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RESUMEN Introducción: La prueba de tolerancia de comida mixta es considerada la prueba de oro para la medición de la producción de insulina endógena en pacientes con diabetes tipo 1. Objetivo: Determinar la utilidad de la prueba de tolerancia de comida mixta con Nutrial I para evaluar la función de las células ß en diabéticos tipo 1 de diagnóstico reciente y la relación de esa función con algunas características clínicas y bioquímicas. Métodos: Se estudiaron variables bioquímicas como la glucemia, hemoglobina glucosilada (HbA1c), péptido C y fracciones lipídicas. La prueba de tolerancia de comida mixta con Nutrial I se aplicó a 18 sujetos con diabetes tipo 1 de diagnóstico reciente y a 8 voluntarios con edades comprendidas entre 19 y 35 años. El consumo del suplemento Nutrial I se calculó según el peso del paciente. Se obtuvieron muestras para glucemia y péptido C a los -10, 0, 30, 60, 90 y 120 minutos. Resultados: Se observaron concentraciones elevadas de glucemia y disminuidas de péptido C durante la prueba de tolerancia de comida mixta en los diabéticos tipo 1 de diagnóstico reciente, en comparación con los voluntarios, así como, diferencias en las áreas bajo la curva de péptido C (AUC-pc) (p= 0,001). En los diabéticos tipo 1 de diagnóstico reciente se evidenció una correlación negativa entre el AUC-pc con los niveles de glucemia en ayunas (r= -0,747; p ( 0,0001) y la HbA1c (r= -0,535; p= 0,022). Por el contrario, se encontró una correlación positiva entre el AUC-pc y el péptido C en ayunas (r= 0,722; p= 0,001). El AUC-pc después de la prueba de tolerancia de comida mixta es mayor en los sujetos con glucemia en ayunas si GA < 7 mmol/L con respecto a los sujetos con glucemia en ayunas ( 7 mmol/L (p= 0,012). Conclusiones: El empleo del Nutrial I en la prueba de tolerancia de comida mixta fue útil en la evaluación de la función de las células β en diabéticos tipo 1 de diagnóstico reciente. Los valores bajos de glucemia en ayunas durante esta prueba son marcadores indirectos de una función residual de células ( más conservada en los diabéticos tipo 1 de diagnóstico reciente(AU)
ABSTRACT Introduction: The tolerance test of mixed food is considered the gold standard for the measurement of endogenous insulin production in patients with diabetes type 1. Objective: To determine the usefulness of the tolerance test of mixed food with Nutrial I to assess the ß-cells function in patients with diabetes type 1 of recent diagnosis and the relation of this function with some clinical and biochemical characteristics. Methods: There were studied biochemical variables as the blood glucose, glycosylated haemoglobin (HbA1c), C-peptide and lipid fractions. The tolerance test of mixed food with Nutrial I was applied to 18 individuals with diabetes type 1 of recent diagnosis and in 8 volunteers aged between 19 and 35 years old. The consumption of Nutrial I supplement was calculated according to the weight of the patient. Samples were obtained for blood glucose and C-peptide at -10, 0, 30, 60, 90 and 120 minutes. Results: There were observed high concentrations of glycemia and decreased amounts of C-peptide during the tolerance test of mixed food in recently diagnosed type 1 diabetics in comparison with the volunteers, as well as differences in areas under the curve of C-peptide (AUC-pc) (p= 0.001). In the recently diagnosed type 1 diabetics was evident a negative correlation between the AUC-pc with fasting plasma glucose levels (r= -0,747; p(0.0001) and HbA1c (r= -0,535; p= 0.022). On the contrary, it was found a positive correlation between the AUC-pc and fasting C-peptide (r = 0.722; p = 0.001). The AUC-pc after the tolerance test of mixed food was greater in subjects with fasting blood glucose < 7 mmol/L with respect to the subjects with fasting blood glucose ( 7 mmol/L (p= 0.012). Conclusions: The use of Nutrial I in the tolerance test of mixed food was useful in the assessment of the role of the β-cells in patients with recently diagnosed diabetes type 1. Low values of fasting blood glucose during this test are indirect markers of a residual function of (cells more preserved in type 1 diabetics of recent diagnosis(AU)
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Humans , Blood Glucose/physiology , Diabetes Mellitus, Type 1/diagnosis , Insulin Secretion/physiology , Epidemiology, Descriptive , Cross-Sectional StudiesABSTRACT
@#Circular RNA (circRNA) is a novel type of non-coding RNA with covalently closed loops which plays an important role in the occurrence and development of type 2 diabetes. In this paper, the relationship between circRNA and type 2 diabetes in terms of the regulation of pancreatic β-cell function by circRNA and the metabolic activity of heart, kidney and other organs is reviewed, and the possibility of circRNA as a clinical diagnostic marker for type 2 diabetes and its complications is emphasized, hoping to provide reference and clues for the prevention, diagnosis and treatment of type 2 diabetes.
