Avaliação do estresse oxidativo em ilhotas pancreáticas humanas e em cultura de células INS-1E / Evaluation of oxidative stress in human pancreatic islets and INS-1E cells culture

Carvalho, Adriana Miranda

17 May 2007

O transplante de ilhotas pancreáticas humanas é considerado uma estratégia promissora para curar pacientes portadores de Diabetes Mellitus tipo 1. Entretanto, sua eficiência é dramaticamente afetada pelo rendimento das ilhotas no processo de isolamento/purificação e pela viabilidade das células após o transplante. As ilhotas pancreáticas isoladas são obtidas através da perfusão do pâncreas com colagenase e purificação em gradiente de densidade. As espécies reativas de oxigênio (ERO) exercem um papel importante durante a obtenção e o transplante de ilhotas pancreáticas humanas, contribuindo significativamente para diminuir a viabilidade dessas células. Nesse trabalho foram avaliadas as respostas oxidativas de ilhotas pancreáticas humanas durante os processos de isolamento/purificação e cultivo. As atividades da superóxido dismutase (SOD), da catalase, bem como os níveis de oxidação em proteínas mostraram-se, na maioria dos casos, aumentados, principalmente durante a etapa de purificação das ilhotas em gradiente de Ficoll e no período de cultura das ilhotas. Esses resultados indicam que a purificação em gradiente de Ficoll parece ser uma etapa crítica de geração das ERO, assim como longos períodos de cultivo. Porém, verificou-se que influências advindas dos diferentes doadores (idade, causa- mortis, estilo de vida, etc.) e condições de preservação do órgão (tempo de isquemia, solução de conservação, etc.) poderiam estar relacionadas à discrepância de alguns resultados encontrados. Com o intuito de minimizar tais variáveis, optou-se por estudar os efeitos relacionados ao Ficoll em células de insulinoma INS-1E, um modelo celular fisiologicamente semelhante. Para tanto, as atividades das enzimas antioxidantes SOD, catalase, glutationa peroxidase (GPx) e glutationa redutase (GR), assim como os danos oxidativos em proteínas e lipídeos, os níveis de glutationa reduzida (GSH) e de glutationa oxidada (GSSG), a viabilidade celular e os níveis de algumas enzimas envolvidas no processo apoptótico como p38, JNK-1, ERK 1-2 e PI3-K expostas a polissacarose (1100 mg/mL), um genérico do Ficoll, foram determinadas. De acordo com os resultados, as atividades da SOD, catalase e GPx presentes em amostras expostas a polissacarose mostraram-se aumentadas. Em cultura, a atividade de isoforma mitocondrial da SOD (Mn-SOD) de células INS-1E correspondeu a 50% da atividade total da SOD. Na presença da polissacarose, a atividade da Mn-SOD aumentou para 80% do total. Além disso, a oxidação de lipídios e de proteínas aumentou e os níveis de GSH e GR diminuíram discretamente. Estes resultados mostraram que a exposição dessas células a polissacarose está associada com o estresse oxidativo. Entretanto, tal exposição não foi responsável pela diminuição da viabilidade celular embora os níveis protéicos de JNK-1, ERK1-2 e PI3-K tenham se mostrado consideravelmente aumentados e os níveis de p38, diminuídos. Os níveis de expressão e a atividade de enzimas antioxidantes são conhecidamente baixos em ilhotas pancreáticas. A N-acetilcisteína (NAC) foi adicionada em cultura de células para prevenir o estresse oxidativo. Nessas condições, a NAC foi capaz de proteger as células INS-1E do estresse oxidativo induzido. Esses resultados sugerem que a exposição à polissacarose está associdada ao estresse oxidativo em células INS-1E e que a NAC foi capaz de prevenir a morte celular de células INS-1E expostas a ERO através do aumento intracelular de GSH. / Human pancreatic islet transplantation is considered a promising strategy to cure the cure Diabetes Mellitus type I. However, transplantation efficiency is dramatically affected by sub-optimum islet recovery in the isolation/purification procedure and islet viability after transplantation. Isolated pancreatic islets are obtained through collagenase perfusion and cell purification in a Ficoll gradient. Reactive oxygen species (ROS) play an important role during human pancreatic islet isolation and may contribute to the decrease in cell viability. The aim of this study was evaluated the response of human pancreatic islets during its isolation/purification and culture time. Activities of superoxide dismutase (SOD) and catalase as well as protein oxidation levels increased in most of analyzed samples, mainly during the Ficoll gradient islet purification step and further culture. Ficoll seems to be the critical step for ROS generation. Nevertheless, it was observed that donors characteristics (aging, cause of death, habits, etc.) and organ preservation conditions (ischemic time, preservation solution, etc.) may be related to our results. To minimize these variations, a physiological cellular model based on INS-1E cells was chosen. The antioxidant enzymes SOD, catalase, glutathione peroxidase (GPx) and glutathione reductase (GR) activities as well the oxidative damage to proteins and lipids, reduced glutathione (GSH) and oxidized glutathione (GSSG) levels, cellular viability and the protein levels of some enzymes responsible for apoptotic signaling like p38, JNK-1, ERK 1-2 and PI3-K upon exposure to polysucrose (1100 mg/mL), a similar of Ficoll, were determined. The SOD, catalase and GPx in samples exposed to polysucrose displayed hight activities. In all cultures, the activity of mitochondrial isoform of SOD (Mn-SOD) corresponds to 50% of total SOD activity. In the presence of polysucrose, the activity of Mn-SOD increased up to 80%. Lipids and protein oxidation levels were also increased and the GSH levels with the GR activity decreased. These results indicated that the exposure of INS-1E cells to polysucrose is associated with oxidative stress. However, the polysucrose exposure was not responsible for cell death although JNK-1, ERK1-2 and PI3-K levels showed hight levels but not p38, upon polysucrose exposure. The expression and activities of antioxidants enzymes are known to be very low in pancreatic islets. N-acetylcysteine (NAC) was added to the INS-1E cultures to prevent oxidative stress. Under these conditions, NAC was able to protect INS- 1E cells from induced oxidative damage by increasing intracellular GSH levels. Taken together, these results suggest that the exposure to polysucrose is related to the oxidative stress in INS-1E cells and NAC seems to be able to maintain cell viability.

