Cervical cancer ranks fourth for both mortality and morbidity in women globally. Exosomes are considered as extracellular vesicles, secreted continuously by many cells with a size range from 30 to 150 nm. Exosomes can encapsulate microRNAs (miRNAs) and release them for cellular communications. This exosome-induced miRNA transfer is a novel strategy for genetic exchange among cells. This trafficking modality affects many pathological as well as physiological conditions. Moreover, exosomes can protect the miRNAs against harsh environments and keep them very stable. Given that a variety of exosomal miRNAs derived from cervical cancer cells can be targeted to recipient cells and contribute to tumorgenesis, it has been documented that exosomal miRNAs could be applied as diagnostic and therapeutic biomarkers in the treatment of cervical cancer. Herein, we summarize the pathologic and diagnostic roles of exosomal miRNAs in the cervical cancer. Moreover, we highlight the roles of exosomal miRNAs in other cancers.
Bio-degradable nanoparticles (NPs) have several utilizations as the drug delivery vehicles due to their acceptable bio-availability, lower toxicity, potency for encapsulation and controlled release. Moreover, interaction of the NPs with the macrophages of reticuloendothelial system (RES) may decrease NPs efficacy for medical purposes. The surface of NPs is conventionally neutralized with the molecules such as poly(ethylene glycol) (PEG), as one of the most widely applied stealth polymers, in order to restrict the NPs clearance through the RES system. In fact, these molecules exhibit resistance to the RES clearance and proteins adsorption. It is unfortunate that modifying the PEG has some shortcomings like problems in the synthesis as well as correlation to the immune reaction. The CD47 receptor has been well known as a ‘don’t-eat-me’ molecule on the self-cells' surface. Therefore, the receptor will inhibit phagocytosis via binding to its ligand that is known as the signal regulatory protein α (SIRP-α). Moreover, the CD47 receptor, as one of the biomimetic substances, or its derivative peptides have been used recently on the surface of nanoparticles to inhibit phagocytosis and increase the NPs retention time in the blood circulation.
Therefore, this review study examined the CD47 receptor and its role in the immune system as well as the use of the CD47 receptor in coating NPs to increase their retention time in the blood circulation.
The clustered regularly interspaced short palindromic repeats system, called CRISPR, as one of the major technological advances, allows geneticists and researchers to perform genome editing. This remarkable technology is quickly eclipsing zinc-finger nucleases (ZFNs) and other editing tools, and its ease of use and accuracy have thus far revolutionized genome editing, from fundamental science projects to medical research and treatment options. This system consists of two key components: a CRISPR-associated (Cas) nuclease, which binds and cuts deoxyribonucleic acid (DNA) and a guide ribonucleic acid (gRNA) sequence, directing the Cas nuclease to its target site. In the research arena, CRISPR has been up to now exploited in various ways alongside gene editing, such as epigenome modifications, genome-wide screening, targeted cancer therapies, and so on. This article reviews the current perceptions of the CRISPR/Cas systems with special attention to studies reflecting on the relationship between the CRISPR/Cas systems and their role in cancer therapy.
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