Hashem Khanbabaei scite author profile

Todays, nano-pharmaceutics is emerging as an important field of science to develop and improve efficacy of different drugs. Although nutraceuticals are currently being utilized in the prevention and treatment of various chronic diseases such as cancers, a number of them have displayed issues associated with their solubility, bioavailability, and bio-degradability. In the present review, we focus on curcumin, an important and widely used polyphenol, with diverse pharmacological activities such as anti-inflammatory, anti-carcinogenic, anti-viral, etc. Notwithstanding, it also exhibits poor solubility and bioavailability that may compromise its clinical application to a great extent. Therefore, the manipulation and encapsulation of curcumin into a nanocarrier formulation can overcome these major drawbacks and potentially may lead to a far superior therapeutic efficacy. Among different types of nanocarriers, biological and biopolymer carriers have attracted a significant attention due to their pleiotropic features. Thus, in the present review, the potential protective and therapeutic applications of curcumin, as well as different types of bio-nanocarriers, which can be used to deliver curcumin effectively to the different target sites will be discussed.

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Curcumin inhibits NF-kB and Wnt/β-catenin pathways in cervical cancer cells

Ghasemi

Shafiee

Banikazemi

et al. 2019

Pathology - Research and Practice

221

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Chitosan-based advanced materials for docetaxel and paclitaxel delivery: Recent advances and future directions in cancer theranostics

Ashrafizadeh

Ahmadi

Mohamadi

et al. 2020

International Journal of Biological Macromolecules

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Paclitaxel (PTX) and docetaxel (DTX) are key members of taxenes with high anti-tumor activity against various cancer cells. These chemotherapeutic agents suffer from a number of drawbacks and it seems that low solubility in water is the most important one. Although much effort has been made in improving the bioavailability of PTX and DTX, the low bioavailability and minimal accumulation at tumor sites are still the challenges faced in PTX and DTX therapy.As a consequence, biomaterial-synthesized NPs have attracted much attention due to unique properties. Among them, chitosan (CS) is of interest due to its great biocompatibility. CS is a positively charged polysaccharide with the capability of interaction with negatively charged biomolecules. Besides, it can be processed into the sheet, micro/nano-particles, scaffold, and is dissolvable in mildly acidic pH similar to the pH of the tumor microenvironment. Keeping in mind the different applications of CS in the preparation of nanocarriers for delivery of PTX and DTX, in the present review, we demonstrate that how CS functionalized-nanocarriers and CS modification can be beneficial in enhancing the bioavailability of PTX and DTX, targeted delivery at tumor site, image-guided delivery and co-delivery with other anti-tumor drugs or genes.

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Circular RNA and Diabetes: Epigenetic Regulator with Diagnostic Role

Abbaszadeh‐Goudarzi

Radbakhsh

Pourhanifeh

et al. 2020

CMM

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: Circular RNAs, a group of endogenous non-coding RNAs, are characterized by covalently closed cyclic structures with no poly-adenylated tails. It has been recently recommended that cirRNAs have an essential role in regulating genes expression by functioning as a translational regulator, RNA binding protein sponge and microRNA sponge. Due to their close relation to the progression of various diseases such as diabetes, circRNAs have become a research hotspot. A number of circRNAs (i.e., circRNA_0054633, circHIPK3, circANKRD36, and circRNA11783-2) have been shown to be associated with initiation and progression of diabetes. Based on reports, in a tissue, some circRNAs are expressed in a developmental stage-specific manner. In this study, we reviewed research on circular RNAs involved in the pathogenesis and diagnosis of diabetes and their prognostic roles.

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Autophagy Modulators: Mechanistic Aspects and Drug Delivery Systems

et al. 2019

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Autophagy modulation is considered to be a promising programmed cell death mechanism to prevent and cure a great number of disorders and diseases. The crucial step in designing an effective therapeutic approach is to understand the correct and accurate causes of diseases and to understand whether autophagy plays a cytoprotective or cytotoxic/cytostatic role in the progression and prevention of disease. This knowledge will help scientists find approaches to manipulate tumor and pathologic cells in order to enhance cellular sensitivity to therapeutics and treat them. Although some conventional therapeutics suffer from poor solubility, bioavailability and controlled release mechanisms, it appears that novel nanoplatforms overcome these obstacles and have led to the design of a theranostic-controlled drug release system with high solubility and active targeting and stimuli-responsive potentials. In this review, we discuss autophagy modulators-related signaling pathways and some of the drug delivery strategies that have been applied to the field of therapeutic application of autophagy modulators. Moreover, we describe how therapeutics will target various steps of the autophagic machinery. Furthermore, nano drug delivery platforms for autophagy targeting and co-delivery of autophagy modulators with chemotherapeutics/siRNA, are also discussed.

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