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Expert Opinion on Biological Therapy Volume 15, 2015 - Issue 9
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Review

Development of an encapsulated stem cell-based therapy for diabetes

Alice Anna TomeiUniversity of Miami Miller School of Medicine, Diabetes Research Institute, 1450 NW 10th Avenue, Miami, FL 33136, USA+1 305 243 3469; [email protected];University of Miami, Department of Biomedical Engineering, 1251 Memorial Drive, McArthur Annex, Coral Gables, FL 33146, USA;University of Miami Miller School of Medicine, Department of Surgery, Miami, FL, USA
, PhD,
Chiara VillaUniversity of Miami Miller School of Medicine, Diabetes Research Institute, 1450 NW 10th Avenue, Miami, FL 33136, USA+1 305 243 3469; [email protected];Universitá degli Studi di Milano, Department of Pathophysiology and Transplantation, Milano, Italy;Fondazione IRCCS Ca’ Granda Ospedale Maggiore Policlinico, Milano, Italy
&
Camillo RicordiUniversity of Miami Miller School of Medicine, Diabetes Research Institute, 1450 NW 10th Avenue, Miami, FL 33136, USA+1 305 243 3469; [email protected];University of Miami Miller School of Medicine, Department of Surgery, Miami, FL, USA;University of Miami Miller School of Medicine, Department of Microbiology and Immunology, Miami, FL, USA;University of Miami, Department of Biomedical Engineering, Miami, FL, USA;University of Miami Miller School of Medicine, Department of Medicine, Miami, FL, USA
Pages 1321-1336 | Published online: 09 Jul 2015

Bibliography

  • International Diabetes Federation (IDF), IDF Diabetes ATLAS, Sixth edition 2014
  • Pugliese A. Advances in the etiology and mechanisms of type 1 diabetes. Discov Med 2014;18(98):141-50
  • Cabrera O, Berman DM, Kenyon NS, et al. The unique cytoarchitecture of human pancreatic islets has implications for islet cell function. Proc Natl Acad Sci USA 2006;103(7):2334-9
  • van Belle TL, Coppieters KT, von Herrath MG. Type 1 diabetes: etiology, immunology, and therapeutic strategies. Physiol Rev 2011;91(1):79-118
  • Pugliese A. The multiple origins of Type 1 diabetes. Diabet Med 2013;30(2):135-46
  • Bogdani M, Korpos E, Simeonovic CJ, et al. Extracellular matrix components in the pathogenesis of type 1 diabetes. Curr Diab Rep 2014;14(12):552
  • Tanenberg RJ, Newton CA, Drake AJ. Confirmation of hypoglycemia in the “dead-in-bed” syndrome, as captured by a retrospective continuous glucose monitoring system. Endocrine practice 2010;16(2):244-8
  • Ly TT, Nicholas JA, Retterath A, et al. Effect of sensor-augmented insulin pump therapy and automated insulin suspension vs standard insulin pump therapy on hypoglycemia in patients with type 1 diabetes: a randomized clinical trial. Jama 2013;310(12):1240-7
  • Russell SJ, El-Khatib FH, Sinha M, et al. Outpatient glycemic control with a bionic pancreas in type 1 diabetes. N Engl J Med 2014;371(4):313-25
  • Ricordi C, Lacy PE, Finke EH, et al. Automated method for isolation of human pancreatic islets. Diabetes 1988;37(4):413-20
  • Piemonti L, Pileggi A. 25 Years of the Ricordi Automated Method for Islet Isolation. CellR4 2013;1(1):e128
  • Tzakis AG, Ricordi C, Alejandro R, et al. Pancreatic islet transplantation after upper abdominal exenteration and liver replacement. Lancet 1990;336(8712):402-5
  • Gibly RF, Graham JG, Luo X, et al. Advancing islet transplantation: from engraftment to the immune response. Diabetologia 2011;54(10):2494-505
  • Ricordi C. Islet transplantation: a brave new world. Diabetes 2003;52(7):1595-603
