Experimental Studies Aiming to Prevent Type 1 Diabetes Mellitus

Rydgren, Tobias

January 2007

<p>Type 1 diabetes mellitus (T1DM) is an autoimmune disease in which T-cells and macrophages invade the islets of Langerhans and selectively destroy the insulin producing β-cells, either directly or through the secretion of e.g. cytokines and nitric oxide (NO). This thesis has studied possible strategies to prevent T1DM. In β-cells and macrophages, NO is produced by inducible nitric oxide synthase (iNOS). </p><p>In the first study, we found that 1400W, a highly selective inhibitor of iNOS could prevent interleukin (IL)-1β induced suppression of rat islet function <i>in vitro</i>, but not diabetes induced by multiple low dose streptozotocin (MLDS), a well established animal model for autoimmune diabetes, <i>in vivo</i>. </p><p>Next, we wanted to test a new type of high affinity blocker of IL-1 action, called IL-1 trap, <i>in vitro</i>. Here we found that an IL-1 trap could prevent the suppressive effects by IL-1β on rat pancreatic islet function. Also, it was sufficient to block the action of IL-1β to prevent islet cell death induced by a combination of IL-1β, tumor necrosis factor-α and interferon-γ.</p><p>In study III, a murine IL-1 trap was found to prolong islet graft survival in the recurrence of disease (ROD) model, a T1DM model that involves syngeneic transplantation of healthy pancreatic islets to diabetic nonobese diabetic mice. Mice treated with IL-1 trap displayed an increased mRNA level of the cytokine IL-4 in isolated spleen cells. This suggests a shift towards Th2-cytokine production, which in part could explain the results. </p><p>Finally, simvastatin an anti-hypercholesterolemic drug that possesses anti-inflammatory properties e.g. by interfering with transendothelial migration of leukocytes to sites of inflammation was studied. We found that the administration of simvastatin could delay, and in some mice prevent, the onset of MLDS-diabetes, and prolong islet graft survival in the ROD model. </p>

Cell biology

Diabetes

Interleukin-1 trap

Simvastatin

Nitric oxide synthase

Cytokine

Pancreatic islet

Streptozotocin

Transplantation

Cellbiologi

Experimental Studies Aiming to Prevent Type 1 Diabetes Mellitus

Rydgren, Tobias

January 2007

Type 1 diabetes mellitus (T1DM) is an autoimmune disease in which T-cells and macrophages invade the islets of Langerhans and selectively destroy the insulin producing β-cells, either directly or through the secretion of e.g. cytokines and nitric oxide (NO). This thesis has studied possible strategies to prevent T1DM. In β-cells and macrophages, NO is produced by inducible nitric oxide synthase (iNOS). In the first study, we found that 1400W, a highly selective inhibitor of iNOS could prevent interleukin (IL)-1β induced suppression of rat islet function in vitro, but not diabetes induced by multiple low dose streptozotocin (MLDS), a well established animal model for autoimmune diabetes, in vivo. Next, we wanted to test a new type of high affinity blocker of IL-1 action, called IL-1 trap, in vitro. Here we found that an IL-1 trap could prevent the suppressive effects by IL-1β on rat pancreatic islet function. Also, it was sufficient to block the action of IL-1β to prevent islet cell death induced by a combination of IL-1β, tumor necrosis factor-α and interferon-γ. In study III, a murine IL-1 trap was found to prolong islet graft survival in the recurrence of disease (ROD) model, a T1DM model that involves syngeneic transplantation of healthy pancreatic islets to diabetic nonobese diabetic mice. Mice treated with IL-1 trap displayed an increased mRNA level of the cytokine IL-4 in isolated spleen cells. This suggests a shift towards Th2-cytokine production, which in part could explain the results. Finally, simvastatin an anti-hypercholesterolemic drug that possesses anti-inflammatory properties e.g. by interfering with transendothelial migration of leukocytes to sites of inflammation was studied. We found that the administration of simvastatin could delay, and in some mice prevent, the onset of MLDS-diabetes, and prolong islet graft survival in the ROD model.

Cell biology

Diabetes

Interleukin-1 trap

Simvastatin

Nitric oxide synthase

Cytokine

Pancreatic islet

Streptozotocin

Transplantation

Cellbiologi

Bio-functionalized peg-maleimide hydrogel for vascularization of transplanted pancreatic islets

Phelps, Edward Allen

08 November 2011

Type 1 diabetes affects one in every 400-600 children and adolescents in the US. Standard therapy with exogenous insulin is burdensome, associated with a significant risk of dangerous hypoglycemia, and only partially efficacious in preventing the long term complications of diabetes. Pancreatic islet transplantation has emerged as a promising therapy for type 1 diabetes. However, this cell-based therapy is significantly limited by inadequate islet supply (more than one donor pancreas is needed per recipient), instant blood-mediated inflammatory reaction, and loss of islet viability/function during isolation and following implantation. In particular, inadequate revascularization of transplanted islets results in reduced islet viability, function, and engraftment. Delivery of pro-vascularization factors has been shown to improve vascularization and islet function, but these strategies are hindered by insufficient and/or complex release pharmacokinetics and inadequate delivery matrices as well as technical and safety considerations. We hypothesized that controlled presentation of angiogenic cues within a bioartificial matrix could enhance the vascularization, viability, and function of transplanted islets. The primary objective of this dissertation was to enhance allogenic islet engraftment, survival and function by utilizing synthetic hydrogels as engineered delivery matrices. Polyethylene glycol (PEG)-maleimide hydrogels presenting cell adhesive motifs and vascular endothelial growth factor (VEGF) were designed to support islet activities and promote vascularization in vivo. We analyzed the material properties and cyto-compatibility of these engineered materials, islet engraftment in a transplantation model, and glycemic control in diabetic subjects. The rationale for this project is to establish novel biomaterial strategies for islet delivery that support islet viability and function via the induction of local vascularization.