Antioxidants enzymes

Diabetes Mellitus

Diabetes Mellitus

Enzimas antioxidantes

Estresse oxidativo

Free radicals

Oxidative stress

Pancreatic islet transplantation

Radicais livres

Transplante de ilhotas pancreáticas

Tratamento com EPA e DHA protege células beta pancreáticas contra a disfunção induzida por ácido palmítico. / EPA and DHA treatment protects pancreatic beta cells against palmitic acid-induced dysfunction.

Monaco, Camila Ferraz Lucena

29 June 2017

Os ácidos graxos (AG) podem influenciar o processo secretório de insulina induzido pela glicose. Os AG ω3 interferem em diversos processos fisiológicos, sendo que nas ilhotas pancreáticas, os AG ω3 colaboram para a diminuição da lipotoxicidade induzida pelo ácido palmítico. Ao ácido palmítico são atribuídos efeitos deletérios em diversos tecidos, assim como nas células β, onde ele promove a alteração da composição dos fosfolípides de membrana, do potencial elétrico da mesma e consequentemente do processo de extrusão dos grânulos de insulina. A exposição crônica das células β ao excesso de ácido palmítico é tóxica, provocando diminuição da resposta secretória de insulina, redução da oxidação e captação de glicose e aumento de espécies reativas de oxigênio (EROs) que, em quantidades suprafisiológicas, irão contribuir para a falência e morte da célula β. As EROs podem ser de origem mitocondrial, através do metabolismo dos nutrientes ou ainda proveniente da ativação do complexo enzimático NADPH oxidase, o qual é modulado pela glicose e pelos AG, incluindo o ácido palmítico. Em contrapartida, os AG ω3 exercem efeitos anti-inflamatórios e antioxidantes em diversos sistemas, contribuindo para melhora de perfil lipídico e resistência periférica à insulina. O objetivo deste trabalho foi verificar o possível efeito protetor dos AG ω3 contra os efeitos deletérios do ácido palmítico em células β pancreáticas. Nas células β, a partir dos resultados obtidos, a presença de AG ω3 mostrou-se eficaz para prevenir o dano secretório e o aumento de EROs, além de contribuir para manutenção da viabilidade celular e da captação de glicose nas ilhotas tratadas com ácido palmítico, desempenhando um importante papel protetor na célula β. / Fatty acids (FA) may influence the process of glucose-induced insulin. The ω3 FA interferes in several physiological processes, and in the pancreatic islets collaborate to decrease the lipotoxicity induced by palmitic acid. Palmitic acid induces deleterious effects in several tissues, as well as in β cells, where it promotes the alteration of the membrane phospholipid composition, the plasma membrane electric potential, and consequently, the process of the insulin granules extrusion. Chronic exposure of β cells to high concentration of palmitic acid is toxic, leading to decreased insulin secretory response, reduced oxidation and uptake of glucose, and an increase in reactive oxygen species (ROS) which, in supraphysiological amounts, will contribute to β-cell failure and death. ROS may be of mitochondrial origin, through the metabolism of nutrients or even from the activation of the enzymatic complex NADPH oxidase, which is modulated by glucose and FA, including palmitic acid. In contrast, ω3 FA exerts anti-inflammatory and antioxidant effects in several systems, contributing to the improvement of lipid profile and peripheral resistance to insulin. The aim of this study was verify the protective possible effect of AG ω3 against the deleterious effects of palmitic acid on pancreatic β cells. Our results shown that the presence of ω3 FA was effective in preventing secretory damage and increase of EROs, also contributing to the maintenance of cell viability and glucose uptake in the islets treated with palmitic acid, playing an important β-cell protective role.