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Objective To explore the effect of walking on residual beta cell function and glycemic control in patients with type 1 diabetes mellitus.Methods A total of 117 type 1 diabetes mellitus patients who usually walked less than 5000 steps per day were given health education about exercise and divided into three groups according to their self-estimates of the number of walking steps they had taken daily in the previous 4 months:an absent exercise group (< 5000 steps/day),a basic exercise group (5000-10000 steps/day) and an active exercise group (> 10000 steps/day).Among them,34 were in absent group (23.5% for males),45 were in basis exercise group (40.0% for males) and 38 were in active exercise group (52.6% for males).Fasting C-peptide,postprandial C-peptide,and postprandial C-peptide to glucose ratio were used to evaluate the residual beta cell function,while glycated hemoglobin A1c (HbA1c) and insulin dose-adjusted HbAlc (IDAAlc) were used to evaluate their glycemic control.Results The beta cell function and glycemic control showed a tendency to improve with increases in the number of walking steps.Fasting C-peptide,postprandial Cpeptide and the postprandial C-peptide to glucose ratio also increased significantly,while HbA1c and IDAA1c decreased significantly.After balancing the initial difference in the analysis of covariance,significant differences were still found among the 3 groups in the subjects' beta cell function and glycemic control during the follow-up.Linear regression showed that a large number of steps independently predicted better beta cell function.Conclusions In patients with type 1 diabetes mellitus,walking exercise may be effective for improving residual beta cell function and glycemic control.
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Islet βcell dysfunction is one of the important links in the development of type 2 diabetes (T2DM).The latest research shows that the main cause of the continuous β-cell dysfunction under metabolic stress is mainly the dedifferentiation of β-cells,and become endocrine progenitor -like cells with multiple differentiation potentials.Studies have found that the process of dedifferentiation of pancreatic islet βcells is reversible.This finding has provided possibilities and new ideas for preventing and reversing the progressive decline of βcell function and delaying the occurrence of T2DM.
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O diabetes mellitus do tipo 1 (DM1) é uma doença causada pela destruição autoimune das células-ß produtoras de insulina do pâncreas. O transplante de ilhotas pancreáticas é um procedimento tecnicamente simples sendo uma alternativa terapêutica interessante para o DM1. Entretanto, a oferta limitada de pâncreas de doadores falecidos e a necessidade de imunossupressão crônica são fatores que limitam a aplicabilidade dessa modalidade de transplante. Neste trabalho foram estudadas duas estratégias que visam oferecer soluções aos fatores limitantes do transplante de ilhotas pancreáticas. Na primeira parte do trabalho, o mecanismo molecular que dirige o processo de diferenciação de células-tronco embrionárias murinas (murine embryonic stem cells, mESCs) em células produtoras de insulina (insulin producing cells, IPCs) foi analisado visando otimizar o processo de diferenciação. Nós selecionamos o gene Thioredoxin interacting protein (Txnip), diferencialmente expresso ao longo da diferenciação ß-pancreática, para realizar um estudo funcional através da modificação genética de mESCs. Os resultados obtidos permitiram verificar que a inibição de Txnip na diferenciação ß-pancreática pode induzir a diferenciação de IPCs com maior expressão de marcadores de células- e mais responsivas ao estímulo de glicose. Além disso, o modelo de zebrafish permitiu elucidar in vivo o papel de Txnip durante a organogênese pancreática, revelando que a inibição desse gene é capaz de aumentar a massa de células-ß através do estimulo de células presentes no ducto extra-pancreático. Dessa forma, a inibição de Txnip pode aprimorar os protocolos para obtenção de IPCs a partir de células-tronco pluripotentes. A exposição crônica a agentes imunossupressores diabetogênicos e a perda de componentes de matriz extracelular durante o isolamento de ilhotas pancreáticas são causas para a perda de funcionalidade do enxerto. Dessa forma, na segunda parte do trabalho, um biomaterial inovador foi desenvolvido, contendo um polímero de laminina (polilaminina, PLn) para o encapsulamento e a imunoproteção de ilhotas pancreáticas. As cápsulas produzidas com o biomaterial desenvolvido, Bioprotect-Pln, são térmica- e mecanicamente estáveis, além de serem biocompatíveis e capazes de imunoproteger ilhotas pancreáticas humanas in vitro. O encapsulamento com Bioprotect-Pln preserva a funcionalidade de ilhotas pancreáticas. Além disso, quando cápsulas vazias de Bioprotect-Pln foram implantadas em camundongos imunocompetentes, houve atenuação da resposta inflamatória ao implante, uma das principais causas para perda de funcionalidade de enxertos encapsulados. Os resultados obtidos indicam que a presença de polilaminina na malha capsular induz uma resposta anti-inflamatória que pode beneficiar a preservação do enxerto de ilhotas pancreáticas encapsuladas. Atualmente, o transplante de ilhotas pancreáticas é visto como a terapia celular mais promissora para atingir a independência de insulina em pacientes de DM1, porém, a aplicabilidade desse transplante ainda é limitada. Este trabalho contribuiu para a elucidação dos mecanismos moleculares que podem aprimorar o processo de diferenciação de célulastronco pluripotentes em IPCs, estabelecendo uma fonte alternativa de células para a terapiade reposição, e, também, estabeleceu um biomaterial inovador, capaz de diminuir a resposta inflamatória ao implante de microcápsulas e de imunoproteger células microencapsuladas. Desta forma, este trabalho contribui para o estabelecimento da terapia de reposição celular para pacientes de DM1