Vascularization

Transplantation

Polyethylene glycol

Hydrogel

Pancreatic islet

Maleimide

Colloids

Islands of Langerhans

Pancreas

Regenerative medicine

Leukocytes in Angiogenesis : Learning from Transplanted Pancreatic Islets

Christoffersson, Gustaf

January 2013

Angiogenesis, the growth of new blood vessels, is a complex process involving several cell types and molecular signals. Excessive vascular growth is a problem in tumors, and insufficient vascularization hampers the function of transplanted insulin-producing pancreatic islets. Understanding the mechanisms behind blood vessel growth generates increased means to control angiogenesis. In this thesis a model of pancreatic islet transplantation to muscle has been used to study the involvement of leukocytes in the development of new vasculature. Transplantation of isolated islets of Langerhans into mouse muscle promoted revascularization of the grafts to a level comparable to native islets in the pancreas. The complete and functional vascular restoration resulted in improved blood glucose control compared to the clinical standard implantation site, the liver. This proved muscle as a transplantation site to be a clinically relevant option for the treatment of type 1 diabetes. The rapid islet revascularization process was found to be dependent on a distinct subset of neutrophils characterized by high expression of the chemokine receptor CXCR4 and the enzyme matrix metalloproteinase 9 (MMP-9). These cells were recruited to recently transplanted and hypoxic grafts by islet-secreted vascular endothelial growth factor A (VEGF-A). Leukocyte migration and interactions in the engraftment area were monitored using a high-speed confocal microscope followed by software tracking. New software was developed to visualize migration statistics. This tool revealed areas around the islet graft where neutrophil gathering coincided with sites of angiogenesis. Macrophages in the engraftment area positioned themselves close to the newly formed vasculature and were shown to have a stabilizing effect on the vessels. When macrophages were removed, no pericytes were recruited to the forming vasculature. The perivascular macrophages also began to express a pericyte marker when in the graft, suggesting a close relationship between these cell types or macrophage plasticity. In conclusion, this thesis presents muscle as a proangiogenic transplantation site for pancreatic islets for the treatment of type 1 diabetes, where the revascularization of the grafts was dependent on the recruitment and actions of specialized immune cells.

angiogenesis

pancreatic islet transplantation

islets of Langerhans

diabetes mellitus

leukocytes

neutrophils

macrophages

pericytes

MMP-9

VEGF-A

A suplementação com glutationa-etil-éster durante o isolamento de ilhotas pancreáticas em roedores melhora a viabilidade celular e os resultados do transplante de ilhotas / Glutathione ethyl ester supplementationduring pancreatic islet isolation improves viability and transplant outcomes in a murine marginal islet mass model