  • Ricordi C, Strom TB. Clinical islet transplantation: advances and immunological challenges. Nat Rev Immunol 2004;4(4):259-68
  • Shapiro AM, Lakey JR, Ryan EA, et al. Islet transplantation in seven patients with type 1 diabetes mellitus using a glucocorticoid-free immunosuppressive regimen. N Engl J Med 2000;343(4):230-8
  • Collaborative Islet Transplant Registry Coordinating Center - The EMMES, Coproration R, MD. Seventh Annual Report. 2010
  • Bruni A, Gala-Lopez B, Pepper AR, et al. Islet cell transplantation for the treatment of type 1 diabetes: recent advances and future challenges. Diabetes Metab Syndr Obes 2014;7:211-23
  • Basta G, Calafiore R. Immunoisolation of pancreatic islet grafts with no recipient’s immunosuppression: actual and future perspectives. Curr Diab Rep 2011;11(5):384-91
  • Scharp DW, Marchetti P. Encapsulated islets for diabetes therapy: history, current progress, and critical issues requiring solution. Adv Drug Deliv Rev 2014;67-68:35-73
  • Ryan EA, Bigam D, Shapiro AM. Current indications for pancreas or islet transplant. Diabetes Obes Metabol 2006;8(1):1-7
  • de Vos P, Lazarjani HA, Poncelet D, Faas MM. Polymers in cell encapsulation from an enveloped cell perspective. Adv Drug Deliv Rev 2014;67-68:15-34
  • Van Schilfgaarde R, De Vos P. Factors influencing the properties and performance of microcapsules for immunoprotection of pancreatic islets. J Mol Med 1999;77:199-205
  • Barkai U, Weir GC, Colton CK, et al. Enhanced oxygen supply improves islet viability in a new bioartificial pancreas. Cell Transplant 2013;22(8):1463-76
  • Ludwig B, Reichel A, Steffen A, et al. Transplantation of human islets without immunosuppression. Proc Natl Acad Sci U S A 2013;110(47):19054-8
  • Kumagai-Braesch M, Jacobson S, Mori H, et al. The TheraCyte device protects against islet allograft rejection in immunized hosts. Cell Transplant 2013;22(7):1137-46
  • Rafael E, Wernerson A, Arner P, Tibell A. In vivo studies on insulin permeability of an immunoisolation device intended for islet transplantation using the microdialysis technique. Eur Surg Res 1999;31(3):249-58
  • Uludag H, De Vos P, Tresco PA. Technology of mammalian cell encapsulation. Adv Drug Deliv Rev 2000;42(1-2):29-64
  • Brendel MH, Schulz A, Bretzel R. International Islet Transplant Registry report. University of Giessen; Giessen, Germany: 1999
  • Spector M, Cease C, Tong-Li X. The local tissue response to biomaterials. Crit Rev Biocomp 1989;5:269-95
  • Chang TM. Semipermeable Microcapsules. Science (New York, NY) 1964;146(3643):524-5
  • Winn SR, Tresco PA, Zielinski B, et al. Behavioral recovery following intrastriatal implantation of microencapsulated PC12 cells. Exp Neurol 1991;113:322-9
  • Legallais C, Doré DE. Bioartificial livers (BAL): Current technological aspects and future developments. J Membrane Sci 2001;181(181):81-54
  • Hortelano G, Xu N, Vandenberg A, et al. Persistent delivery of factor IX in mice: gene therapy for hemophilia using implantable microcapsules. Hum Gene Ther 1999;10:1281-8
  • Cheng WT, Chen BC, Chiou ST, Chen CM. Use of nonautologous microencapsulated fibroblasts in growth hormone gene therapy to improve growth of midget swine. Hum Gene Ther 1998;9:1995-2003
  • Lim F, Sun AM. Microencapsulated islets as bioartificial endocrine pancreas. Science (New York, NY) 1980;210(4472):908-10
  • Calafiore R, Basta G. Clinical application of microencapsulated islets: Actual prospectives on progress and challenges. Adv Drug Deliv Rev 2013. [ Epub ahead of print].