Ácido graxo omega-3

Ácido palmítico

Apoptose

Apoptosis

EROs

Ilhota pancreática

Insulin secretion

NADPH oxidase

NADPH oxidase

Omega-3 fatty acid

Palmitic acid

Pancreatic islet

ROS

Secreção de insulina

Studies of neuropeptides in pancreatic beta cell function with special emphasis on islet amyloid polypeptide (IAPP)

Karlsson, Ella

January 2000

<p>The presence of protein amyloid in pancreas and its association to diabetes was first described 100 years ago in 1901, but was not identified as Islet Amyloid Polypeptide (IAPP) until 1986. The aim of the present work was to determine the role of the beta cell hormone, IAPP, in normal pancreatic islet physiology and during early disturbances of islet function.</p><p>Intra-islet peptides, i.e. chromogranin peptides and an extra-islet peptide, i.e. leptin, were studied to identify possible endogenous regulators of IAPP and insulin secretion. Chromogranin-B, but not chromogranin-A or pancreastatin, had the ability to inhibit islet IAPP and insulin release, suggesting that chromogranin-B may serve as an autocrine regulator of IAPP and insulin secretion. </p><p>Leptin had a more potent effect on IAPP secretion than on insulin secretion, which was dissociated from effects on islet glucose metabolism. Glucose oxidation rates were increased at physiological leptin concentrations, whereas higher leptin concentrations showed an inhibitory effect and chronically high leptin concentrations had no effect.</p><p>Female NOD mice were studied to investigate the release of IAPP in the progression to type 1 diabetes. The release of IAPP was lower than that of insulin from immune cell infiltrated islets, indicating preferential insulin release during the early course of the disease. </p><p>IAPP is expressed at an early embryonic stage. The effect of IAPP on cell proliferation in neonatal rat islets was studied in the search for a physiological role of IAPP. IAPP concentrations of (1-1000) nM stimulated neonatal islet cell proliferation mostly in beta cells and to a lesser extent in alpha cells. IAPP did not have any marked effect on the islet cell death frequency. These data indicate a role for IAPP as a potential regulator of beta cell proliferation in neonatal pancreatic islet.</p><p>It is concluded that IAPP may be involved in regulation of pancreatic beta cell function both in fetal and adult life.</p>

Cell biology

alpha cell

amylin

beta cell

chromogranin

growth

IAPP

insulin

islet amyloid polypeptide

leptin

NOD mice

pancreastatin

pancreatic islet

proliferation

Cellbiologi

Cell biology

Cellbiologi

Exploration of Conditions Affecting Cytokine Production in Experimental Type 1 Diabetes Mellitus