Alexandre Sarubbi Raposo do Amaral

25 September 2012

As complicações relacionadas ao diabetes mellitus estão intimamente ligadas à hiperglicemia. Os pacientes que evoluem com grande instabilidade metabólica e progressão das complicações microvasculares apesar do tratamento intensivo com insulina são candidatos ao transplante de pâncreas. Neste contexto, o transplante de ilhotas pancreáticas surge como alternativa por ser menos invasivo e menos imunogênico. No entanto, o processo de digestão do pâncreas e isolamento das ilhotas pancreáticas expõe as células endócrinas a diversos estímulos nocivos, que resultam em diminuição da viabilidade das células isoladas e menor chance de sucesso após o transplante. A geração de espécies reativas de oxigênio (ERO) e o consumo das defesas anti-oxidantes durante o processo de digestão do pâncreas pode contribuir para a perda da viabilidade das ilhotas isoladas. O objetivo deste estudo foi avaliar o impacto da suplementação com glutationa etil mono-éster (GEE), um éster de melhor biodisponibilidade da glutationa (um importante anti-oxidante endógeno) nos resultados do isolamento e do transplante de ilhotas pancreáticas em um modelo animal. GEE foi adicionada na concentração de 10 mM na solução de colagenase durante o isolamento das ilhotas de rato. Após o isolamento, foram realizados estudos in vitro para avaliar a presença de ERO com o ensaio carboxi-H2DCFDA e a viabilidade das ilhotas isoladas com os ensaios JC-1 (integridade mitocondrial) e Sytogreen/brometo de etídio (integridade da membrana celular); viabilidade das células beta-pancreáticas por citometria de fluxo para avaliação de necrose e apoptose, TUNEL para a avaliação do índice de apoptose e secreção de insulina estimulada por glicose. Realizamos também estudos in vivo, com o transplante das ilhotas na cápsula renal de camundongos diabéticos, seguimento dos animais por 30 dias após o transplante e recuperação do enxerto para análise histológica. Quatro grupos de animais foram avaliados: 1) Animais transplantados com número suficiente de ilhotas para reverter o diabetes (500) não isoladas com GEE; 2) Animais transplantados com número suficiente de ilhotas (500) isoladas em presença de GEE; 3) Animais transplantados com número insuficiente de ilhotas (150) não isoladas com GEE e 4) Animais transplantados com número insuficiente de ilhotas (150) isoladas em presença de GEE. A suplementação com GEE na concentração de 10 mM durante o isolamento das ilhotas diminuiu a formação de ERO (Controle 57,0 ± 4,3% versus GEE 47,0 ± 3,9%, p = 0,0034) e aumentou a viabilidade das ilhotas, conforme demonstrado pelo ensaio Sytogreen/brometo de etídio (Controle 70,6 ± 3,4% versus GEE 83,6 ± 4,8%, p= 0,0010) e pela diminuição na porcentagem de células TUNEL-positivas (Controle de 39,2 ± 5,0% versus GEE 29,1 ± 1,9%, p= 0,042) no grupo tratado. O estudo de viabilidade por citometria de fluxo também mostrou um número maior de células beta pancreáticas viáveis no grupo tratado (Controle 21,4 ± 3,4% versus GEE 33,7 ± 3,9%, p= 0,0156). A manutenção da integridade funcional das ilhotas teve impacto nos resultados dos transplantes, com menor índice de célula TUNEL-positivas (Controle 23,3 ± 2,6% versus GEE 8,3 ± 0,8%, p < 0,0001) nos enxertos recuperados após as primeiras 24 horas do transplante e maior porcentagem de animais normoglicêmicos (Controle 30% versus GEE 65,2%, p = 0,004) após transplante de um número marginal de 150 ilhotas na cápsula renal após seguimento de 30 dias. Em conclusão, estes dados corroboram que a formação de ERO é uma causa relevante de dano celular durante o isolamento de ilhotas pancreáticas e sugerem que o uso do compostos anti-oxidante GEE pode ser uma estratégia para melhorar os resultados dos transplantes de ilhotas / The vascular complications related to Diabetes Mellitus are closely linked to hyperglycemia. Patients who develop metabolic instability and progression of microvascular complications despite intensive insulin therapy are candidates to pancreas transplantation. Pancreatic islet transplant is an alternative approach since it is less immunogenic and minimally invasive. However, the success of pancreatic islet transplantation still faces many challenges, mainly related to cell damage during the islet isolation process and early post-transplant period. The increase in reactive oxygen species (ROS) generation and the consumption of antioxidant defenses might be factors related to these injuries. The aim of the present study was to evaluate whether supplementation with glutathione-ethyl-ester (GEE), a compound with higher bioavailability than glutathione (an important endogenous antioxidant), could improve islet viability and efficacy in a marginal islet transplantation model in rodents. GEE was added to a final concentration of 10 mM in collagenase solution during islet isolation. After isolation, in vitro studies were conducted to evaluate the presence of ROS using carboxy-H2DCFDA assay and the viability of isolated islets with JC-1 assay (mitochondrial integrity), Sytogreen/ethidium bromide assay (cellular membrane integrity), fractional beta cell viability assay by flow cytometry, TUNEL assay for apoptosis evaluation and glucose-stimulated insulin secretion. We also performed in vivo studies with islet transplantation under the kidney capsule of diabetic mice, 30 days follow-up after transplantation and recovery of the graft for histological analysis. Four experimental groups were evaluated: 1) animals transplanted with 500 islets, a number considered sufficient to promote diabetes reversion, not isolated in presence of GEE; 2) animals transplanted with 500 islets isolated in presence of GEE; 3) animals transplanted with 150 islets, a number considered insufficient to promote diabetes reversion, not isolated in presence of GEE and 4) animals transplanted with 150 islets isolated in presence of GEE. The addition of GEE at 10 mM concentration during islet isolation was able to decrease ROS content in isolated islets (Control 57.0 ± 4.3% versus GEE 47.0 ± 3.9%, p = 0.0034) and increase islet viability, as demonstrated by the Sytogreen/ethidium bromide assay (Control 70.6 ± 3.4% versus GEE 83.6 ± 4.8%, p = 0.0010) as well as by the reduction in TUNEL-positive cells (Control 39.2 ± 5.0% versus GEE 29.1 ± 1.9%, p = 0.042) in the treated group. The fractional beta-cell viability also showed an improvement in the treated group (Control 21.4 ± 3.4% versus GEE 33.7 ± 3.9%, p = 0.0156). The improved cell viability observed in vitro was translated into better outcomes in vivo, since supplementation of GEE during the isolation process resulted in a significantly lower rate of TUNEL-positive cells (Control 23,3 ± 2,6% versus GEE 8,3 ± 0,8%, p < 0,0001) in the islet grafts recovered after 24h of transplantation and in a higher percentage of normoglycemia (Control 30% versus GEE 65,2%, p = 0,004) after 30 days of follow-up in animals transplanted with the marginal islet mass (150 islets). In conclusion, the current data corroborate that ROS production is a relevant cause of cellular damage during islet isolation and suggest that the use of GEE might be a strategy to improve islet transplantation outcomes

Apoptose

Diabetes mellitus

Estresse oxidativo

Transplante de ilhotas pancreáticas

Apoptosis

Diabetes mellitus

Oxidative stress

Pancreatic islet transplantation

Impaired β-Cell Neogenesis in a Mouse Model of Metabolic Syndrome

Alshammari, Modhi Abdullah

27 May 2022

No description available.

