Local release of NECA (5′-(N-ethylcarboxamido)adenosine) from implantable polymeric sheets for enhanced islet revascularization in extrahepatic transplantation site

Clinical intraportal pancreatic islet infusion is popular for treating type I diabetes. However, multiple doses of islets and anti-rejection protocols are needed to compensate for early large cell losses post-infusion due to the harsh hepatic environment. Thus, extrahepatic sites are utilized to ena...

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Published in:Journal of controlled release 2020-05, Vol.321, p.509-518
Main Authors: Nguyen, Tiep Tien, Emami, Fakhrossadat, Yook, Simmyung, Nguyen, Hanh Thuy, Pham, Tung Thanh, Pathak, Shiva, Regmi, Shobha, Kim, Jong Oh, Yong, Chul Soon, Kim, Jae-Ryong, Jeong, Jee-Heon
Format: Article
Language:English
Subjects:
Adenosine signaling
Adenosine-5'-(N-ethylcarboxamide)
Animals
Endothelial Cells
Extrahepatic transplantation
Islet revascularization
Islets of Langerhans
Islets of Langerhans Transplantation
Mice
NECA
Organ Transplantation
Polymeric sheet
Polymers
Prostheses and Implants
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Summary:Clinical intraportal pancreatic islet infusion is popular for treating type I diabetes. However, multiple doses of islets and anti-rejection protocols are needed to compensate for early large cell losses post-infusion due to the harsh hepatic environment. Thus, extrahepatic sites are utilized to enable efficient islet engraftment and reduce islet mass. Here, we reported an effective islet revascularization protocol that was based on the co-implantation of islet/fibrin gel construct with poly(lactic-co-glycolic) acid sheet releasing NECA (5′-(N-ethylcarboxamido) adenosine; a potent agonist of adenosine) into mouse epididymal fat pad. Thin, flexible sheets (d = 4 mm) prepared by simple casting exhibited sustained NECA release for up to 21 days, which effectively improved early islet engraftment with a median diabetic reversal time of 18.5 days. Western blotting revealed the facilitative effect of NECA on VEGF expression from islets in vitro and from grafts in vivo. In addition, NECA directly promoted the angiogenic activities of islet-derived endothelial cells by enhancing their proliferation and vessel-like tube formation. As a result, neovasculatures were effectively formed in the engrafted islet vicinity, as evidenced by vasculature imaging and immunofluorescence. Taken together, we suggest NECA-releasing PLGA sheets offer a safe and effective drug delivery system that enhances islet engraftment while reducing islet mass at extrahepatic sites for clinical relevance. [Display omitted]
ISSN:0168-3659
1873-4995
DOI:10.1016/j.jconrel.2020.02.029