Type 1 diabetes mellitus (DM1) is a disease caused by the autoimmune destruction of insulin-producing pancreatic ß-cells. Pancreatic islet transplantation is a technically simple procedure and an interesting alternative therapy for DM1, however, the limited supply of cadaveric donated pancreas and the need of life-long immunosuppression are factors which limit its applicability. In the present work, two strategies were employed aiming at establishing viable solutions for the factors limiting pancreatic islet transplantation. In the first part of this study, the molecular mechanism which drives differentiation of murine embryonic stem cells (mESCs) into insulin producing cells (IPCs) was analyzed in order to optimize the differentiation process. The Thioredoxin interacting protein (Txnip) gene, which is differentially expressed along -pancreatic differentiation, was selected to undergo a functional analysis by genetically modifying mESCs. The results allowed us to verify that Txnip inhibition during the ß-pancreatic differentiation process can induce differentiation of IPCs displaying higher expression of ß-cell markers and being more responsive to glucose stimuli. In addition, the zebrafish model allowed us to elucidate in vivo the role of Txnip during pancreatic organogenesis, revealing that its inhibition is able to increase the mass of ß-cells through stimulation of extra-pancreatic ductal cells. Therefore, Txnip inhibition may turbinate IPCs differentiation from pluripotent stem cells. The chronic exposure to diabetogenic immunosuppressive agents and the loss of extracellular matrix components during isolation of pancreatic islets are probable causes for the loss of pancreatic islet graft functionality. Therefore, in the second part of this study, an innovative biomaterial was developed by incorporating a laminin polymer (polylaminin, PLn) for the encapsulation and immunoprotection of pancreatic islets. The capsules produced with the novel biomaterial, Bioprotect-Pln, are biocompatible, thermally and mechanically stable and are able to immunoprotect human pancreatic islets in vitro. Encapsulation with Bioprotect-Pln preserves the functionality of pancreatic islets. In addition, when empty Bioprotect-Pln capsules were implanted into immunocompetent mice, an attenuation of the inflammatory response to the implant occurred, this being one of the main causes of encapsulated graft loss. The results indicate that polylaminin addition to the capsular mesh induces an anti-inflammatory response which may favor preservation of the engrafted encapsulated pancreatic islets. Pancreatic islet transplantation is currently seen as the most promising cell therapy to achieve insulin independence in DM1 patients, however, the applicability of this transplant is still limited. This work contributed to the elucidation of the molecular mechanisms which can turbinate the differentiation of pluripotent stem cells into IPCs, establishing an alternative source of cells for the replacement therapy, and, also, established an innovative biomaterial which is able to decrease the inflammatory response to the graft, thereby immunoprotecting the microencapsulated cells. Therefore, this work contributes to the establishment of the cell replacement therapy for DM1 patients
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Complementary Therapies , Mouse Embryonic Stem Cells , Latent Autoimmune Diabetes in Adults/drug therapy , Islets of Langerhans Transplantation , Laminin , Insulin-Secreting CellsABSTRACT
Objective To investigate the effect of liraglutide combined with glargine insulin in treating the patients with newly diagnosed type 2 diabetes mellitus (T2DM).Methods Sixty-one cases of newly diagnosed T2DM in the endocrinology department of Affiliated Chaozhou Central Hospital of Southern Medical University,from August 2014 to December 2015 were selected and divided into two groups according to the random number table.The observation group (29 cases) was treated with liraglutide combined with glargine insulin and the control group (32 cases) was given the intensive insulin therapy.The curative effects before and after treatment were analyzed and compared between the two groups.Results The fast plasma glucose(FPG),postprandial 2 h blood glucose(PPG),glycosylated hemoglobin(HbA1c),fasting C peptide(FCP),postprandial 2 h C peptide(PCP),insulin resistance index(HOMA-IR),blood lipid indicators and body mass index after 12-week treatment were decreased in the treatment and follow up periods,while pancreatic β cell function index (HOMA-β) and HDL-C were increased,indicating that the two kinds of treatment method all were effective.The effect onset in the observation group was faster,the above indexes after 4-week treatment were significantly improved compared with before treatment.The above indexes after 4-,12-week treatment in the observation group were significantly superior to those in the control group,the difference was statistically significant(P<0.05).Conclusion Liraglutide combined with glargine insulin has better effect in the aspects of reducing blood glucose,regulating blood lipid,decreasing the body mass and islet function recovery than the intensive insulin treatment and is worthy of clinical promotion and application.