Pharmacology

Biology

Pancreatic islet β-cell

β-cell

glucose homeostasis

insulin

metabolic syndrome

neogenesis

Nkcc1

Efeito da Administração Oral do Extrato de Baccharis dracunculifolia na obesidade induzida por Glutamato Monossódico (MSG)

Hocayen, Palloma de Almeida Soares

09 May 2012

Made available in DSpace on 2017-07-21T19:59:54Z (GMT). No. of bitstreams: 1 PALLOMA HOCAYEN.pdf: 1571020 bytes, checksum: 2b66eed389dee29aecb38d9310ca585e (MD5) Previous issue date: 2012-05-09 / In recent years diabetes has been gaining huge proportions, due to changes in the habits of life, poor diet and physical inactivity are key factors in disease development. To this end, various species of plants have been used etnofarmacologicamente or in clinical trials or to treat and combat the symptoms of Diabetes Mellitus. The present study used the methanol extract of the plant Bracharis dracunculifolia (rosemary field) belonging to the Asteraceae family, with the objective of evaluating the effect of his administration on hypothalamic obesity in animal model of MSG. The methodology was based on the preparation of the extract metabolic B. dracunculifolia by means of drying processes, spraying, orbital agitation of the extract in methanol, filtration and addition of rotaevaporação toxicity test of the extract in the brine shrimp. To obtain MSG animals, were used in newborn animals still injection of monosodium glutamate (MSG) for five consecutive days at a dose of 4 mg / g body weight to induce obesity. Treatment with methanol extract was carried out on animals at 180 days of life, for 30 days. Weight was evaluated, consumption of water and feed throughout the experiment. And after the animals have been sacrificed held in the isolation of pancreatic islets which were incubated with increasing concentrations of glucose (5.6 mM, 8.3 mM, 16.7 mM). The results obtained in the study demonstrated low toxicity of the extract of B. dracunculifolia. The MSG animals had proven by induction of obesity increased Lee index, and higher levels of visceral and subcutaneous fat compared to controls. The MSG animals weighed less, consumed less water and less food and had impaired glucose tolerance. The biochemical parameters did not obtain significant differences, except for triglycerides which showed to be higher in MSG animals, not having succeeded in restoring the extract this parameter. In the isolation of pancreatic islets, MSG animals that received the extract of B. dracunculifolia showed a significant secretion of insulin by the islets isolated, noting that the concentration of 8.3 mM and 16.7 mM was obtained increased secretion of insulin. It is concluded that the methanol extract of B. dracunculifolia obtained significant effect on insulin secretion in pancreatic islet cell isolation, noting the results obtained in the group MSG (MP), which were hyperinsulinemia because of a possible enhancement of oxidative stress, especially the high antioxidant content present in the extract B. dracunculifolia used in the study. / Nos últimos anos o Diabetes vem ganhando grandes proporções, devido a mudanças nos hábitos de vida das pessoas, má alimentação e sedentarismo, que são fatores centrais no desenvolvimento da doença. Para tanto, várias espécies de plantas vêm sendo utilizadas etnofarmacologicamente ou em ensaios clínicos para tratar e ou combater os sintomas do Diabetes Mellitus. O presente estudo utilizou o extrato metanólico da planta Bracharis dracunculifolia (alecrim do campo), pertencente a família Asteraceae, com o objetivo de avaliar o efeito de sua administração na obesidade hipotalâmica em modelo de animais MSG. A metodologia se baseou na preparação do extrato metabólico de B. dracunculifolia, por meio de processos de secagem, pulverização, agitação orbital do extrato em metanol, filtragem e rotaevaporação além do teste de toxicidade do extrato frente a Artemia salina. Para a obtenção de animais MSG, foram aplicados nos animais ainda neonatos injeção de glutamato monossódico (MSG), durante cinco dias consecutivos, na dose de 4mg/g de peso corporal, para indução da obesidade. O tratamento com o extrato metanólico foi realizado nos animais aos 180 dias de vida, durante 30 dias. Foi avaliado o peso, consumo de água e ração durante todo o experimento. E após os animais terem sido sacrificados realizou-se o isolamento de ilhotas pancreáticas, que foram incubadas em concentrações crescentes de glicose (5,6mM; 8,3mM; 16,7mM). Os resultados obtidos no estudo demonstraram baixa toxicidade do extrato de B. dracunculifolia. Os animais MSG obtiveram indução da obesidade comprovada pelo aumento do Índice de Lee, e maior teor de gorduras viscerais e subcutânea em relação aos controles. Os animais MSG apresentaram menor peso, consumiram menos água e menos ração e apresentaram intolerância a glicose. Os parâmetros bioquímicos não obtiveram diferenças significativas, com exceção dos triglicerídeos que apresentou-se maior nos animais MSG, não tendo o extrato conseguido restaurar este parâmetro. No isolamento de ilhotas pancreáticas, os animais MSG que receberam o extrato de B. dracunculifolia apresentaram uma secreção significativa de insulina pelas ilhotas isoladas, ressaltando que na concentração de 8,3mM e 16,7mM foi obtida maior secreção de insulina. Conclui-se que o extrato metanólico de B. dracunculifolia obteve efeito significativo da secreção de insulina, no isolamento de ilhotas pancreáticas, ressaltando os resultados obtidos no grupo MSG (MP), que se apresentaram hiperinsulinêmicos, devido a uma possível melhora do stress oxidativo, destacando-se o alto teor antioxidante presente no extrato de B. dracunculifolia utilizado no estudo.

