Role of TRPV1 channel and P2Y1 receptor in Ca2+ signalling in β-cells : A study by single cell microfluorometry

Krishnan, Kalaiselvan

January 2011

Increase in the cytoplasmic Ca2+ concentration ([Ca2+]i) in the β-cells triggers insulin exocytosis. Among the Ca2+ channels present in the plasma membrane, the transient receptor potential (TRP) channels receptors are currently of great interest. The mechanisms by which the extracellular adenosine diphosphate ribose (ADPr) increases the [Ca2+]i is unknown. Our aims were to study the roles of the TRP channels in the tolbutamide induced [Ca2+]i increase and to identify the surface receptor that is activated by ADPr. We used S5 cells, a highly differentiated rat insulinoma cell line, as a model for β-cells. Single cell ratiometric microfluorometry was used to measure the [Ca2+]i changes in the Fura-2 loaded cells. Tolbutamide increased [Ca2+]i in the form of oscillations. After tolbutamide increased [Ca2+]i,capsazepine, a potent blocker of the transient receptor potential vanilloid subtype 1 (TRPV1) channel was added to the β-cells, which reduced the tolbutamide-induced [Ca2+]i increase. capsazepine, N-(p-Amylcinnamoyl) anthranilic acid (ACA),  TRPM2 channel blocker, and triphenyl phosphine oxide (TPPO), TRPM5 channel blocker were tested for their effect on potassium chloride (KCl) induced [Ca2+]i response. These blockers did not inhibit the KCl induced [Ca2+]i increase.   Adenosine diphosphate ribose (ADPr) increased [Ca2+]i in the form of initial transient peak followed by an elevated plateau. Application of ADPr shortly after a prior application and washout of Adenosine diphosphate (ADP) elicited only small [Ca2+]i increase  indicating desensitization of the receptor involved. 2´deoxy-N6-methyladenosine 3´5´bis-phosphate (MRS2179), and chloro N6-methyl-(N)-methanocarba 2´deoxyadenosine 3´5´ bis-phosphate (MRS2279), two selective inhibitors of P2Y1 receptor, abolished the ADPr-induced [Ca2+]i increase. Tolbutamide closes ATP sensitive potassium (KATP) channels. Our results demonstrate that besides the closure of the KATP channels, inward cation currents carried by Ca2+through the TRPV1 channel are necessary for depolarization to the threshold for the activation of the voltage gated calcium channels (VGCC) to increase the [Ca2+]i. Our results also show that ADPr increases [Ca2+]i by activating the P2Y1 receptor.

Insulin exocytosis

P2Y1

tolbutamide

ADPr

microfluorometry

Islets of langerhans

β-cells

calcium signaling

signal transduction.

Cell and Molecular Biology

Cell- och molekylärbiologi

ARHGAP21 inibe a secreção de insulina e controla a homeostase glicêmica em camundongos = ARHGAP21 inhibits insulin secretion and controls glucose homeostase in mice / ARHGAP21 inhibits insulin secretion and controls glucose homeostase in mice

