BACKGROUND: Macroencapsulated islets can reverse hyperglycemia in diabetic animals when transplanted i.p. or into the fat pad. The s.c. space is an attractive site for such transplantation because macrocapsules can be implanted with local anesthesia and be easily removed or reloaded with fresh islets. METHODS: Immunoprotective 20 microl ported devices were transplanted under the skin of Streptozocin-diabetic nude mice. Devices were loaded with 1200 rat islets in culture medium or in alginate. Empty devices were implanted for 2 weeks and then loaded with islets. Normal mice and mice with islets transplanted under the renal capsule or under the skin were used as controls. Seven weeks after transplantation, an intraperitoneal glucose tolerance test (IPGTT) was performed, followed by implant removal. RESULTS: Three weeks after transplantation, normal blood glucose levels were observed in all animals. Compared with those of normal controls, IPGTTs showed accelerated blood glucose clearance in mice transplanted with islets either within devices or beneath the kidney capsule. Fasted transplanted mice were hypoglycemic before glucose injection and 2 hr later. After removal of the implants, all recipient mice returned to hyperglycemia. Histological evaluation revealed viable islet cells and a network of close vascular structures outside the devices. CONCLUSIONS: Macroencapsulated islets transplanted into the s.c. space were able to survive and regulate blood glucose levels in mice. The observed differences in glucose metabolism between normal and transplanted mice may be attributed to the site of transplantation and to the use of rat islets, which have a different set point for glucose induced insulin release.
BACKGROUND: Macroencapsulated islets can reverse hyperglycemia in diabetic animals when transplanted i.p. or into the fat pad. The s.c. space is an attractive site for such transplantation because macrocapsules can be implanted with local anesthesia and be easily removed or reloaded with fresh islets. METHODS: Immunoprotective 20 microl ported devices were transplanted under the skin of Streptozocin-diabeticnude mice. Devices were loaded with 1200 rat islets in culture medium or in alginate. Empty devices were implanted for 2 weeks and then loaded with islets. Normal mice and mice with islets transplanted under the renal capsule or under the skin were used as controls. Seven weeks after transplantation, an intraperitoneal glucose tolerance test (IPGTT) was performed, followed by implant removal. RESULTS: Three weeks after transplantation, normal blood glucose levels were observed in all animals. Compared with those of normal controls, IPGTTs showed accelerated blood glucose clearance in mice transplanted with islets either within devices or beneath the kidney capsule. Fasted transplanted mice were hypoglycemic before glucose injection and 2 hr later. After removal of the implants, all recipient mice returned to hyperglycemia. Histological evaluation revealed viable islet cells and a network of close vascular structures outside the devices. CONCLUSIONS: Macroencapsulated islets transplanted into the s.c. space were able to survive and regulate blood glucose levels in mice. The observed differences in glucose metabolism between normal and transplanted mice may be attributed to the site of transplantation and to the use of rat islets, which have a different set point for glucose induced insulin release.
Authors: Marcelo J Perone; Suzanne Bertera; William J Shufesky; Sherrie J Divito; Angela Montecalvo; Alicia R Mathers; Adriana T Larregina; Mabel Pang; Nilufer Seth; Kai W Wucherpfennig; Massimo Trucco; Linda G Baum; Adrian E Morelli Journal: J Immunol Date: 2009-03-01 Impact factor: 5.422
Authors: Suzanne Bertera; Michael F Knoll; Carmela Knoll; Hidetaka Hara; Erin A Kimbrel; Nickolas A Kouris; Robert Lanza; Brett E Philips; Yesica Garciafigueroa; Nick Giannoukakis; David K C Cooper; Massimo Trucco; Rita Bottino Journal: Front Med (Lausanne) Date: 2021-04-15
Authors: A Rodriguez-Brotons; W Bietiger; C Peronet; J Magisson; C Sookhareea; A Langlois; C Mura; N Jeandidier; M Pinget; S Sigrist; E Maillard Journal: J Diabetes Res Date: 2015-12-28 Impact factor: 4.011