B. dracunculifolia

glutamato monossódico

ilhotas pancreáticas

B. dracunculifolia

monosodium glutamate

pancreatic islet

Réponse humorale alloimmune après greffe d’îlots pancréatiques : caractéristiques et impact sur la fonction du greffon / Humoral alloimmune response of pancreatic islet recipients : characteristics and impact on graft function

Chen, Chien-Chia

20 March 2017

Le diabète de type 1 est une maladie auto-immune chronique fréquente au cours l'enfance qui résulte de la destruction des cellules ß des îlots de Langerhans produisant l'insuline (seule hormone régulant la glycémie).Contrairement à l'administration d'insuline exogène, la greffe d'îlots pancréatiques restaure une production endogène d'insuline et prévient ainsi plus efficacement la morbi-mortalité résultant du diabète.Malheureusement, la fonction des îlots greffés diminue avec le temps du fait de la réponse alloimmune qui se développe contre les molécules HLA spécifiques du donneur. Le système immunitaire adaptatif du receveur peut détruire les îlots allogéniques par deux mécanismes: le rejet cellulaire impliquant les lymphocytes T cytotoxiques et le rejet humoral (RH) impliquant les anticorps anti-donneur (ASD).Alors qu'en transplantation d'organe, le RH est reconnu comme la principale cause de perte des organes, son rôle dans la greffe d'îlots est encore mal défini.Notre objectif est de: i) caractériser la réponse humorale allo-spécifique après greffe d'îlots, et ii) déterminer l'impact des ASD sur la fonction du greffon.Notre travail confirme que la greffe d'îlots est un évènement immunisant pour les receveurs. Le risque de développer des ASD augmente après réduction/arrêt des immunosuppresseurs. Cependant, à l'inverse de la transplantation d'organe, les ASD n'ont pas d'effet délétère sur la survie du greffon en clinique. En utilisant des modèles murins, nous démontrons que les îlots allogéniques sont résistants au RH alors que les ASD peuvent détruire les cellules ß in vitro. Cette résistance au RH s'explique par la combinaison i) d'une séquestration vasculaire des ASD, qui ne peuvent pas accéder aux cellules ß allogéniques in vivo et ii) le fait que contrairement à la vascularisation des organes transplantés qui provient du donneur, celle des îlots greffés provient du receveur / Type 1 diabetes, the most prevalent chronic diseases of childhood, is caused by an autoimmune-mediated destruction of pancreatic insulin-producing ß cells, the unique cells responsible for glucose level regulation.In contrast to exogenous insulin administration, pancreatic islet grafting restores endogenous secretion, which more efficiently prevents secondary end-organ complications and life-threatening events.Unfortunately, islet graft function decreases over time due to alloimmune response that developed against donor-specific HLA molecules. Recipient’s adaptive immune system can destroy allogeneic islets through two distinct mechanisms: cellular rejection by cytotoxic T-cells and antibody-mediated rejection (AMR). Donor-specific anti-HLA antibodies (DSA) are increasingly recognized as the prime cause of solid organ transplant failure, but the impact of the humoral alloimmune response of recipient on islet graft remains ill defined.Our thesis aimed at: i) characterizing the humoral alloimmune response of islet graft recipients, and ii) determining the impact of DSA on islet graft.Our work confirms that islet grafting is an HLA sensitizing event for recipients. The risk of DSA generation increases with the reduction/discontinuation of immunosuppressive drugs. However, in contrast with solid organ transplantation, DSA did not negatively impact graft survival in the clinic. Using a combination of murine models, we demonstrate that allogeneic islets are indeed resistant to AMR despite the fact that DSA can destroy islet cells in vitro. The resistance of allogeneic islets to AMR is explained by the combination of i) vascular sequestration of DSA, which are unable to access the allogeneic ß cells in vivo and ii) the fact that unlike vascularization of transplanted organs (that comes from the donor), islet graft vascularization develops from the recipient

Îlot pancréatique

Transplantation

Rejet humoral

Anticorps anti-donneur

Pancreatic islet

Transplantation

Humoral rejection

Donor-specific antiboy

571.96

Mecanismos moleculares mediadores da citoproteção de células beta pancreáticas induzidos por prolactina / Role of HSPB1 in PRL-induced cytoprotective effects on beta cells