  • Rabanel JM, Banquy X, Zouaoui H, et al. Progress technology in microencapsulation methods for cell therapy. Biotechnol Prog 2009;25(4):946-63
  • Paredes Juarez GA, Spasojevic M, Faas MM, de Vos P. Immunological and technical considerations in application of alginate-based microencapsulation systems. Front Bioeng Biotechnol 2014;2:26
  • Rokstad AM, Lacik I, de Vos P, Strand BL. Advances in biocompatibility and physico-chemical characterization of microspheres for cell encapsulation. Adv Drug Deliv Rev 2014 Apr;67-68:111-30.
  • Cantarelli E, Piemonti L. Alternative transplantation sites for pancreatic islet grafts. Curr Diab Rep 2011;11(5):364-74
  • Schweicher J, Nyitray C, Desai TA. Membranes to achieve immunoprotection of transplanted islets. Front Biosci (Landmark Ed) 2014;19:49-76
  • Colton CK. Implantable biohybrid artificial organs. Cell Transplant 1995;4(4):415-36
  • Li RH. Materials for immunoisolated cell transplantation. Adv Drug Deliv Rev 1998;33(1-2):87-109
  • Wang RN, Rosenberg L. Maintenance of beta-cell function and survival following islet isolation requires re-establishment of the islet-matrix relationship. J Endocrinol 1999;163(2):181-90
  • Carlsson PO, Palm F, Andersson A, Liss P. Markedly decreased oxygen tension in transplanted rat pancreatic islets irrespective of the implantation site. Diabetes 2001;50(3):489-95
  • Strand BL, Mörch YA, Skjak-Bræk G. Alginate as immobilization matrix for cells. Minerva Biotecnologica 2001;12:223-33
  • Draget KI, Skjak-Braek G, Smidsrod O. Alginate based new materials. Int J Biol Macromol 1997;21(1-2):47-55
  • Soon-Shiong P, Desai NP, Sanford PA, et al. Crosslinkable polysaccharides, polycations and lipids useful for encapsulation and drug release. Patent PCT/US92/09364 World International Property Organization 1993;1-52
  • Mazaheri R, Atkison P, Stiller C, et al. Transplantation of encapsulated allogeneic islets into diabetic BB/W rats. Effects of immunosuppression. Transplantation 1991;51(4):750-4
  • Duvivier-Kali VF, Omer A, Parent RJ, et al. Complete protection of islets against allorejection and autoimmunity by a simple barium-alginate membrane. Diabetes 2001;50(8):1698-705
  • Omer A, Duvivier-Kali V, Fernandes J, et al. Long-term normoglycemia in rats receiving transplants with encapsulated islets. Transplantation 2005;79(1):52-8
  • Wang T, Adcock J, Kuhtreiber W, et al. Successful allotransplantation of encapsulated islets in pancreatectomized canines for diabetic management without the use of immunosuppression. Transplantation 2008;85(3):331-7
  • Lanza RP, Jackson R, Sullivan A, et al. Xenotransplantation of cells using biodegradable microcapsules. Transplantation 1999;67(8):1105-11
  • Lum ZP, Krestow M, Tai IT, et al. Xenografts of rat islets into diabetic mice. An evaluation of new smaller capsules. Transplantation 1992;53(6):1180-3
  • Sun Y, Ma X, Zhou D, et al. Normalization of diabetes in spontaneously diabetic cynomologus monkeys by xenografts of microencapsulated porcine islets without immunosuppression. J Clin Invest 1996;98(6):1417-22
  • Soon-Shiong P, Heintz RE, Merideth N, et al. Insulin independence in a type 1 diabetic patient after encapsulated islet transplantation. Lancet 1994;343(8903):950-1
  • Calafiore R, Basta G, Luca G, et al. Microencapsulated pancreatic islet allografts into nonimmunosuppressed patients with type 1 diabetes: first two cases. Diabetes Care 2006;29(1):137-8