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BACKGROUND: To develop surrogate insulin-producing cells for diabetes therapy, adult stem cells have been identified in various tissues and studied for their conversion into β-cells. Pancreatic progenitor cells are derived from the endodermal epithelium and formed in a manner similar to gut progenitor cells. Here, we generated insulin-producing cells from the intestinal epithelial cells that induced many of the specific pancreatic transcription factors using adenoviral vectors carrying three genes: PMB (pancreatic and duodenal homeobox 1 [Pdx1], V-maf musculoaponeurotic fibrosarcoma oncogene homolog A [MafA], and BETA2/NeuroD). METHODS: By direct injection into the intestine through the cranial mesenteric artery, adenoviruses (Ad) were successfully delivered to the entire intestine. After virus injection, we could confirm that the small intestine of the mouse was appropriately infected with the Ad-Pdx1 and triple Ad-PMB. RESULTS: Four weeks after the injection, insulin mRNA was expressed in the small intestine, and the insulin gene expression was induced in Ad-Pdx1 and Ad-PMB compared to control Ad-green fluorescent protein. In addition, the conversion of intestinal cells into insulin-expressing cells was detected in parts of the crypts and villi located in the small intestine. CONCLUSION: These data indicated that PMB facilitate the differentiation of mouse intestinal cells into insulin-expressing cells. In conclusion, the small intestine is an accessible and abundant source of surrogate insulin-producing cells.
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Animals , Mice , Adenoviridae , Adult Stem Cells , Endoderm , Epithelial Cells , Epithelium , Fibrosarcoma , Gene Expression , Genes, Homeobox , Insulin , Intestine, Small , Intestines , Mesenteric Arteries , Oncogenes , RNA, Messenger , Stem Cells , Transcription FactorsABSTRACT
ERS is a kind of universal existence in various cellular stress response.Recently, the research shows that ERS may affect bone metabolism balance from different ways.However, the specific mechanism is still not clear.The relationship between ERS and osteoporosis needs further research.This article will firstly introduce the pathways of ERS, then the relationship between the ERS and osteoporosis will be discussed from pancreatic beta cells, osteoblasts, osteoclasts and mesenchymal stem cells.Lastly, I will give perspectives on the future research on treatment of osteoporosis drug.
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The aim of this study was to evaluate the anti-diabetic effects of the water extract of Lespedeza cuneata (LCW) using rat insulinoma (RIN) m5F cells and streptozotocin (STZ)-induced diabetic rats. The effect of LCW on the protection of pancreatic beta cells was assessed using MTT assay, and nitric oxide production was assessed using Griess reagent. STZ-induced diabetic rats were treated with 100 and 400 mg/kg body weight of LCW for 5 weeks. In results, LCW significantly protected cytokine-induced toxicity and NO production, and increased insulin secretion in RINm5F cells. LCW significantly decreased serum blood glucose, thiobarbituric acid reactive substances (TBARS), blood urea nitrogen (BUN) and advanced glycation end products (AGEs) levels, and renal fibronectin expression in STZ-induced diabetic rats. Also, LCW effectively improved BW loss in STZ-induced diabetic rats. Thus, our results suggest that LCW has a beneficial effect on cytokine-induced pancreatic beta cell damage and biomarkers of diabetic complication in hyperglycemic rats.
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Animals , Rats , Biomarkers , Blood Glucose , Blood Urea Nitrogen , Body Weight , Cytokines , Diabetes Complications , Fibronectins , Insulin , Insulin-Secreting Cells , Insulinoma , Lespedeza , Nitric Oxide , Streptozocin , Thiobarbituric Acid Reactive Substances , WaterABSTRACT
Pancreatic beta-cells have an important role in maintaining blood glucose homeostasis through insulin secretion. Therefore, decreased insulin secretion function induced by impaired beta-cell is one of the leading causes of diabetes mellitus. Accumulating data suggested that multiple factors such as age, body weight, smoking and alcohol intake may decrease beta-cell function. In addition, previous studies have reported that nutrient intake, such as carbohydrate, fat, vitamin and mineral intake, is associated with beta-cell function. The purpose of this study is to review the results regarding the association between nutrient intake and beta-cell function. We propose herein that nutrient intake helps prevent decreases in beta-cell function and preserves the optimal insulin secretion function.