Mansano, Rosangela Aparecida Wailemann

19 October 2018

A manutenção da célula de ilhotas in vitro aparece como uma estratégia atraente para aumentar o resultado do transplante de ilhotas pancreáticas. Entretanto, o destino das ilhotas em cultura é determinado pelo equilíbrio entre mediadores pró e antiapoptóticos. Nós mostramos anteriormente que os níveis de HSPB1 são aumentados pela prolactina (PRL) tanto nas células beta pancreáticas humanas quanto nas células de insulinoma murino MIN6. Além disso, mostramos que os efeitos pró- sobrevivência induzidos pela prolactina nas células beta pancreáticas são mediados pela HSPB1. Uma vez que o papel da HSPB1 nas células beta não foi estudado diretamente, procuramos explorar os mecanismos moleculares pelos quais a HSPB1 medeia a citoproteção da célula beta induzida pela PRL. Para isso, células MIN6 derivadas de um insulinoma de camundongo e cultura primária de ilhotas pancreáticas murinas (I), silenciadas ou superexpressando HSPB1 foram submetidas à privação de soro e então pré- tratadas na presença ou na ausência de PRL (300 ng / mL) e expostos a ou citocinas (IL-1&#946; (0,8 ng / mL), IFN-&#947; (4 ng / mL) e TNF-&#945; (8 ng / mL) por 16 ou 24 h. Após esses períodos de tempo foi avaliada a viabilidade celular. De fato, as células silenciadas para HSPB1 tiveram maiores porcentagens de morte celular em comparação aos controles. No entanto, a superexpressão de HSPB1 sozinha imita os efeitos citoprotectores da Prolactina em ambas as células MIN6 e nas culturas primárias das ilhotas. Estes resultados mostram o papel fundamental da HSPB1 no efeito citoprotetor inibindo a apoptose inducida pelo tratamento com citocinas pró-inflamatórias. Além disso, os lisados de células Min6 tratadas com citocinas na presença ou na ausência de PRL durante 6 h foram sujeitos a imunoprecipitação de HSPB1. Proteínas coimmunoprecipitadas separadaspor SDS-PAGE e posteriormente identificadas por nano-HPLC acoplado à espectrometria de massas. Células pré-tratadas com PRL apresentaram um enriquecimento de proteínas que coprescipitaram com HSPB1 relacionadas em processos de resistência ao estresse oxidativo, degradação proteica e metabolismo de carboidratos. Células MIN6, silenciadas ou superexpressando HSPB1 foram expostas á menadiona e peróxido de hidrogênio e parâmetros oxidativos foram analisados. O silenciamento de HSPB1 promoveu células mais sensíveis ao estresse oxidativo e levou a uma redução da capacidade antioxidante, enquanto que prolactina induziu citoproteção mediada por HSPB1 contra o estresse oxidativo. A superexpressão de HSPB1, no entanto, levou a efeitos opostos. O tratamento com PRL, o silenciamento ou superexpressão de HSPB1 não mudou a expressão de enzimas antioxidantes, mas os níveis proteicos de HSPB1 estão relacionados com a modulação da razão GSH/GSSG e a atividade de G6PD. Dado de estudos recentes reportam que o perfil respiratório das ilhotas prévias ao transplante pode predizer seu desempenho e que não se sabe nada sobre se a PRL poderia modular a função mitocondrial nas células beta; no presente projeto foi investigado se o tratamento hormonal poderia aumentar a eficiência mitocondrial das células beta. Observamos que o tratamento com citocinas pró-inflamatórias produziu uma diminuição na eficiência do consumo de oxigênio mitocondrial estar relacionado à síntese de ATP. Esses resultados foram significativamente revertidos a valores similares ao obtidos nas células submetidas Às condições de máxima viabilidade após o tratamento com PRL. Além disso, os resultados mostraram que os níveis elevados de HSPB1 medeiam este efeito, uma vez que a falta desta proteína anulou significativamente a recuperação da função mitocondrial induzida pelo tratamento hormonal. Visto que as taxas de síntese de ATP mitocondrial são as responsáveis pela elevação na sua concentração intracelular e que esse evento está diretamente relacionado com a secreção de insulina nas células beta, analisamos se diferentes níveis proteicos de HSPB1 poderia modificar a função secretora de células beta. Para isso foram calculados os índices de estímulo da secreção de insulina em resposta ao aumento da concentraçãode glicose no meio de cultura tanto em células parentais MIN6 como em culturas primárias de ilhotas pancreáticas murinas que foram submetidas ou não ao silenciamento ou superexpressão de HSPB1. Nossos resultados mostraram que nem a presença de citocinas, Prolactina, ou a ausência ou superexpressão de HSPB1 nas culturas celulares analisadas apresentaram diferença significativa em relação aos índices de estímulo da secreção e conteúdo de insulina. Esses resultados sugerem que nem a falta, nem a superexpressão de HSPB1 poderia alterar a função de célula beta. Nós mostramos a relevância da HSPB1 em ambos os efeitos pró- sobrevivência da PRL contra a morte da célula beta induzida tanto por citocinas quanto por indução de estresse oxidativo. Este último