  • Bracho-Blanchet AC, Ramírez-González B, López-Santos MG, et al. Long-term follow-up of patients with type 1 diabetes trans- planted with neonatal pig islets. Clin Exp Immunol 2010;62:537-42
  • Gala-Lopez B, Pepper AR, Shapiro JAM. Biologic agents in islet transplantation. Curr Diab Rep 2013;13(5):713-22
  • Jacobs-Tulleneers-Thevissen D, Chintinne M, Ling Z, et al. Sustained function of alginate-encapsulated human islet cell implants in the peritoneal cavity of mice leading to a pilot study in a type 1 diabetic patient. Diabetologia 2013;56(7):1605-14
  • Opara EC, McQuilling JP, Farney AC. Microencapsulation of pancreatic islets for use in a bioartificial pancreas. Methods Mol Biol 2013;1001:261-6
  • Dufrane D, Gianello P. Macro- or microencapsulation of pig islets to cure type 1 diabetes. World J Gastroenterol 2012;18(47):6885-93
  • Santos E, Pedraz JL, Hernandez RM, Orive G. Therapeutic cell encapsulation: ten steps towards clinical translation. J Control Release 2013;170(1):1-14
  • Cruise GM, Hegre OD, Scharp DS, Hubbell JA. A sensitivity study of the key parameters in the interfacial photopolymerization of poly(ethylene glycol) diacrylate upon porcine islets. Biotechnol Bioeng 1998;57(6):655-65
  • Cruise GM, Scharp DS, Hubbell JA. Characterization of permeability and network structure of interfacially photopolymerized poly(ethylene glycol) diacrylate hydrogels. Biomaterials 1998;19(14):1287-94
  • Hill RS, Cruise GM, Hager SR, et al. Immunoisolation of adult porcine islets for the treatment of diabetes mellitus. The use of photopolymerizable polyethylene glycol in the conformal coating of mass-isolated porcine islets. Ann N Y Acad Sci 1997;831:332-43
  • Tomei AA, Manzoli V, Fraker CA, et al. Device design and materials optimization of conformal coating for islets of Langerhans. Proc Natl Acad Sci U S A 2014 Jun 30;111(29):10514-19.
  • Bryant SJ, Bender RJ, Durand KL, Anseth KS. Encapsulating chondrocytes in degrading PEG hydrogels with high modulus: engineering gel structural changes to facilitate cartilaginous tissue production. Biotechnol Bioeng 2004;86(7):747-55
  • Burdick JA, Anseth KS. Photoencapsulation of osteoblasts in injectable RGD-modified PEG hydrogels for bone tissue engineering. Biomaterials 2002;23(22):4315-23
  • Nuttelman CR, Tripodi MC, Anseth KS. In vitro osteogenic differentiation of human mesenchymal stem cells photoencapsulated in PEG hydrogels. J Biomed Mat Res Part A 2004;68(4):773-82
  • Tomei AA, Manzoli V, Fraker CA, et al. Device design and materials optimization of conformal coating for islets of Langerhans. Proc Natl Acad Sci U S A 2014;111(29):10514-19
  • Lee DY, Park SJ, Nam JH, Byun Y. A new strategy toward improving immunoprotection in cell therapy for diabetes mellitus: long-functioning PEGylated islets in vivo. Tissue Eng 2006;12(3):615-23
  • Gattas-Asfura KM, Stabler CL. Bioorthogonal layer-by-layer encapsulation of pancreatic islets via hyperbranched polymers. ACS Appl Mater Interfaces 2013;5(20):9964-74
  • Rengifo HR, Giraldo JA, Labrada I, Stabler CL. Long-term survival of allograft murine islets coated via covalently stabilized polymers. Adv Healthc Mater 2014;3(7):1061-70. PEGylation nanocoatings
  • Stendahl JC, Kaufman DB, Stupp SI. Extracellular matrix in pancreatic islets: relevance to scaffold design and transplantation. Cell Transplant 2009;18(1):1-12
  • Sawhney AS, Pathak CP, Hubbell JA. Interfacial photopolymerization of poly(ethylene glycol)-based hydrogels upon alginate-poly(l-lysine) microcapsules for enhanced biocompatibility. Biomaterials 1993;14(13):1008-16