Thorvaldson, Lina

January 2007

<p>Cytokines are soluble signalling mediators within the immune system, and have been shown to be of importance in the development of type 1 diabetes (T1D). This thesis studied the production of cytokines in experimental models of T1D and during transplantation of insulin-producing islets of Langerhans. </p><p>We have demonstrated that the transcriptional TNFα-inhibitor MDL 201,449A, previously shown to reduce immune-mediated diabetes induced in mice by multiple low doses of streptozotocin, was not TNFα-specific, but also inhibited IFNγ and IL-10 in spleen cells. Furthermore, when the inhibitor was removed from in vitro cultures, a rebound phenomenon of increased cytokine secretion occurred.</p><p>The thesis also investigated whether plastic adhesion, a method generally employed to deplete macrophages, influenced cytokine production in spleen cells. We observed that plastic adhesion increased TNFα, IFNγ and IL-10 release, and decreased IL-4 secretion. Plastic adhesion depleted only ~30% of the macrophages, but as much as ~60% of the regulatory T cells. </p><p>Thirdly, we found that “control” treatments for islet transplantations, i.e. syngeneic and sham transplantations, exerted a clear effect on cytokine production from spleen cells, possibly due to a decrease in regulatory T cells that may be caused by the surgery and/or anaesthesia. Moreover, spleen cells from mice exposed to surgery exhibited a decreased proliferative capacity to concanavalin A stimulation. We also perceived a marked difference in cytokine response depending on the mouse strain used in the experiments.</p><p>Finally, we aimed to elucidate if, besides autoimmune activities, also high glucose- and free fatty acid concentrations as seen in diabetes could cause changes in cytokine production. We observed that spleen cells cultured in varying glucose concentrations had different cytokine production profiles. The free fatty acid palmitate might also influence cytokine release, but this effect was obscured by the cytokine-suppressive action of the ethanol used to dissolve the palmitate.</p>

Cell biology

Cytokine

Diabetes

Tumor necrosis factor-α

Interferon-γ

Interleukin-4

Interleukin-10

Transplantation

Pancreatic islet

Glucose

Regulatory T cell

Cellbiologi

Studies of neuropeptides in pancreatic beta cell function with special emphasis on islet amyloid polypeptide (IAPP)

Karlsson, Ella

January 2000

The presence of protein amyloid in pancreas and its association to diabetes was first described 100 years ago in 1901, but was not identified as Islet Amyloid Polypeptide (IAPP) until 1986. The aim of the present work was to determine the role of the beta cell hormone, IAPP, in normal pancreatic islet physiology and during early disturbances of islet function. Intra-islet peptides, i.e. chromogranin peptides and an extra-islet peptide, i.e. leptin, were studied to identify possible endogenous regulators of IAPP and insulin secretion. Chromogranin-B, but not chromogranin-A or pancreastatin, had the ability to inhibit islet IAPP and insulin release, suggesting that chromogranin-B may serve as an autocrine regulator of IAPP and insulin secretion. Leptin had a more potent effect on IAPP secretion than on insulin secretion, which was dissociated from effects on islet glucose metabolism. Glucose oxidation rates were increased at physiological leptin concentrations, whereas higher leptin concentrations showed an inhibitory effect and chronically high leptin concentrations had no effect. Female NOD mice were studied to investigate the release of IAPP in the progression to type 1 diabetes. The release of IAPP was lower than that of insulin from immune cell infiltrated islets, indicating preferential insulin release during the early course of the disease. IAPP is expressed at an early embryonic stage. The effect of IAPP on cell proliferation in neonatal rat islets was studied in the search for a physiological role of IAPP. IAPP concentrations of (1-1000) nM stimulated neonatal islet cell proliferation mostly in beta cells and to a lesser extent in alpha cells. IAPP did not have any marked effect on the islet cell death frequency. These data indicate a role for IAPP as a potential regulator of beta cell proliferation in neonatal pancreatic islet. It is concluded that IAPP may be involved in regulation of pancreatic beta cell function both in fetal and adult life.

