Lee Eunsoo, Kim Hyun Jung, Shaker Mohammed R, Ryu Jae Ryun, Ham Min Seok, Seo Soo Hong, Kim Dai Hyun, Lee Kiwon, Jung Neoncheol, Choe Youngshik, Son Gi Hoon, Rhyu Im Joo, Kim Hyun, Sun Woong
Department of Anatomy and Division of Brain Korea 21 Plus Program for Biomedical Science, Korea University College of Medicine, 73, Inchon-ro, Seongbuk-gu, Seoul 02841, Republic of Korea.
Department of Dermatology, Korea University College of Medicine, Seoul, Republic of Korea.
ACS Biomater Sci Eng. 2019 Jul 8;5(7):3462-3474. doi: 10.1021/acsbiomaterials.9b00219. Epub 2019 Jun 25.
Decellularization of tissues provides extracellular matrix (ECM) scaffolds for regeneration therapy and an experimental model to understand ECM and cellular interactions. However, decellularization often causes microstructure disintegration and reduction of physical strength, which greatly limits the use of this technique in soft organs or in applications that require maintenance of physical strength. Here, we present a new tissue decellularization procedure, namely CASPER (linically and Experimentally pplicable Acellular Tissue caffold roduction for Tissue ngineering and egenerative Medicine), which includes infusion and hydrogel polymerization steps prior to robust chemical decellularization treatments. Polymerized hydrogels serve to prevent excessive damage to the ECM while maintaining the sophisticated structures and biological activities of ECM components in various organs, including soft tissues such as brains and embryos. CASPERized tissues were successfully recellularized to stimulate a tissue-regeneration-like process after implantation without signs of pathological inflammation or fibrosis in vivo, suggesting that CASPERized tissues can be used for monitoring cell-ECM interactions and for surrogate organ transplantation.
组织去细胞化可为再生治疗提供细胞外基质(ECM)支架,并为理解ECM与细胞相互作用提供实验模型。然而,去细胞化常常会导致微观结构解体和物理强度降低,这极大地限制了该技术在软组织器官或需要维持物理强度的应用中的使用。在此,我们提出一种新的组织去细胞化方法,即CASPER(用于组织工程和再生医学的临床及实验适用的无细胞组织支架生产),该方法在进行强力化学去细胞化处理之前包括灌注和水凝胶聚合步骤。聚合水凝胶有助于防止对ECM造成过度损伤,同时保持包括脑和胚胎等软组织在内的各种器官中ECM成分的精细结构和生物活性。在体内植入后,经CASPER处理的组织成功地重新细胞化,以刺激类似组织再生的过程,且无病理炎症或纤维化迹象,这表明经CASPER处理的组织可用于监测细胞与ECM的相互作用以及替代器官移植。