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Blood Glucose , Body Weight , Diabetes Mellitus , Homeostasis , Insulin , Miners , Smoke , Smoking , VitaminsABSTRACT
Inhibition of CD36, a fatty acid transporter, has been reported to prevent glucotoxicity and ameliorate high glucose induced beta cell dysfunction. Ezetimibe is a selective cholesterol absorption inhibitor that blocks Niemann Pick C1-like 1 protein, but may exert its effect through suppression of CD36. We attempted to clarify the beneficial effect of ezetimibe on insulin secreting cells and to determine whether this effect is related to change of CD36 expression. mRNA expression of insulin and CD36, intracellular peroxide level and glucose stimulated insulin secretion (GSIS) under normal (5.6 mM) or high glucose (30 mM) condition in INS-1 cells and primary rat islet cells were compared. Changes of the aforementioned factors with treatment with ezetimibe (20 μM) under normal or high glucose condition were also assessed. mRNA expression of insulin was decreased with high glucose, which was reversed by ezetimibe in both INS-1 cells and primary rat islets. CD36 mRNA expression was increased with high glucose, but decreased by ezetimibe in INS-1 cells and primary rat islets. Three-day treatment with high glucose resulted in an increase in intracellular peroxide level; however, it was decreased by treatment with ezetimibe. Decrease in GSIS by three-day treatment with high glucose was reversed by ezetimibe. Palmitate uptake following exposure to high glucose conditions for three days was significantly elevated, which was reversed by ezetimibe in INS-1 cells. Ezetimibe may prevent glucotoxicity in pancreatic β-cells through a decrease in fatty acid influx via inhibition of CD36.
Subject(s)
Animals , Male , Rats , Anticholesteremic Agents/pharmacology , CD36 Antigens/antagonists & inhibitors , Cells, Cultured , Ezetimibe/pharmacology , Flow Cytometry , Glucose/toxicity , Insulin/genetics , Insulin-Secreting Cells/cytology , Palmitic Acid/metabolism , RNA, Messenger/metabolism , Rats, Sprague-Dawley , Reactive Oxygen Species/metabolism , Real-Time Polymerase Chain ReactionABSTRACT
Melatonin referred as the hormone of darkness is mainly secreted by pineal gland, its levels being elevated during night and low during the day. The effects of melatonin on insulin secretion are mediated through the melatonin receptors (MT1 and MT2). It decreases insulin secretion by inhibiting cAMP and cGMP pathways but activates the phospholipaseC/IP3 pathway, which mobilizes Ca2+from organelles and, consequently increases insulin secretion. Both in vivo and in vitro, insulin secretion by the pancreatic islets in a circadian manner, is due to the melatonin action on the melatonin receptors inducing a phase shift in the cells. Melatonin may be involved in the genesis of diabetes as a reduction in melatonin levels and a functional interrelationship between melatonin and insulin was observed in diabetic patients. Evidences from experimental studies proved that melatonin induces production of insulin growth factor and promotes insulin receptor tyrosine phosphorylation. The disturbance of internal circadian system induces glucose intolerance and insulin resistance, which could be restored by melatonin supplementation. Therefore, the presence of melatonin receptors on human pancreatic islets may have an impact on pharmacotherapy of type 2 diabetes.
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Animals , Humans , /metabolism , Melatonin/physiology , Circadian Rhythm/physiology , /etiology , Glucose/metabolism , Insulin-Secreting Cells/metabolism , Insulin , Melatonin/pharmacology , Polymorphism, Genetic , Receptors, Melatonin/physiology , Signal Transduction/physiologyABSTRACT
Although currently available drugs are useful in controlling early onset complications of diabetes, serious late onset complications appear in a large number of patients. Considering the physiopathology of diabetes, preventing beta cell degeneration and stimulating the endogenous regeneration of islets will be essential approaches for the treatment of insulin-dependent diabetes mellitus. The current review focused on phytochemicals, the antidiabetic effect of which has been proved by pancreatic beta cell protection/regeneration. Among the hundreds of plants that have been investigated for diabetes, a small fraction has shown the regenerative property and was described in this paper. Processes of pancreatic beta cell degeneration and regeneration were described. Also, the proposed mechanisms for the protective/regenerative effects of such phytochemicals and their potential side effects were discussed.
Embora medicamentos disponíveis atualmente sejam úteis no controle de complicações da Diabetes, complicações aparecem em grande número de pacientes. Considerando-se a fisiopatologia do Diabetes, a prevenção da degeneração de células beta e o estímulo da regeneração endógena de ilhotas será abordagem essencial para o tratamento de diabetes mellitus insulino-dependente. A presente revisão aborda compostos fitoquímicos, cujo efeito é provado na proteção/regeneração de células beta de pâncreas. Entre centenas de plantas que têm sido investigadas para o diabetes, pequena fração tem mostrado propriedade regenerativa, que será descrita neste trabalho. Os processos de degeneração e de regeneração das células beta do pâncrease são descritos. Além disso, mecanismos propostos para efeitos de proteção e regeneração desses compostos fitoquímicos e seus possíveis efeitos colaterais também serão discutidos neste trabalho.
