PCL from PolySciTech used in microparticles for delivery of psoralen to treat arthritis

 

Rheumatoid Arthritis is a degenerative joint disease caused by the breakdown of cartilage. Researchers at China Three Gorges University used PCL (cat# AP257) from PolySciTech Division of Akina, Inc. (www.polyscitech.com) to develop microparticles to deliver psoralen to joints for arthritis treatment. Read more: Wang, Yanhua, Lixian Zhu, Zhijie Gao, Tengyue Zhang, Hechao Zhao, and Dexian Zeng. "Psoralen-Loaded Polycaprolactone Microspheres: A Ph-Responsive Drug Carrier for the Treatment of Rheumatoid Arthritis." Available at SSRN 5277165. https://papers.ssrn.com/sol3/papers.cfm?abstract_id=5277165

“Developing novel drug carriers for delivery of psoralen (PSO) is crucial to inhibit the pathogenesis of rheumatoid arthritis (RA). The goal of this work is to develop PSO-loaded polycaprolactone (PCL) microspheres through a single emulsion solvent evaporation route, helping to release drug in a controllable manner and thereby improve its bioavailability. The resulting PCL@PSO microspheres are characterized by multiple physicochemical techniques. Results exhibit the loading of PSO into PCL increases the size and specific surface area. Also, the encapsulation efficiency and loading capacity of PCL@PSO microspheres are (87.77 ± 0.07)% and (12.28 ± 0.01)%, respectively. Release experiments show such microspheres exhibit pH-responsive drug kinetics, predominantly releasing PSO in alkaline environments in contrast with neutral or acidic conditions. This release pattern is conducive to inhibit inflammatory response whilst promote osteanagenesis in bone microenvironment. Cell experiments demonstrate PCL@PSO microspheres are cytocompatible with BMSCs cell but strongly toxic to RBL-2H3 cell. Mechanistically, mitochondrial apoptotic pathway, as evidenced by the up-regulation of pro-apoptosis proteins such as Caspase3, Cyto-c and Bax, is activated by PCL@PSO via increased ROS and reduced mitochondria membrane potentials. Further, the up-regulation of APC and LATS1 and the down-regulation of OIP5 are contributed to RBL-2H3 cell apoptosis. Moreover, PCL@PSO could down-regulate histamine receptor HRH1 expression in RBL-2H3 cell, thereby inhibiting inflammation expansion. Conclusively, it is feasible to use PCL@PSO microspheres as candidate micro-carriers to deliver PSO, terminally benefitting to inhibit inflammatory response whilst promote osteanagenesis, especially for individuals suffered from rheumatoid arthritis. Keywords: PCL, PSO, Drug delivery, disease therapy”

PCL (Cat# AP257): https://akinainc.com/polyscitech/products/polyvivo/index.php?highlight=AP257#h

Akina, Inc. launches new GMP manufacturing service available to outside customers https://www.akinainc.com/midwestgmp/

Corbion Purasorb® Polymers: https://akinainc.com/polyscitech/products/purasorb/

Ashland-TM Polymer Products: https://akinainc.com/polyscitech/products/ashland/

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