation to cancer therapy resistance(Elsevier, 2022) Hashemi, Mehrdad; Hasani, Sahar; Hajimazdarany, Shima; Mirmazloomi, Seyed Reza; Makvandy, Sara; Zabihi, Abbas; Goldoost, YeganehCancer is a challenging to treat disease with a high mortality rate worldwide, nevertheless advances in science has led to a decrease in the number of death cases caused by cancer. Aberrant expression of genes occurs during tumorigenesis therefore targeting the signaling pathways that regulate these genes' expression is of importance in cancer therapy. Notch is one of the signaling pathways having interactions with other vital cell signaling molecules responsible for cellular functions such as proliferation, apoptosis, invasion, metastasis, epithelial-to-mesenchymal transition (EMT), angiogenesis, and immune evasion. Furthermore, the Notch pathway is involved in response to chemo- and radiotherapy. Thus, targeting the Notch signaling pathway in cancer therapy can be beneficial for overcoming the therapeutic gaps. Non-coding RNAs (ncRNAs) are a class of RNAs that include short ncRNAs (such as micro RNAs) and long ncRNAs (lncRNAs). MicroRNAs (miRNAs) are similar to 22 nucleotides in length while lncRNAs have more than 200 nucleotides. Both miRNAs and lncRNAs control vital cellular mechanisms in cells and affect various signaling pathways and Notch is among them. The current review aims to discuss the critical role of ncRNAs in the regulation of the Notch signaling pathway by focusing on different cancer hallmarks including proliferation, apoptosis, autophagy, EMT, invasion, metastasis, and resistance to therapies.