Cell biology

alpha cell

amylin

beta cell

chromogranin

growth

IAPP

insulin

islet amyloid polypeptide

leptin

NOD mice

pancreastatin

pancreatic islet

proliferation

Cellbiologi

Cell biology

Cellbiologi

Identification of Novel Roles for the Survival Motor Neuron (Smn) Protein: Implications on Spinal Muscular Atrophy (SMA) Pathogenesis and Therapy

Bowerman, Melissa

18 April 2012

Spinal muscular atrophy (SMA) is the leading genetic cause of death of young children. It is an autosomal recessive disease caused by the mutation and/or the deletion within the ubiquitously expressed survival motor neuron 1 (SMN1) gene. SMA pathology is characterized by spinal cord motor neuron degeneration, neuromuscular junction (NMJ) defects and muscular atrophy. Upon disease onset, SMA patients progressively become paralyzed and in the most severe cases, they die due to respiratory complications. Over the years, it has become clear that SMN is a multi-functional protein with important roles in small nuclear ribonucleoprotein (snRNP) assembly, RNA metabolism, axonal outgrowth and pathfinding, mRNA transport as well as in the functional development of NMJs, skeletal muscle and cardiac muscle. However, it remains unclear which of these functions, and the respective perturbed molecular pathways, dictate SMA pathogenesis. Here, we have established Smn-depleted PC12 cells and an intermediate SMA mouse model to characterize a role for Smn in the regulation of actin cytoskeleton dynamics. We find that Smn depletion results in the increased expression of profilin IIa and active RhoA (RhoA-GTP) as well as the decreased expression of plastin 3 and Cdc42. Importantly, the inhibition of rho-kinase (ROCK), a direct downstream regulator of RhoA, significantly increased the lifespan of SMA mice and shows beneficial potential as a therapeutic strategy for SMA. In an addition, we have uncovered a muscle- and motor neuron-independent role for SMN in the regulation of pancreatic development and glucose metabolism in SMA mice and type 1 SMA patients. This finding highlights the importance of combining a glucose tolerance assessment of SMA patients with their existing clinical care management. Thus, our work has uncovered two novel and equally important roles for the SMN protein, both of which contribute significantly to SMA pathogenesis.

spinal muscular atrophy

survival motor neuron protein

actin cytoskeletal dynamics

Rho GTPases

motor neuron

skeletal muscle

neuromuscular junctions

Rho-kinase inhibitors

glucose metabolism

pancreatic islet

profilin

plastin 3

Identification of Novel Roles for the Survival Motor Neuron (Smn) Protein: Implications on Spinal Muscular Atrophy (SMA) Pathogenesis and Therapy

Bowerman, Melissa

18 April 2012

Spinal muscular atrophy (SMA) is the leading genetic cause of death of young children. It is an autosomal recessive disease caused by the mutation and/or the deletion within the ubiquitously expressed survival motor neuron 1 (SMN1) gene. SMA pathology is characterized by spinal cord motor neuron degeneration, neuromuscular junction (NMJ) defects and muscular atrophy. Upon disease onset, SMA patients progressively become paralyzed and in the most severe cases, they die due to respiratory complications. Over the years, it has become clear that SMN is a multi-functional protein with important roles in small nuclear ribonucleoprotein (snRNP) assembly, RNA metabolism, axonal outgrowth and pathfinding, mRNA transport as well as in the functional development of NMJs, skeletal muscle and cardiac muscle. However, it remains unclear which of these functions, and the respective perturbed molecular pathways, dictate SMA pathogenesis. Here, we have established Smn-depleted PC12 cells and an intermediate SMA mouse model to characterize a role for Smn in the regulation of actin cytoskeleton dynamics. We find that Smn depletion results in the increased expression of profilin IIa and active RhoA (RhoA-GTP) as well as the decreased expression of plastin 3 and Cdc42. Importantly, the inhibition of rho-kinase (ROCK), a direct downstream regulator of RhoA, significantly increased the lifespan of SMA mice and shows beneficial potential as a therapeutic strategy for SMA. In an addition, we have uncovered a muscle- and motor neuron-independent role for SMN in the regulation of pancreatic development and glucose metabolism in SMA mice and type 1 SMA patients. This finding highlights the importance of combining a glucose tolerance assessment of SMA patients with their existing clinical care management. Thus, our work has uncovered two novel and equally important roles for the SMN protein, both of which contribute significantly to SMA pathogenesis.

spinal muscular atrophy

survival motor neuron protein

actin cytoskeletal dynamics

Rho GTPases

motor neuron

skeletal muscle

neuromuscular junctions

Rho-kinase inhibitors

glucose metabolism

pancreatic islet

profilin

plastin 3

Exploration of Conditions Affecting Cytokine Production in Experimental Type 1 Diabetes Mellitus

