Amir Zarebkohan scite author profile

Nowadays, a large population around the world, especially the elderly, suffers from neurological inflammatory and degenerative disorders/diseases. Current drug delivery strategies are facing different challenges because of the presence of the BBB, which limits the transport of various substances and cells to brain parenchyma. Additionally, the low rate of successful cell transplantation to the brain injury sites leads to efforts to find alternative therapies. Stem cell byproducts such as exosomes are touted as natural nano-drug carriers with 50–100 nm in diameter. These nano-sized particles could harbor and transfer a plethora of therapeutic agents and biological cargos to the brain. These nanoparticles would offer a solution to maintain paracrine cell-to-cell communications under healthy and inflammatory conditions. The main question is that the existence of the intact BBB could limit exosomal trafficking. Does BBB possess some molecular mechanisms that facilitate the exosomal delivery compared to the circulating cell? Although preliminary studies have shown that exosomes could cross the BBB, the exact molecular mechanism(s) beyond this phenomenon remains unclear. In this review, we tried to compile some facts about exosome delivery through the BBB and propose some mechanisms that regulate exosomal cross in pathological and physiological conditions.

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Co-delivery of curcumin and Bcl-2 siRNA by PAMAM dendrimers for enhancement of the therapeutic efficacy in HeLa cancer cells

Ghaffari

Dehghan

Baradaran

et al. 2020

Colloids and Surfaces B: Biointerfaces

112

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Significant role of cationic polymers in drug delivery systems

Farshbaf

Davaran

Zarebkohan

et al. 2017

Artificial Cells, Nanomedicine, and Biotechnology

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Cationic polymers are characterized as the macromolecules that possess positive charges, which can be either inherently in the polymer side chains and/or its backbone. Based on their origins, cationic polymers are divided in two category including natural and synthetic, in which the possessed positive charges are as result of primary, secondary or tertiary amine functional groups that could be protonated in particular situations. Cationic polymers have been employed commonly as drug delivery agents due to their superior encapsulation efficacy, enhanced bioavailability, low toxicity and improved release profile. In this paper, we focus on the most prominent examples of cationic polymers which have been revealed to be applicable in drug delivery systems and we also discuss their general synthesis and surface modification methods as well as their controlled release profile in drug delivery.

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Cell surface GRP78: An emerging imaging marker and therapeutic target for cancer

Farshbaf

Khosroushahi

Mojarad-Jabali

et al. 2020

Journal of Controlled Release

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Amir Zarebkohan

Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)¹

Exosomal delivery of therapeutic modulators through the blood–brain barrier; promise and pitfalls

Co-delivery of curcumin and Bcl-2 siRNA by PAMAM dendrimers for enhancement of the therapeutic efficacy in HeLa cancer cells

Significant role of cationic polymers in drug delivery systems

Cell surface GRP78: An emerging imaging marker and therapeutic target for cancer

Contact Info

Product

Resources

About

Amir Zarebkohan

Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)1

Exosomal delivery of therapeutic modulators through the blood–brain barrier; promise and pitfalls

Co-delivery of curcumin and Bcl-2 siRNA by PAMAM dendrimers for enhancement of the therapeutic efficacy in HeLa cancer cells

Significant role of cationic polymers in drug delivery systems

Cell surface GRP78: An emerging imaging marker and therapeutic target for cancer

Contact Info

Product

Resources

About

Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)¹