  • Chen P, Chu IU, Shiao SY, Fu J. Microencapsulation of islets in PEG-amine modified alginate–poly(l-lysine)–alginate microcapsules for constructing bioartificial pancreas. Ferment Bioeng 1998;86:185-90
  • O’Shea GM, Sun AM. Encapsulation of rat islets of langerhans prolongs xenograft survival in diabetic mice Diabetes. 1986;35:943-6
  • Mikos AG, McIntire LV, Anderson JM, Babensee JE. Host response to tissue engineered devices. Adv Drug Deliv Rev 1998;33(1-2):111-39
  • Rihova B. Immunocompatibility and biocompatibility of cell delivery systems. Adv Drug Deliv Rev 2000;42(1-2):65-80
  • Narang AS, Mahato RI. Biological and biomaterial approaches for improved islet transplantation. Pharmacol Rev 2006;58(2):194-243
  • de Vos P, Faas MM, Strand B, Calafiore R. Alginate-based microcapsules for immunoisolation of pancreatic islets. Biomaterials 2006;27(32):5603-17
  • De Vos P, De Haan BJ, Wolters GH, et al. Improved biocompatibility but limited graft survival after purification of alginate for microencapsulation of pancreatic islets. Diabetologia 1997;40(3):262-70
  • Charissoux JL, Najid A, Moreau JC, et al. Development of in vitro biocompatibility assays for surgical material. Clin Orthop Relat Res 1996 May(326):259-69
  • Lloyd AW, Dropcova S, Faragher RG, et al. The development of in vitro biocompatibility tests for the evaluation of intraocular biomaterials. J Mater science Mater Med 1999 Oct-Nov;10:10/11):6-7
  • Brissova M, Petro M, Lacik I, et al. Evaluation of microcapsule permeability via inverse size exclusion chromatography. Anal Biochem 1996;242(1):104-11
  • Lacik I. Polymer chemistry in diabetes treatment by encapsulated islets of Langerhans: review to 2006. Aust J Chem 2006;59(8):508-24
  • Carlsson PO, Palm F, Andersson A, Liss P. Chronically decreased oxygen tension in rat pancreatic islets transplanted under the kidney capsule. Transplantation 2000;69(5):761-6
  • Gaserod O, Smidsrod O, Skjak-Braek G. Microcapsules of alginate-chitosan--I. A quantitative study of the interaction between alginate and chitosan. Biomaterials 1998;19(20):1815-25
  • Thu B, Bruheim P, Espevik T, et al. Alginate polycation microcapsules. II. Some functional properties. Biomaterials 1996;17(11):1069-79
  • Blasi P, Giovagnoli S, Schoubben A, et al. Preparation and in vitro and in vivo characterization of composite microcapsules for cell encapsulation. Int J Pharm 2006;324(1):27-36
  • Lacik I, Brissova M, Anilkumar AV, et al. New capsule with tailored properties for the encapsulation of living cells. J Biomed Mater Res 1998;39(1):52-60
  • Orive G, Hernandez RM, Gascon AR, et al. Survival of different cell lines in alginate-agarose microcapsules. Eur J Pharm Sci 2003;18(1):23-30
  • de Vos P, Spasojevic M, de Haan BJ, Faas MM. The association between in vivo physicochemical changes and inflammatory responses against alginate based microcapsules. Biomaterials 2012;33(22):5552-9
  • Soon-Shiong P FE, Nelson R, Heintz R, et al. Long-term reversal of diabetes in the large animal model by encapsulated islet transplantation. Transplant Proc 1992;24(6):2946-7
  • Schmidt JJ, Rowley J, Kong HJ. Hydrogels used for cell-based drug delivery. J Biomed Mater Res Part A 2008;87(4):1113-22
  • Morch YA, Donati I, Strand BL, Skjak-Braek G. Effect of Ca2+, Ba2+, and Sr2+ on alginate microbeads. Biomacromolecules 2006;7(5):1471-80
  • Darrabie MD, Kendall WF, Opara EC. Effect of alginate composition and gelling cation on microbead swelling. J Microencapsul 2006;23(6):613-21