Ferreira, Sandra Mara, 1982-

27 August 2018

Orientador: Antonio Carlos Boschiero / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-27T05:10:32Z (GMT). No. of bitstreams: 1 Ferreira_SandraMara_D.pdf: 2032504 bytes, checksum: da4ca0c7e913b98f9a0ec91b1a14ba82 (MD5) Previous issue date: 2015 / Resumo: A ARHGAP21 é uma proteína da família das RhoGAPs (Proteínas ativadoras de GTPases Rho) que, em diferentes tipos de células, controla múltiplas funções tais como: migração, proliferação, diferenciação e tráfego intracelular de vesículas. Em ilhotas de camundongo Swiss neonato o knockdown da ARHGAP21 aumentou a secreção de insulina estimulada por glicose (GSIS), por mecanismos ainda desconhecidos. Contudo, não se conhece os efeitos da ARHGAP21 sobre a secreção de insulina e sobre a homeostase glicêmica em camundongos adultos. Assim, o objetivo do trabalho foi avaliar: a) em ilhotas pancreáticas de camundongo Swiss neonato knockdown para ARHGAP21, a expressão de genes envolvidos com a proliferação, maturação e extrusão de grânulos de insulina, bem como o rearranjo do citoesqueleto de actina; b) em camundongos C57BL/6 adultos, o efeito do knockdown da ARHGAP21 sobre GSIS e sobre alguns genes que codificam proteínas envolvidas na função secretória (maturação e extrusão) e sobre a homeostase glicêmica. Os neonatos foram tratados (i.p.) com 1 nmol de antisense anti-ARHGAP21 (neonato AS) ou mismatch (CTL) por dois dias (redução da expressão de 60%). Os adultos foram tratados (i.p.) com 1,5 nmol/g de antisense (adulto AS) ou mismatch (adulto CTL) por 3 dias consecutivos (redução de 50%). A secreção de insulina foi avaliada na presença de concentrações crescentes de glicose (2,8 - 22,2 mM). A F-actina (polímero) foi medida através da marcação com faloidina. A expressão gênica foi avaliada por PCR em tempo real. Tolerância à glicose e ao Piruvato foi medida através de ipGTT e ipPTT, respectivamente, e a sensibilidade à insulina através do ipITT, clamp hiperinsulinêmico-euglicêmico e, AKT fosforilada. Como já descrito, ilhotas de neonatos AS apresentaram maior secreção basal de insulina (2,8 mM) bem como menor presença de F-actina. Observamos também maior expressão dos genes da VAMP2 e SNAP25. Ilhotas de adultos AS apresentaram maior secreção de insulina apenas na presença de 22,2 mM. Contudo, o aumento do [Ca2+]i, induzido por glicose, foi similar ao CTL. Observou-se também aumento da expressão dos genes da SYT VII (SYNAPTOTAGMINA VII) e CX 36 (CONEXINA 36). Adultos AS apresentaram intolerância à glicose e aumento da insulinemia durante o ipGTT, acompanhado de resistência à insulina específica no músculo, além de menor produção de glicose pelo fígado. Concluímos que a ARHGAP21 modula negativamente a secreção de insulina em neonato provavelmente através do rearranjo da actina e da redução da expressão de VAMP2 e SNAP25. Em ilhotas isoladas de camundongos adultos, a ARHGAP21 modula negativamente a expressão de genes envolvidos na sensibilidade ao cálcio e resposta secretória (SYT VII e CX 36). Apesar da melhora na secreção de insulina, os adultos AS apresentaram intolerância à glicose com discreta resistência à insulina no músculo que parece ser compensada pela menor liberação de glicose pelo fígado / Abstract: ARHGAP21 is a protein of the RhoGAPs (Rho GTPases activating proteins) family that exerts several functions such as: migration, proliferation, differentiation and intracellular traffic of vesicles, in multiple cell types. In islets from Swiss mice knockdown for ARHGAP21 the glucose-induced insulin secretion (GSIS) was significantly increased, by mechanisms not yet elucidated. Although, it is still unknown the effects of ARHGAP21 knockdown on the insulin secretion and glucose homeostasis in adult mice. Here, we evaluated: a) in islets from ARHGAP21 knockdown mice the expression of genes involved in proliferation, maturation, and extrusion of the insulin containing granules, as well as on the rearrangement of the actin cytoskeleton, and b) the effect of ARHGAP21 knockdown on GSIS and on the expression of genes that encode proteins involved with the secretory function (maturation and extrusion), as well as on the glucose homeostasis in adult C57BL/6 mice. Neonatal Swiss mice received (i.p.) 1 nmol of anti-ARHGAP21 anti-sense (neonate AS) (reduction of 60%) or mismatch (neonate CTL), subcutaneously, for two days. Adult C57BL/6 mice received (i.p.) 1.5 nmol/g of anti-ARHGAP21 anti-sense (adult AS) (50% reduction) or mismatch (adult CTL) for three consecutive days. Insulin secretion was measured in the presence of increasing concentrations of glucose (2.8 ¿ 22.2 mM). F-actin (polymer) was measured using phalloidin. Gene expression was assessed by Real Time PCR. Glucose and Piruvate tolerance were measured by ipGTT and ipPTT, respectively, and insulin sensitivity by ipITT, hyperinsulinemic-euglycemic clamp, and AKT phosphorylation. Islets from neonate AS displayed higher insulin secretion at 2.8 mM glucose, and lower expression of F-actin. Higher expression of VAMP2 and SNAP25 genes was also observed. Islets from adult AS showed higher insulin secretion at 22.2 mM glucose. However, glucose-induced increase in [Ca2+]i was not different from CTL. The expression of SYT VII and CX 36 genes was also increased. Adult AS mice displayed glucose intolerance and higher insulinemia during ipGTT, accompanied by insulin resistance specifically in skeletal muscle, and a lower hepatic glucose production. In conclusion, ARHGAP21 negatively modulates insulin secretion in neonatal mice through the rearrangement of the actin cytoskeleton and reduction of the expression of VAMP2 e SNAP25 genes. ARHGAP21 also may negatively modulate the expression of genes involved in the Ca2+ sensitivity and secretory response (SYT VII and CX 36, respectively) in adult mice. Despite the higher insulin secretion, adult AS mice showed glucose intolerance associated with a mild insulin resistance in the skeletal muscle, which may be compensated by a lower glucose production in the liver / Doutorado / Fisiologia / Doutora em Biologia Funcional e Molecular