Subject(s)
Insulin-Secreting Cells/classification , Phytotherapy/classification , Pancreas , Diabetes Mellitus/prevention & control , Diabetes Mellitus, Type 1/classificationABSTRACT
Background: reports from traditional medicine suggest that chard (Beta vulgaris L. var Cicla) can have remarkable effects in diabetes therapy. Objective: to evaluate the cytotoxic activity of chard extracts in cell lines and determine the viability of cultured porcine pancreatic islets added with or without chard extracts. Methods: cytotoxic activity of chard extracts was assessed in non-tumor and tumor cell lines using the MTT [3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide] technique, and the ability of extracts to maintain porcine pancreatic islets viability and regeneration in vitro was tested. Results: the 50% cytotoxic concentration (CC50) of extracts for non-tumor cell lines was above 1,000 μg/mL, while it was 825 μg/mL, 283 μg/mL, 136 μg/mL and 380 μg/mL, for hexane, ethyl acetate, ethanol and water extracts in the tumor cell line, respectively. The CC50 ratio between cell lines indicates that ethanol extract is 7.5 times more toxic to tumor than non-tumor cell lines. There was an increase in viability of porcine pancreatic islets cultured with aqueous, ethyl acetate, and ethanol extracts compared with standard media (CMRL1066) and Cyclosporine A (CsA) control groups. Furthermore, a greater than one regeneration index of islets cultured with ethanol extract at 1,000 μg/mL and 500 μg/mL concentrations during 15 days was observed, which remained constant and was significantly higher than CsA group. Conclusions: these results suggest that chard metabolites should be researched to develop antitumor therapies and human pancreatic islets recovery in diabetes treatment.
Antecedentes: reportes de medicina tradicional sugieren que la planta acelga (Beta vulgaris L. var Cicla) es importante en el tratamiento de enfermedades como la diabetes. Objetivo: evaluar la citotoxicidad de concentraciones de extractos de acelga en líneas celulares y determinar la viabilidad de islotes pancreáticos porcinos cultivados con y sin extracto de acelga. Método: se evaluó la actividad citotóxica en líneas celulares tumorales y no tumorales, con la técnica del MTT [3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide]. Específicamente se hicieron ensayos para comprobar si los extractos de acelga tienen la capacidad de mantener la viabilidad de islotes pancreáticos porcinos aislados e influir en su regeneración in vitro. Resultados: la concentración citotóxica al 50% (CC50) de los extractos en líneas no tumorales fue mayor de 1.000 μg/mL, mientras que para los extractos en hexano, acetato de etilo, etanol y agua fue de 825 μg/mL, 283 μg/mL, 136 μg/mL y 380 μg/mL, respectivamente, en líneas tumorales. La proporción CC50 encontrada indica que el extracto en etanol es 7,5 veces más tóxico para las líneas celulares tumorales que para las no tumorales. Igualmente encontramos un aumento en la viabilidad de los islotes pancreáticos porcinos cultivados con extracto acuoso, de acetato en etilo y etanol en comparación con el medio de cultivo estándar (CMRL1066) y un control inhibidor que contenía medio con Ciclosporina A (CsA). Además, se encontró que el índice de regeneración era mayor de uno en los islotes cultivados con el extracto en etanol a concentraciones de 1.000 μg/mL y 500 μg/mL durante 15 días, que se mantuvo constante y fue significativamente mayor en comparación con el grupo de CsA. Conclusión: estos resultados sugieren que los metabolitos de la acelga podrían ser utilizados en la investigación de nuevos fármacos para el desarrollo de terapias antitumorales y recuperación de islotes pancreáticos en el tratamiento de la diabetes.
Antecedentes: relatos encontrados em medicina sugerem que a planta acelga (Beta vulgaris L. var Cicla) tem un papel importante no tratamento das doenças como a diabetes. Objetivo: avaliar a citotoxicidade de concentrações de extratos em linhagens celulares e determinar a viabilidade de ilhotas pancreáticas de porcos cultivadas com e sem extrato de acelga. Métodos: neste trabalho foi avaliada a atividade citotóxica dos extratos da acelga em linhagens celulares tumorais e não tumorais, usando a técnica do MTT [3-(4,5-dimethylthiazol-2-yl)- 2,5-diphenyltetrazolium bromide]; além disso, foram feitos ensaios para verificar a capacidade que têm os extratos para manter a viabilidade das ilhotas pancreáticas isoladas de porcos e a influência em sua regeneração in vitro. Resultados: a concentração citotóxica ao 50% (CC50) dos extratos em linhagens não tumorais está acima de 1000 μg/mL, enquanto para os extratos de hexano, acetato de etilo, etanol y água é de 825 μg/mL, 283 μg/mL, 136 μg/mL y 380 μg/mL, respectivamente, em linhagens tumorais. A proporção CC50 entre a célula indica que o extrato de etanol é 7,5 vezes mais tóxico para as linhas celulares tumorais que para as linhas não tumorais. Houve um aumento na viabilidade dos isolados pancreáticos de porcos cultivados com extrato aquoso, de acetato de etilo y etanol, em comparação com o meio de cultura padrão (CMRL 1066) e um controle inibitório contendo meio com Ciclosporina A (CsA). Encontrou-se também uma taxa de regeneração maior do que um em ilhotas cultivadas com concentrações de 1000 μg/mL e 500 μg/mL durante 15 días, que se manteve constante e foi significativamente mais elevada em comparação com a CsA. Conclusões: estes resultados sugerem que os metabolitos da acelga poderiam ser usados para a pesquisa de novas drogas para o desenvolvimento de terapias antitumorais e recuperação de ilhotas pancreáticas para o tratamento da diabetes.
