Transplante isogênico de ilhotas de Langerhans no fígado de ratos: metodologia para separação e purificação das ilhotas de Langerhans Isogenic islet transplantation on the rat liver: Method for isolation and purification of the rat islets

A maior indicação do transplante de pâncreas ou de ilhotas de Langerhans é o diabetes mellitus do tipo I. O processo deve suprir as necessidades de insulina mantendo os níveis glicêmicos dentro da normalidade. Estudou-se o transplante isogênico de ilhotas de Langerhans no fígado de ratos WAG-RT1u. Com o método de separação e purificação das ilhotas de Langerhans obteve-se 2.834 ± 551,64 ilhotas com pureza de 83 ± 2,45%. O transplante de 2.834 ± 551,64 ilhotas de Langerhans no fígado destes animais, normalizou a glicemia que chegou a 35 mmol/L após indução do diabetes pela estreptozotocina, ficando em 9,62 ± 2,65 mmol/L nos primeiros 10 dias após o enxerto e 7,43 ± 0,27 mmol/L nos dias subseqüentes (P <0,05). O tempo médio de sobrevida das ilhotas transplantadas foi de 73 dias. Assim, o método para separação e purificação de ilhotas de Langerhans de ratos foi eficaz e o isotransplante de ilhotas de Langerhans em ratos foi efetivo na correção do diabetes induzido por estreptozotocina, havendo sobrevida média superior a 73 dias do enxerto e do animal quando os animais foram sacrificados.<br>The major indication for pancreas or islet transplantation is diabetes mellitus type I. This process has to supply the insulin necessity keeping glucose under control. We have studied isogenic islet transplantation on the rat (WAG-RT1u) liver. The method of isolation and purification of the islets obtained 2.834 ± 551,64 islets with purity of 83 ± 2,45%. Diabetes was induced by streptozotocin and seric glucose prior transplantation was 35 mmol/L. The islet transplantation of 2.834 ± 551,64 islets in the rat liver has normalized glucose test from 9,62 ± 2,65 mmol/L 10 days after transplantation to 7,43 ± 0,27 mmol/L later in the follow-up (P <0,05). The median survival time of the islets was 73 days. In conclusion both the method of isolation and purification of the islets and islet transplantation was effective in the control of the diabetes induced by streptozotocin with median survival time of both islet and rat more than 73 days when rats were sacrificied

Transplantation sites for human and murine islets

AIMS/HYPOTHESIS: Beta cell replacement is a potential cure for type 1 diabetes. In humans, islet transplants are currently infused into the liver via the portal vein, although this site has disadvantages. Here, we investigated alternative transplantation sites for human and murine islets in recipient mice, comparing the portal vein with quadriceps muscle and kidney, liver and spleen capsules. METHODS: Murine islets were isolated from C57BL6/J mice and transplanted into syngeneic recipients. Human islets were isolated and transplanted into either severe combined immunodeficiency (SCID) or recombination-activating gene 1 (RAG-1) immunodeficient recipient mice. All recipient mice were 8-12 weeks of age and had been rendered diabetic (defined as blood glucose concentrations ≥20 mmol/l on two consecutive days before transplantation) by alloxan tetrahydrate treatment. Islets were transplanted into five different sites (portal vein, quadriceps muscle, kidney, liver and spleen capsules). Blood glucose concentrations were monitored twice weekly until mice were killed. Dose-response studies were also performed to determine the minimum number of islets required to cure diabetes ('cure' is defined for this study as random fed blood glucose of <15 mmol/l). RESULTS: For transplantation of murine islets into the different sites, the kidney yielded 100% success, followed by muscle (70%), portal vein (60%), spleen capsule (29%) and liver capsule (0%). For human islets, transplantation into the kidney cured diabetes in 75-80% of recipient mice. Transplantation into muscle and portal vein had intermediate success (both 29% at 2000 islet equivalents), while transplantation into liver and spleen capsule failed (0%). With increased islet mass, success rates for muscle grafts improved to 52-56%. CONCLUSIONS/INTERPRETATION: For both human and murine islets, equivalent or superior glucose lowering results were obtained for transplantation into skeletal muscle, compared with the portal vein. Unfortunately, kidney grafts are not feasible in human recipients. Skeletal muscle offers easier access and greater potential for protocol biopsies. This study suggests that human trials of muscle as a transplant site may be warranted