Ilhotas pancreáticas

Arhgap21 proteína de camundongo

Insulina - Secreção

Homeostase

Glicemia

Islets of Langerhans

Arhgap21, Protein, Mouse

Insulin - Secretion

Homeostasi

Blood glucose

Initial Characterization of a Multifaceted Small Molecule and Its Efficacy for the Treatment of Type 1 Diabetes Mellitus

Koch, William J.

01 June 2021

No description available.

Biomedical Research

Medicine

Physiology

Immunology

Biochemistry

pancreas

islets of Langerhans

beta-cells

type 1 diabetes mellitus

drug discovery

Pharmacological targeting of the mitochondrial phosphatase PTPMT1.

Doughty-Shenton, D, Joseph, JD, Zhang, J, Pagliarini, DJ, Kim, Y, Lu, D, Dixon, JE, Casey, PJ

05 1900

The dual-specificity protein tyrosine phosphatases (PTPs) play integral roles in the regulation of cell signaling. There is a need for new tools to study these phosphatases, and the identification of inhibitors potentially affords not only new means for their study, but also possible therapeutics for the treatment of diseases caused by their dysregulation. However, the identification of selective inhibitors of the protein phosphatases has proven somewhat difficult. PTP localized to mitochondrion 1 (PTPMT1) is a recently discovered dual-specificity phosphatase that has been implicated in the regulation of insulin secretion. Screening of a commercially available small-molecule library yielded alexidine dihydrochloride, a dibiguanide compound, as an effective and selective inhibitor of PTPMT1 with an in vitro concentration that inhibits response by 50% of 1.08 microM. A related dibiguanide analog, chlorhexidine dihydrochloride, also significantly inhibited PTPMT1, albeit with lower potency, while a monobiguanide analog showed very weak inhibition. Treatment of isolated rat pancreatic islets with alexidine dihydrochloride resulted in a dose-dependent increase in insulin secretion, whereas treatment of a pancreatic beta-cell line with the drug affected the phosphorylation of mitochondrial proteins in a manner similar to genetic inhibition of PTPMT1. Furthermore, knockdown of PTPMT1 in rat islets rendered them insensitive to alexidine dihydrochloride treatment, providing evidence for mechanism-based activity of the inhibitor. Taken together, these studies establish alexidine dihydrochloride as an effective inhibitor of PTPMT1, both in vitro and in cells, and support the notion that PTPMT1 could serve as a pharmacological target in the treatment of type II diabetes. / Dissertation