ABSTRACT
Aim: The study investigated the modulating roles of ethanolic roots extract of Crossopteryx febrifuga (CF) for its antihyperglycemic, antihyperlipidemic, glycosylated hemoglobin effects and cytoarchitectural changes on pancreatic beta cells in alloxaninduced diabetic rats Study Design: Experimental diabetes using animal models. Methodology: Twenty- Five (25) male albino rats were randomly divided into five (5) experimental groups: control, diabetic, standard drug (glibenclamide 10 mg/kg body wt) and C. febrifuga (375 and 500 mg/kg bwt) treated diabetic groups The animals in four out of five groups were fasted for 18 h and were made diabetic by injecting with a single dose of alloxan (ALX) 150 mg/kg, Diabetic rats 5 per group received graded doses (375 and 500 mg/kg bwt) of the extracts and glibenclamide 10 mgkg-1 for 15days. Blood was collected on days 0, 5, 10 and 15 for glucose estimation. Lipid profile was measured using DiaSys Kits from Germany which utilized the colorimetric method. Insulin Assay was measured using Monobind Insulin Microplate Elisa test while HbA1C was analyzed by Biosystem Kits (Barcelona Kits, Spain) using chromatographic method. Twenty (20) male albino rats were randomly distributed to four groups; I, II, III and IV with each consisting of five animals received 20% (w/v) glucoseorally at a dose of 0.5ml /100 g bwt. After 30 min, the animals received extracts as follows: Group I, C. febrifuga (500 mg/kg bwt); Group II, C. febrifuga (250 mg/kg bwt); Group III, C. febrifuga (100 mg/kg bwt); Group IV, 0.5 ml (2% w/v) acacia solution and served as control. Blood glucose levels were then monitored at 30, 60, and 120 min. intervals and reported as the average glucose level of each group. Results: A significant reduction in postprandial sugar level was observed after 60min in all treatments. Diabetic rats without treatment showed significant increases (p<0.05) in the levels of blood glucose, triglycerides, total cholesterol, low density lipoprotein LDL-cholesterol while the high density lipoprotein HDL-cholesterol level were significantly decreased (p<0.05) compared to normal rats. In addition, the diabetic rats treated with the CF and glibenclamide showed significant decrease (p<0.05) in blood glucose, TG and LDLcholesterol levels and a significant decrease (p<0.05) in HDL-cholesterol level compared to diabetic untreated rats. There were significant reductions (p0.05) in low density lipoprotein (LDL)-cholesterol levels and significant increase (p0.05) in the treated diabetic group compared to the negative control. Apart from these, cytoarchitectural changes also revealed the protective nature of the ethanolic roots extract of Crossopteryx febrifuga against alloxan induced necrotic damage of pancreatic tissues. Conclusion: The ethanolic roots extract of Crossopteryx febrifuga modulated hyperglycemic by potentiating insulin release from the beta cells of pancreas and ameliorated dyslipidaemia.
ABSTRACT
We show that silymarin, a polyphenolic flavonoid isolated from milk thistle (Silybum marianum), inhibits cytokine mixture (CM: TNF-alpha, IFN-gamma, and IL-1beta)-induced production of nitric oxide (NO) in the pancreatic beta cell line MIN6N8a. Immunostaining and Western blot analysis showed that silymarin inhibits iNOS gene expression. RT-PCR showed that silymarin inhibits iNOS gene expression in a dose-dependent manner. We also showed that silymarin inhibits extracellular signal-regulated protein kinase-1 and 2 (ERK1/2) phosphorylation. A MEK1 inhibitor abrogated CM-induced nitrite production, similar to silymarin. Treatment of MIN6N8a cells with silymarin also inhibited CM-stimulated activation of NF-kappaB, which is important for iNOS transcription. Collectively, we demonstrate that silymarin inhibits NO production in pancreatic beta cells, and silymarin may represent a useful anti-diabetic agent.