efeito poderia também estar relacionado com a participação da HSPB1 na recuperação da função mitocondrial observada após o tratamento hormonal corroborando assim parte dos resultados obtidos nos experimentos de immunoprecipitação. Finalmente, nossos resultados destacam a importância de mais estudos visando um entendimento mais profundo das funções da HSPB1 nas células beta, uma vez que elas poderiam levar à mitigação da morte da célula beta através da regulação positiva de uma via de proteção endógena, que não é dependente da modulação do sistema imunológico. / The success of islet transplantation has improved lately. Unfortunately, it is still compromised by cell loss. Maintaining islet cell in vitro appears as an attractive strategy to increase the outcome of pancreatic islet transplantation. However, islet fate in culture is determined by the balance between pro- and anti- apoptotic mediators. We have previously shown that Heat Shock Protein B1 (HSPB1) levels are increased by prolactin (PRL) on both human pancreatic beta cells and MIN6 murine insulinoma cells. Furthermore, we have demonstrated the prolactin-induced pro-survival effects on pancreatic beta-cells are mediated by HSPB1. Since HSPB1 role in beta cells has not been directly studied, we set out to explore the molecular mechanisms by which HSPB1 mediates PRL-induced beta cell cytoprotection. For this purpose, MIN6 insulinoma mouse cells and primary culture of murine pancreatic islets (I) wild type, HSPB1 silenced or overexpressing the chaperone were subjected to serum starvation and then pre-treated in the presence or in the absence of PRL (300 ng/mL) and exposed to or cytokines (IL-1&#946; (0,8 ng/mL), IFN-&#947; (4 ng/mL) and TNF-&#945; (8 ng/mL)) for 16 or 24h. Then, we analyse cell viability. HSPB1silenced cells presented higher percentages of cell death compared to controls. However, the overexpression of HSPB1, independently of hormonal treatment, was able mimic the cytoprotective effects of Prolactin. These results point at the key role of HSPB1 in the cytoprotective effect against proinflammatory cytokines-induced beta cell death. In addition, lysates from Min6 cells incubated for 6 hours in the presence of a cocktail of cytokines and/or PRL were subjected to HSPB1 immunoprecipitation. Co-precipitated proteins were identified by SDS-PAGE coupled to mass spectrometry. We found an enrichment of proteins relatedto signaling pathways involved in a response against oxidative and endoplasmic reticulum stress induction. Moreover, we also identified antiapoptotic effects and carbohydrate metabolism related proteins. Indeed, HSPB1 knockdown rendered cells more sensitive to oxidative stress and led to a reduced antioxidant capacity, while prolactin induced an HSPB1- mediated cytoprotection against ROS induced beta-cell apoptosis. One again, HSPB1 overexpression mimic PRL- induced cytoprotection. While hormonal treatment, HSPB1 silencing or overexpression did not change the expression of antioxidant enzymes; this conditions influenced reduced glutathione cell content and G6DP activity. Since recent studies have pointed that islets respiratory profile prior to transplantation may predict their performance; we also investigated whether PRL treatment could increase beta-cell mitochondrial efficiency. We observed a cytokine-induced increase of mitochondrial oxygen consumption rate not related to ATP synthesis, which was significantly decreased upon PRL treatment. HSPB1 was a key mediator of this effect since the lack of this protein significantly abrogated PRL-induced mitochondrial function recovery. The secretory function was then analysed in wild type MIN6 cells as well as in primary cultures of pancreatic islets either HSPB1 silenced or overexpressing the chaperone. Cells were subjected to serum starvation and then pre-treated in the presence or in the absence of PRL and exposed to cytokines for 16 or 24h. We didn´t found significant differences in both glucose induced-insulin secretion and insulin content between the hormonal treatment, HSPB1 silencing or overexpression. These results suggest that neither lack, nor overexpression of HSPB1 could alter beta cell function. Altogether our results have shown the importance of HSPB1 on PRL prosurvival effects as well as on maintenance of mitochondrial efficiency against both cytokine treatment and oxidative-stress-induced beta cell damage. These results are in accordance with the PRL-induced enrichment of HSPB1 interacting proteins displaying functions related to protein degradation, oxidative stress protection or mitochondrial carbohydrate metabolism.Finally, our results outline the importance of further studies aiming at a deeper understanding of HSPB1 functions on beta cells, since they could lead to the mitigation of beta cell death through the up-regulation of an endogenous protective pathway, which is not dependent on the modulation of the immune system.