Animals

Biguanides

Dose-Response Relationship, Drug

Dual Specificity Phosphatase 1

Immunoblotting

Insulin

Islets of Langerhans

Mitochondria

Mitochondrial Proteins

Phosphorylation

Rats

Rats, Wistar

Suplementação alimentar com óleo de peixe reduz a expressão da NADPH oxidase e aumenta a expressão da SOD1 e SOD2 em ilhotas pancreáticas de ratos. / Fish oil supplemented diet reduces NAD(P)H oxidase expression and increases SOD-1 and SOD2 expression in rat pancreatic islets.

Lucena, Camila Ferraz

21 September 2012

A secreção de insulina é estimulada pela glicose, porém os ácidos graxos (AG) podem influenciar o processo secretório. A oxidação de AG é importante para a estimulação da secreção de insulina por aumentar o ATP, porém, existem vias dependentes e independentes de ATP. Os AG <font face=\"Symbol\">w-3 interferem em processos fisiológicos e na composição e função da membrana plasmática, promovendo potente ação anti-inflamatória. Considerando a importante relação da NAD(P)H oxidase com a secreção de insulina, o estudo das alterações induzidas pela suplementação com AG <font face=\"Symbol\">w-3 sobre o conteúdo de superóxido (O2<font face=\"Symbol\">&#183;) e a expressão da NAD(P)H oxidase, é importante para a compreensão da fisiologia das células <font face=\"Symbol\">b-pancreáticas. Neste estudo, o grupo suplementado apresentou redução do conteúdo de O2<font face=\"Symbol\">&#183;, redução da expressão das subunidades da NAD(P)H oxidase e aumento na expressão da superóxido dismutase (SOD1 e 2), quando comparado ao grupo controle. Embora desconhecido o mecanismo, este dado é relevante, pois pressupõe melhor regulação do estado redox durante a secreção de insulina. / Insulin secretion is stimulated by glucose (GSIS), but fatty acid (FA) may influence the secretory process. The oxidation of FA is important for the stimulation of insulin secretion by increasing the ATP, although there are dependent and independent ATP pathways. The <font face=\"Symbol\">w-3 FA change physiological processes, and affect the composition and function of the plasma membrane, promote potent anti-inflammatory action. Considering the important relationship of NAD(P)H oxidase with insulin secretion, the study of changes induced by supplementation with <font face=\"Symbol\">w-3 FA on the superoxide (O2<font face=\"Symbol\">&#183;) content, and expression of NAD(P)H oxidase, becomes of great importance for understanding the pancreatic <font face=\"Symbol\">b cells physiology. In this study, the group supplemented with <font face=\"Symbol\">w-3 FA showed a reduction of the O2<font face=\"Symbol\">&#183; content, reduced expression of NAD(P)H oxidase subunits, and increased the expression of the enzyme superoxide dismutase (SOD 1 and 2), compared to control. Although unknown the mechanism, this data is relevant, because it represents better regulation of the redox state during GSIS .

Ácido graxo ômega 3

Fatty acids omega 3

Ilhotas de langerhans

Insulin

Insulina

Islets of langerhans

Superoxides dismutase

Superóxidos dismutase

Suplementação alimentar

Supplementary feeding

Efeito in vitro do deidroepiandrosterona (DHEA) sobre a via IRS/PI3-K/Akt e secreção de insulina em ilhotas pancreáticas de ratos. / Effect in vitro of dehydroepiandrosterone (DHEA) on IRS/PI3-K/Akt pathway and insulin secretion on rats pancreatic islets.