Thorvaldson, Lina

January 2007

Cytokines are soluble signalling mediators within the immune system, and have been shown to be of importance in the development of type 1 diabetes (T1D). This thesis studied the production of cytokines in experimental models of T1D and during transplantation of insulin-producing islets of Langerhans. We have demonstrated that the transcriptional TNFα-inhibitor MDL 201,449A, previously shown to reduce immune-mediated diabetes induced in mice by multiple low doses of streptozotocin, was not TNFα-specific, but also inhibited IFNγ and IL-10 in spleen cells. Furthermore, when the inhibitor was removed from in vitro cultures, a rebound phenomenon of increased cytokine secretion occurred. The thesis also investigated whether plastic adhesion, a method generally employed to deplete macrophages, influenced cytokine production in spleen cells. We observed that plastic adhesion increased TNFα, IFNγ and IL-10 release, and decreased IL-4 secretion. Plastic adhesion depleted only ~30% of the macrophages, but as much as ~60% of the regulatory T cells. Thirdly, we found that “control” treatments for islet transplantations, i.e. syngeneic and sham transplantations, exerted a clear effect on cytokine production from spleen cells, possibly due to a decrease in regulatory T cells that may be caused by the surgery and/or anaesthesia. Moreover, spleen cells from mice exposed to surgery exhibited a decreased proliferative capacity to concanavalin A stimulation. We also perceived a marked difference in cytokine response depending on the mouse strain used in the experiments. Finally, we aimed to elucidate if, besides autoimmune activities, also high glucose- and free fatty acid concentrations as seen in diabetes could cause changes in cytokine production. We observed that spleen cells cultured in varying glucose concentrations had different cytokine production profiles. The free fatty acid palmitate might also influence cytokine release, but this effect was obscured by the cytokine-suppressive action of the ethanol used to dissolve the palmitate.

Cell biology

Cytokine

Diabetes

Tumor necrosis factor-α

Interferon-γ

Interleukin-4

Interleukin-10

Transplantation

Pancreatic islet

Glucose

Regulatory T cell

Cellbiologi

Efeitos intergeracionais da obesidade materna sobre o pâncreas endócrino de camundongos C57BL/6 / Intergenerational effects of maternal obesity on the endocrine pancreas of C57BL/6

Francielle Graus Frazão Nunes

25 February 2014

Objetivo: Avaliar os efeitos da obesidade materna sobre a estrutura do pâncreas e metabolismo de carboidratos no início da vida adulta, com foco na prole da primeira geração (F1) e segunda geração (F2) de progenitoras F0 alimentadas com dieta rica em gordura nos períodos pré-gestacional, durante a gestação e lactação. Métodos: Camundongos C57BL/6 do gênero feminino (F0) foram alimentadas com dieta padrão (SC) ou dieta rica em gordura (HF) durante as oito semanas que antecederam o acasalamento, durante a gestação e lactação para gerar a F1 (F1-SC e F1-HF). As proles geradas receberam dieta SC até o terceiro mês de vida. Aos três meses de idade, fêmeas F1 foram acasaladas para gerar a F2 (F2-SC e F2-HF). Apenas os machos das geração F1 e F2 foram avaliados aos 3 meses de idade. As características metabólicas foram avaliadas pela massa corporal (MC), glicemia de jejum, área sob a curva no teste oral de tolerância a glicose; análise plasmática de insulina, leptina e adiponectina; distribuição e análise morfológica do pâncreas através da imunohistoquímica e imunofluorescência. Resultados: A prole F1-HF teve aumento significativo na massa corporal e glicemia quando comparado à F1-SC. Por outro lado, as proles F2-HF e F2-SC tiveram massas corporais semelhantes. A prole F1-HF e F2-HF mostrou aumento da ingestão de energia, intolerância à glicose, hiperinsulinemia, hiperleptinemia, hipoadiponectinemia, resistência à insulina, aumento da massa pancreática, o aumento da densidade de volume de ilhotas com elevada massa de células alfa e beta, ilhotas hipertrofiadas caracterizadas por uma distribuição alterada de células alfa e beta, e fraca imunoreatividade do pâncreas homeobox duodeno-1 (PDx1). Conclusões: Uma dieta HF materna consumida durante o período pré-concepção e durante toda a gestação e lactação em camundongos promoveu programação metabólica do pâncreas endócrino com pré-disposição ao diabetes mellitus tipo 2 precoce nas proles F1 e F2 do gênero masculino, sugerindo que essas mudanças são intergeracionais. / To evaluate the effects of maternal obesity upon pancreas structure and carbohydrate metabolism in early adult life, focusing on F1 and F2 generations of F0 dams fed high-fat diet during the pre-pregnancy, gestation, and lactation periods. Methods: C57BL/6 female mice (F0) were fed standard chow (SC) or HF diet for 8 weeks prior to mating and during gestation and lactation to provide F1 generation (F1-SC and F1-HF). At 3 months of age, F1 females were mated to produce F2 generation (F2-SC and F2-HF). Male offspring from all groups were evaluated at 3 months of age. Results: F1-HF offspring had significantly higher body mass and glycemia than F1-SC offspring. Conversely, F2-HF and F2-SC offspring had similar body masses. F1-HF and F2-HF offspring showed increased energy intake, glucose intolerance, hyperinsulinemia, hyperleptinemia, hypoadiponectinemia, insulin resistance, increased pancreatic mass, increased islet volume density with elevated alpha and beta cell mass, hypertrophied islets characterized by an altered distribution of alpha and beta cells, and weak pancreatic-duodenal homeobox (Pdx1) immunoreactivity. Conclusions: A maternal HF diet consumed during the preconception period and throughout the gestation and lactation in mice promotes metabolic and pancreatic programming in F1 and F2 male offspring, suggesting that these changes are intergenerational.