Apoptose

Apoptosis

B1 thermal shock protein (HSPB1)

Diabetes mellitus tipo 1

Diabetes mellitus type 1

Pancreatic islet transplantation

Prolactin

Prolactina

Proteina de choque térmico B1 (HSPB1)

Transplante de ilhotas pancreáticas

Imunoproteção de ilhotas pancreáticas microencapsuladas em biomateriais inovadores e seu potencial terapêutico no diabetes mellitus tipo 1 / Immunoprotection of pancreatic islets microencapsulated in inovative biomaterials and its therapeutic potential in type 1 Diabetes Mellitus

Rodrigues, Ana Lúcia Campanha

08 May 2012

O transplante de ilhotas microencapsuladas constitui uma alternativa terapêutica interessante para o Diabetes Mellitus tipo 1, permitindo um melhor controle glicêmico e eliminando a necessidade de imunossupressão. Entretanto, a manutenção a longo prazo da viabilidade das células-&#946; ainda é um desafio. No isolamento, a perda da matriz extracelular e as condições hipóxicas subsequentes afetam decisivamente a sobrevivência e funcionalidade das ilhotas. Objetivo Para diminuir o estresse sobre o enxerto, levando a um sucesso prolongado do transplante, propôs-se a adição de perfluorocarbono (PFC) ou laminina (LN), moléculas associadas respectivamente à oxigenação e interações célula-célula, ao biomaterial baseado em alginato, Biodritina, adequado ao encapsulamento celular. Metodologia Para testar a estabilidade das formulações PFC-Biodritina e LN-Biodritina, microcápsulas foram submetidas a diferentes estresses (rotacional, osmótico, temperatura e cultura) por 7 e 30 dias. A pureza do biomaterial foi avaliada pela coincubação com macrófagos murinos RAW264.7, por 3, 9 e 24h, quando a ativação dos macrófagos foi observada pela expressão gênica de IL- 1&#946; e TNF&#945;. Microcápsulas implantadas i.p. em camundongos foram recuperadas após 7 ou 30 dias, para análises de biocompatibilidade. A expressão de níveis de mRNA (bax, bad, bcl-2, bcl-XL, xiap, caspase 3, mcp1/ccl2, hsp70, ldh, insulina 1 e 2), proteínas (Bax, Bcl-XL e Xiap) e a atividade de Caspase3 foram avaliadas em ilhotas microencapsuladas com PFC- e LN-Biodritina, após cultura de 48h em condições de normóxia e hipóxia (<2% O2). Camundongos diabéticos foram transplantados com ilhotas encapsuladas nas diferentes formulações e os animais foram monitorados pelas variações de massa corporal, glicêmicas e pela funcionalidade do enxerto (TOTGs). As ilhotas foram recuperadas de animais normo ou hiperglicêmicos e uma análise de biocompatibilidade das cápsulas foi realizada, assim como a avaliação funcional das células-&#946;. Após o explante, a glicemia dos animais normoglicêmicos foi monitorada para se atestar a eficiência das ilhotas transplantadas. Resultados Microcápsulas de PFC- e LN-Biodritina são tão estáveis e biocompatíveis quanto as de Biodritina. Para ilhotas encapsuladas em ambos os materiais, em normóxia ou hipóxia, observou-se uma modulação gênica que sugere proteção contra apoptose. Adicionalmente, encontrou-se uma diminuição na expressão de genes indicadores de estresse (mcp1, hsp70). Uma diminuição nos níveis de mRNA de ldh foi vista para PFC-Biodritina, mas o oposto foi encontrado para LN-Biodritina. As diferenças encontradas na expressão proteica sugerem o mesmo padrão anti-apoptótico. Caspase3 não foi modulada por nenhum biomaterial. Nos experimentos de transplante, apenas LN-Biodritina levou reversão prolongada do diabetes, com 60% dos animais normoglicêmicos, 198 dias pós-cirurgia, comparado a 9% do grupo Biodritina. O TOTG demonstrou que camundongos transplantados com ilhotas encapsuladas secretaram mais insulina do que controles, 60 (LN-Biodritina) ou 100 (PFC- e LN-Biodritina) dias pós-cirurgia. O explante restabeleceu a hiperglicemia nos camundongos. Microcápsulas recuperadas de animais hiperglicêmicos apresentavam uma extensa adesão celular. Testes de secreção de insulina in vitro demonstraram que somente ilhotas do grupo normoglicêmico responderam às variações da concentração de glicose. Conclusão A adição de moléculas bioativas à Biodritina é capaz de diminuir o estresse em ilhotas isoladas e tem o potencial de melhorar a terapia pelo transplante de ilhotas. / Transplantation of microencapsulated islets represents an attractive therapeutical approach to treat type 1 Diabetes Mellitus, accounting for an improved glycemic control and the abolishment of immunosuppressive therapies. However, maintenance of long-term &#946;-cell viability remains a major problem. During islet isolation, the loss of extracellular matrix interactions and the hypoxic conditions thereafter dramatically affect &#946;-cell survival and function. Objective To lessen the burden of islet stress and achieve a better outcome in islet transplantation we tested the addition of perfluorocarbon (PFC) or laminin (LN), molecules associated respectively with oxygenation and cell-cell interaction, to Biodritin, an alginate-based material suitable for cell microencapsulation. Methodology To test the stability of PFC-Biodritin and LN-Biodritin composites, microcapsules were subjected to different stresses (rotational, osmotic, temperature and culture) for 7 and 30 days. To assess biomaterial purity microcapsules were co-incubated with RAW264.7 murine macrophage cell line for 3, 9 and 24h and macrophage activation was detected through mRNA levels of IL-1&#946; and TNF&#945;. Microcapsules were implanted i.p. in mice and retrieved after 7 or 30 days, for biocompatibility analyses. Gene expression at mRNA (bax, bad, bcl-2, bcl-XL, xiap, caspase 3, mcp1/ccl2, hsp70, ldh, insulin 1 and 2) and protein (Bax, Bcl-XL and Xiap) levels, together with Caspase3 activity, were evaluated in islets microencapsulated in PFC- or LN-Biodritin, upon culturing for 48h in normoxic or hypoxic (<2% O2) conditions. Diabetic mice were transplanted with PFC- or LN-Biodritin microencapsulated islets, followed by assessments of body weight, glycemia and graft function by oral glucose tolerance tests (OGTTs). Microencapsulated islets were retrieved from normoglycemic or hyperglycemic mice and biocompatibility analyses of the beads together with a functional assessment of the graft followed. After graft removal, normoglycemic animals had their glycemias monitored to attest the efficacy of the transplanted islets. Results PFC- and LN-Biodritin microcapsules were as stable and biocompatible as Biodritin. For both biomaterials in normoxia and hypoxia a modulation in gene expression was observed in islets associated with a protection against apoptosis. Also, a decreased expression of stress-related genes (mcp1, hsp70) was evidenced. ldh mRNA levels were down-regulated in PFC-Biodritin microencapsulated islets but upregulated in the presence of LN. Increased levels of insulin mRNA were observed. The differences seen in protein expression indicated the same anti-apoptotic pattern. Caspase3 activity was not different between groups. Concerning diabetes reversal experiments, only mice transplanted with LN-Biodritin microencapsulated islets presented a better outcome, with 60% remaining euglycemic at 198 days post-surgery, compared with 9% for the Biodritin group. OGTT showed that mice transplanted with encapsulated islets secreted more insulin than normal mice, 60 (LN-Biodritin) or 100 days (PFC- and LN-Biodritina) posttransplant. Hyperglycemia was achieved after the retrieval of microcapsules showing graft efficacy. Retrieved microcapsules revealed an extensive overgrowth in most beads from hyperglycemic mice. A static glucose stimulated insulin secretion test revealed that only islets from normoglycemic subjects were able to secrete insulin according to glucose concentration. Conclusion- The addition of bioactive molecules to Biodritin may lessen the stress of isolated islets and have the potential to improve islet transplantation therapy.

Biodritin

Biodritina

Biologia celular

Cell biology

Diabetes Mellitus tipo 1

Laminin

Laminina

Microencapsulamento

Microencapsulation

Pancreatic islet transplantation

Perfluorocarbon

Perfluorocarbono

Transplante de ilhotas pancreáticas

Type 1 Diabetes Mellitus