  • O’Sullivan ES, Vegas A, Anderson DG, Weir GC. Islets transplanted in immunoisolation devices: a review of the progress and the challenges that remain. Endocr Rev 2011;32(6):827-44
  • de Vos P, Bucko M, Gemeiner P, et al. Multiscale requirements for bioencapsulation in medicine and biotechnology. Biomaterials 2009;30(13):2559-70
  • Thanos CG, Calafiore R, Basta G, et al. Formulating the alginate-polyornithine biocapsule for prolonged stability: evaluation of composition and manufacturing technique. J Biomed Mater Res Part A 2007;83(1):216-24
  • Williams SJ, Huang HH, Kover K, et al. Reduction of diffusion barriers in isolated rat islets improves survival, but not insulin secretion or transplantation outcome. Organogenesis 2010;6(2):115-24
  • Buchwald P. FEM-based oxygen consumption and cell viability models for avascular pancreatic islets. Theor Biol Med Model 2009;6:5
  • Buchwald P. A local glucose-and oxygen concentration-based insulin secretion model for pancreatic islets. Theor Biol Med Model 2011;8:20
  • Elliott RB, Escobar L, Tan PL, et al. Live encapsulated porcine islets from a type 1 diabetic patient 9.5 yr after xenotransplantation. Xenotransplantation 2007;14(2):157-61
  • Tuch BE, Keogh GW, Williams LJ, et al. Safety and viability of microencapsulated human islets transplanted into diabetic humans. Diabetes Care 2009;32(10):1887-9
  • De Vos P, Vegter D, De Haan BJ, et al. Kinetics of intraperitoneally infused insulin in rats. Functional implications for the bioartificial pancreas. Diabetes 1996;45(8):1102-7
  • Colton CK, Avgoustiniatos ES. Bioengineering in development of the hybrid artificial pancreas. J Biomech Eng 1991;113(2):152-70
  • de Vos P, Vegter D, Strubbe JH, et al. Impaired glucose tolerance in recipients of an intraperitoneally implanted microencapsulated islet allograft is caused by the slow diffusion of insulin through the peritoneal membrane. Transplant Proc 1997;29(1-2):756-7
  • Bennet W, Groth CG, Larsson R, et al. Isolated human islets trigger an instant blood mediated inflammatory reaction: implications for intraportal islet transplantation as a treatment for patients with type 1 diabetes. Ups J Med Sci 2000;105(2):125-33
  • Gill RG, Bishop NH. Clinical islet transplantation: where immunity and metabolism intersect?. Curr Opin Endocrinol Diabetes Obes 2012;19(4):249-54
  • Berman DM, O’Neil JJ, Coffey LC, et al. Long-term survival of nonhuman primate islets implanted in an omental pouch on a biodegradable scaffold. Am J Transplant 2009;9(1):91-104
  • Najjar M, Manzoli V, Villa C, et al. Fibrin gels engineered with pro-angiogenic growth factors promote engraftment of pancreatic islets in extrahepatic sites in mice. Biotechnol Bioeng 2015 Mar 18;10.1002/bit.25589. [Epub ahead of print]
  • Echeverri GJ, McGrath K, Bottino R, et al. Endoscopic gastric submucosal transplantation of islets (ENDO-STI): technique and initial results in diabetic pigs. Am J Transplant 2009;9(11):2485-96
  • Jansson L, Carlsson PO. Graft vascular function after transplantation of pancreatic islets. Diabetologia 2002;45(6):749-63
  • Brissova M, Powers AC. Revascularization of transplanted islets: can it be improved? Diabetes 2008;57(9):2269-71
  • Narang AS, Cheng K, Henry J, et al. Vascular endothelial growth factor gene delivery for revascularization in transplanted human islets. Pharm Res 2004;21(1):15-25