Intergeracional

Obesidade materna

Ilhotas pancreáticas

Resistência à insulina

Dieta rica em gordura

Intergenerational

Maternal obesity

Pancreatic islet

Insulin resistance

High-fat diet

MORFOLOGIA

Avaliação do estresse oxidativo em ilhotas pancreáticas humanas e em cultura de células INS-1E / Evaluation of oxidative stress in human pancreatic islets and INS-1E cells culture

Adriana Miranda Carvalho

17 May 2007

O transplante de ilhotas pancreáticas humanas é considerado uma estratégia promissora para curar pacientes portadores de Diabetes Mellitus tipo 1. Entretanto, sua eficiência é dramaticamente afetada pelo rendimento das ilhotas no processo de isolamento/purificação e pela viabilidade das células após o transplante. As ilhotas pancreáticas isoladas são obtidas através da perfusão do pâncreas com colagenase e purificação em gradiente de densidade. As espécies reativas de oxigênio (ERO) exercem um papel importante durante a obtenção e o transplante de ilhotas pancreáticas humanas, contribuindo significativamente para diminuir a viabilidade dessas células. Nesse trabalho foram avaliadas as respostas oxidativas de ilhotas pancreáticas humanas durante os processos de isolamento/purificação e cultivo. As atividades da superóxido dismutase (SOD), da catalase, bem como os níveis de oxidação em proteínas mostraram-se, na maioria dos casos, aumentados, principalmente durante a etapa de purificação das ilhotas em gradiente de Ficoll e no período de cultura das ilhotas. Esses resultados indicam que a purificação em gradiente de Ficoll parece ser uma etapa crítica de geração das ERO, assim como longos períodos de cultivo. Porém, verificou-se que influências advindas dos diferentes doadores (idade, causa- mortis, estilo de vida, etc.) e condições de preservação do órgão (tempo de isquemia, solução de conservação, etc.) poderiam estar relacionadas à discrepância de alguns resultados encontrados. Com o intuito de minimizar tais variáveis, optou-se por estudar os efeitos relacionados ao Ficoll em células de insulinoma INS-1E, um modelo celular fisiologicamente semelhante. Para tanto, as atividades das enzimas antioxidantes SOD, catalase, glutationa peroxidase (GPx) e glutationa redutase (GR), assim como os danos oxidativos em proteínas e lipídeos, os níveis de glutationa reduzida (GSH) e de glutationa oxidada (GSSG), a viabilidade celular e os níveis de algumas enzimas envolvidas no processo apoptótico como p38, JNK-1, ERK 1-2 e PI3-K expostas a polissacarose (1100 mg/mL), um genérico do Ficoll, foram determinadas. De acordo com os resultados, as atividades da SOD, catalase e GPx presentes em amostras expostas a polissacarose mostraram-se aumentadas. Em cultura, a atividade de isoforma mitocondrial da SOD (Mn-SOD) de células INS-1E correspondeu a 50% da atividade total da SOD. Na presença da polissacarose, a atividade da Mn-SOD aumentou para 80% do total. Além disso, a oxidação de lipídios e de proteínas aumentou e os níveis de GSH e GR diminuíram discretamente. Estes resultados mostraram que a exposição dessas células a polissacarose está associada com o estresse oxidativo. Entretanto, tal exposição não foi responsável pela diminuição da viabilidade celular embora os níveis protéicos de JNK-1, ERK1-2 e PI3-K tenham se mostrado consideravelmente aumentados e os níveis de p38, diminuídos. Os níveis de expressão e a atividade de enzimas antioxidantes são conhecidamente baixos em ilhotas pancreáticas. A N-acetilcisteína (NAC) foi adicionada em cultura de células para prevenir o estresse oxidativo. Nessas condições, a NAC foi capaz de proteger as células INS-1E do estresse oxidativo induzido. Esses resultados sugerem que a exposição à polissacarose está associdada ao estresse oxidativo em células INS-1E e que a NAC foi capaz de prevenir a morte celular de células INS-1E expostas a ERO através do aumento intracelular de GSH. / Human pancreatic islet transplantation is considered a promising strategy to cure the cure Diabetes Mellitus type I. However, transplantation efficiency is dramatically affected by sub-optimum islet recovery in the isolation/purification procedure and islet viability after transplantation. Isolated pancreatic islets are obtained through collagenase perfusion and cell purification in a Ficoll gradient. Reactive oxygen species (ROS) play an important role during human pancreatic islet isolation and may contribute to the decrease in cell viability. The aim of this study was evaluated the response of human pancreatic islets during its isolation/purification and culture time. Activities of superoxide dismutase (SOD) and catalase as well as protein oxidation levels increased in most of analyzed samples, mainly during the Ficoll gradient islet purification step and further culture. Ficoll seems to be the critical step for ROS generation. Nevertheless, it was observed that donors characteristics (aging, cause of death, habits, etc.) and organ preservation conditions (ischemic time, preservation solution, etc.) may be related to our results. To minimize these variations, a physiological cellular model based on INS-1E cells was chosen. The antioxidant enzymes SOD, catalase, glutathione peroxidase (GPx) and glutathione reductase (GR) activities as well the oxidative damage to proteins and lipids, reduced glutathione (GSH) and oxidized glutathione (GSSG) levels, cellular viability and the protein levels of some enzymes responsible for apoptotic signaling like p38, JNK-1, ERK 1-2 and PI3-K upon exposure to polysucrose (1100 mg/mL), a similar of Ficoll, were determined. The SOD, catalase and GPx in samples exposed to polysucrose displayed hight activities. In all cultures, the activity of mitochondrial isoform of SOD (Mn-SOD) corresponds to 50% of total SOD activity. In the presence of polysucrose, the activity of Mn-SOD increased up to 80%. Lipids and protein oxidation levels were also increased and the GSH levels with the GR activity decreased. These results indicated that the exposure of INS-1E cells to polysucrose is associated with oxidative stress. However, the polysucrose exposure was not responsible for cell death although JNK-1, ERK1-2 and PI3-K levels showed hight levels but not p38, upon polysucrose exposure. The expression and activities of antioxidants enzymes are known to be very low in pancreatic islets. N-acetylcysteine (NAC) was added to the INS-1E cultures to prevent oxidative stress. Under these conditions, NAC was able to protect INS- 1E cells from induced oxidative damage by increasing intracellular GSH levels. Taken together, these results suggest that the exposure to polysucrose is related to the oxidative stress in INS-1E cells and NAC seems to be able to maintain cell viability.

Diabetes Mellitus

Enzimas antioxidantes

Estresse oxidativo

Radicais livres

Transplante de ilhotas pancreáticas

Antioxidants enzymes

Diabetes Mellitus

Free radicals

Oxidative stress

Pancreatic islet transplantation