Subject(s)
Blotting, Western , Gene Expression , Insulin-Secreting Cells , Milk Thistle , NF-kappa B , Nitric Oxide , Phosphorylation , Silymarin , Tumor Necrosis Factor-alphaABSTRACT
Activation of ß2 adrenergic receptors by catecholamine or catecholamine-mimetic substances may enhance insulin secretion. We herein investigated KCl- and nutrient-stimulated insulin secretion in pancreatic islets isolated from ß2 knockout (ß2KO) mice. ß2KO mice showed reduced body weight, fasting hypoglycaemia associate to a similar fasting insulinemia compared to control. ß2KO mice also showed reduced glucose tolerance despite the higher sensitivity to insulin. Glucose-induced insulin secretion was impaired in pancreatic islets isolated from ß2KO mice. Leucine-induced (20mM) insulin secretion was diminished in pancreatic islets isolated from ß 2KO mice when compared to control one. The depolarizing effect of KCl on insulin secretion was also impaired in pancreatic islets from ß2KO mice. These results suggested a possible role of ß2 adrenergic receptors on nutrient-induced insulin secretion.
A ativação dos receptores ß2-adrenérgicos por catecolaminas ou miméticos a catecolaminas podem aumentar a secreção de insulina. Nós investigamos a secreção de insulina estimulada por nutrients e KCl em ilhotas pancreáticas isoladas de camundongos com deleção dos receptores ß2-adrenérgicos (ß2KO). Camudongos ß2KO apresentaram reduzido peso corporal, hipoglicemia de jejum associada a semelhante concentração de insulina plasmática de jejum comparada ao grupo controle. Camundongos ß2KO apesar de apresentarem aumento da sensibilidade a insulina também apresentaram reduzida tolerância a glicose. A secreção de insulina induzida com glicose foi alterada em ilhotas pancreáticas isoladas de camundongos ß2KO. Secreção de insulina induzida por leucina (20mM) foi diminuída em ilhotas pancreáticas isoladas de camundongos ß2KO quando comparado ao controle. O efeito despolarizante do KCl sobre a secreção de insulina também foi alterado em ilhotas pancreáticas de camundongos ß2KO. Estes resultados sugerem um possível papel dos receptores ß2-adrenérgicos na secreção de insulina induzida por nutrientes.
Subject(s)
Mice , Glucose , Insulin-Secreting Cells , Leucine , Receptors, AdrenergicABSTRACT
The function of β-cells is closely correlated with the onset of type 2 diabetes mellitus.Currently the bariatric surgery has been considered to be the most effective therapy for ameliorating the complications and improving the prognosis of type 2 diabetes mellitus,while the mechanism remains unknown.The improvement of β-cells function following bariatric surgery might play important roles in the remission of type 2 diabetes mellitus.In this article,the relationship between the changes of related factors after bariatric surgery and the function of pancreatic β-cells is reviewed.
ABSTRACT
Here, we show that radicicol, a fungal antibiotic, resulted in marked inhibition of inducible nitric oxide synthase (iNOS) transcription by the pancreatic beta cell line MIN6N8a in response to cytokine mixture (CM: TNF-alpha, IFN-gamma, and IL-1beta). Treatment of MIN6N8a cells with radicicol inhibited CM-stimulated activation of NF-kappaB/Rel, which plays a critical role in iNOS transcription, in a dose-related manner. Nitrite production in the presence of PD98059, a specific inhibitor of the extracellular signal-regulated protein kinase-1 and 2 (ERK1/2) pathway, was dramatically diminished, suggesting that the ERK1/2 pathway is involved in CM-induced iNOS expression. In contrast, SB203580, a specific inhibitor of p38, had no effect on nitrite generation. Collectively, this series of experiments indicates that radicicol inhibits iNOS gene expression by blocking ERK1/2 signaling. Due to the critical role that NO release plays in mediating destruction of pancreatic beta cells, the inhibitory effects of radicicol on iNOS expression suggest that radicicol may represent a useful anti-diabetic activity.
Subject(s)
Flavonoids , Gene Expression , Imidazoles , Insulin-Secreting Cells , Macrolides , Negotiating , Nitric Oxide Synthase Type II , Pyridines , Tumor Necrosis Factor-alphaABSTRACT
The variety of primary or secondary pancreatic diseases or injuries in children can cause the changes of pancreatic endocrine function,leading to the structural damage of pancreatic endocrine cells and the dysfunction,which can worsen the disease progression and prognosis.The etiology of pancreatic damage is complex,little is known about the pathogenesis.But the change of pancreatic endocrine function caused by pancreatic damage has clinical significance.Based on current studies and animal experiments,this review covered the etiology and pathogenesis of pancreatic endocrine dysfunction in children with pancreatic damage,which would help promote the cognitive level and the research development in this new field and provide new ideas for the research of pancreatic damage.