  • Stendahl JC, Wang LJ, Chow LW, et al. Growth factor delivery from self-assembling nanofibers to facilitate islet transplantation. Transplantation 2008;86(3):478-81
  • Pedraza E, Coronel MM, Fraker CA, et al. Preventing hypoxia-induced cell death in beta cells and islets via hydrolytically activated, oxygen-generating biomaterials. Proc Natl Acad Sci U S A 2012;109(11):4245-50
  • Marzorati S, Bocca N, Molano RD, et al. Effects of systemic immunosuppression on islet engraftment and function into a subcutaneous biocompatible device. Transplant Proc 2009;41(1):352-3
  • Beattie GM, Montgomery AM, Lopez AD, et al. A novel approach to increase human islet cell mass while preserving beta-cell function. Diabetes 2002;51(12):3435-9
  • Orlando G, Gianello P, Salvatori M, et al. Cell replacement strategies aimed at reconstitution of the beta-cell compartment in type 1 diabetes. Diabetes 2014;63(5):1433-44
  • Abdelalim EM, Emara MM. Advances and challenges in the differentiation of pluripotent stem cells into pancreatic beta cells. World J Stem Cells 2015;7(1):174-81
  • Lysy PA, Weir GC, Bonner-Weir S. Concise review: pancreas regeneration: recent advances and perspectives. Stem Cells Transl Med 2012;1(2):150-9
  • D’Amour KA, Bang AG, Eliazer S, et al. Production of pancreatic hormone-expressing endocrine cells from human embryonic stem cells. Nat Biotechnol 2006;24(11):1392-401
  • Kroon E, Martinson LA, Kadoya K, et al. Pancreatic endoderm derived from human embryonic stem cells generates glucose-responsive insulin-secreting cells in vivo. Nat Biotechnol 2008;26(4):443-52
  • Pagliuca FW, Millman JR, Gurtler M, et al. Generation of functional human pancreatic beta cells in vitro. Cell 2014;159(2):428-39
  • Rezania A, Bruin JE, Arora P, et al. Reversal of diabetes with insulin-producing cells derived in vitro from human pluripotent stem cells. Nat Biotechnol 2014;32(11):1121-33
  • Yang HK, Yoon KH. Current status of encapsulated islet transplantation. J Diabetes Complications 2015; [Epub ahead of print]
  • Bellin MD, Barton FB, Heitman A, et al. Potent induction immunotherapy promotes long-term insulin independence after islet transplantation in type 1 diabetes. Am J Transplant 2012;12(6):1576-83
  • Guleria I, Gubbels Bupp M, Dada S, et al. Mechanisms of PDL1-mediated regulation of autoimmune diabetes. Clin Immunol (Orlando, Fla) 2007;125(1):16-25
  • Pileggi A, Xu X, Tan J, Ricordi C. Mesenchymal stromal (stem) cells to improve solid organ transplant outcome: lessons from the initial clinical trials. Curr Opin Organ Transplant 2013;18(6):672-81
  • Francese R, Fiorina P. Immunological and regenerative properties of cord blood stem cells. Clin Immunol (Orlando, Fla) 2010;136(3):309-22
  • Fiorina P, Jurewicz M, Vergani A, et al. Targeting the CXCR4-CXCL12 axis mobilizes autologous hematopoietic stem cells and prolongs islet allograft survival via programmed death ligand 1. J Immunol (Baltimore, Md : 1950) 2011 Jan 1;186(1):121-31
  • Korpos E, Kadri N, Kappelhoff R, et al. The peri-islet basement membrane, a barrier to infiltrating leukocytes in type 1 diabetes in mouse and human. Diabetes 2013;62(2):531-42
  • Verhoef JJ, Carpenter JF, Anchordoquy TJ, Schellekens H. Potential induction of anti-PEG antibodies and complement activation toward PEGylated therapeutics. Drug Discov Today 2014 Sep 7;19(12):1945-52
  • Riolobos L, Hirata RK, Turtle CJ, et al. HLA engineering of human pluripotent stem cells. Mol Ther 2013;21(6):1232-41

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