Camporez, João Paulo Gabriel

28 April 2008

A administração de deidroepiandrosterona (DHEA) tem resultado em efeitos anti-diabetogênicos em animais de experimentação e no homem. Assim, o objetivo desse trabalho é avaliar o efeito do DHEA in vitro na expressão protéica do IR, do IRS-1, IRS-2, PI3-K, Akt, ERK-1/2; na expressão gênica do PDX-1, do PGC-1, da insulina, do GLUT-2 e da glicocinase; e avaliar a secreção estática de insulina de ilhotas pancreáticas de ratos. O cultivo das ilhotas por 24 horas com DHEA, não induziu nenhuma alteração tanto na expressão das proteínas quanto na secreção estática de insulina estimulada por glicose. Ocorreu aumento da fosforilação de ERK-1/2 e na expressão gênica do PGC-1. As células RINm5F, cultivadas por 72 horas com DHEA, apresentaram aumento da expressão total de IRS-1 e IRS-2. Concluímos, que 24 horas de cultura com ilhotas não é tempo suficiente para observar nenhuma alteração induzida pelo DHEA, na secreção de insulina, e na expressão das proteínas da via IRS/PI3-K/Akt. Células RINm5F podem ser um modelo alternativo para investigar os efeitos diretos do DHEA. / The dehydroepiandrosterone (DHEA) administration has resulted in reduction of abdominal fat and protection against insulin resistance from experimental animals and humans. So, the purpose of this project is measure the in vitro effects from DHEA: on protein expression of insulin receptor, the proteins IRS-1, IRS-2, PI3-K, Akt, and ERK-1/2; on gene expression of transcriptional factors PDX-1 and PGC-1, insulin, glucose transport GLUT-2 and glicocinase; and to measure the static insulin secretion, on cultured pancreatic islets of the rat. The culture of pancreatic islet for 24 hours with DHEA, did not induce nothing alteration on protein expression of the IR, IRS-1, IRS-2, PI3-K, Akt-1 and ERK-1/2, and static insulin secretion induced by glucose. However, happened increase ERK-1/2 phosphorylation and PGC-1 gene expression. The RINm5F cells, cultured by 72 hours, showed increase of the IRS-1 and IRS-2 expression. We conclude that 24 hours of the pancreatic islets culture are not sufficient time to look any alteration induced by DHEA, on insulin secretion, and on protein expression involved on IRS/PI3-K/Akt pathway. RINm5F cells can be an alternative model to research the direct effects from DHEA.

Diabetes Mellitus

Diabetes Mellitus

Expressão gênica

Gene expression

Homônios sexuais

Ilhotas de Langerhans

Insulin receptor

Insulin signaling

Langerhans islets

Receptores da insulina

Sexual hormone

Sinalização da insulina

Modulação redox, função e sobrevivência de células &#946;-pancreáticas: evidência sobre o papel da enzima NADPH oxidase-2 (NOX2) em um modelo in vitro de glicotoxicidade. / Redox modulation, function and survival of pancreatic &#946;-cells: evidence on the role of NADPH oxidase-2 (NOX2) enzyme in a model of glucotoxicity in vitro.

Souza, Arnaldo Henrique de

09 May 2016

O estresse oxidativo e a enzima NADPH oxidase-2 (NOX2) estão associados com a diminuição da massa funcional de células-&#946; em pacientes com diabetes do tipo 2 (DT2). Neste estudo, testamos o papel da NOX2 sobre a glicotoxicidade em células-&#946;. Ilhotas de camundongo C57BL/6J nocautes ou não para NOX2 (NOX2-KO e WT, respectivamente) foram isoladas e cultivadas por até 3 semanas em 10 ou 30 mmol/l de glucose (G10 e G30, respectivamente). A secreção de insulina foi maior nas ilhotas NOX2-KO vs. WT sem apresentar diferenças metabólicas ou do potencial redox da glutationa citosólica (EGSH). O cultivo de ilhotas em G30 aumenta a concentração de H2O2 e a oxidação de tióis no compartimento citosólico, seguido por aumento de apoptose de células-&#946;, mas, preservando a reposta máxima secretória. Estas respostas foram quase idênticas em ambos os tipos de ilhotas. Em conclusão, a NOX2 regula negativamente a secreção de insulina em ilhotas de camundongos C57BL/6J, mas não é um componente crítico para a sobrevivência de células &#946; em um modelo in vitro de glicotoxicidade. / Oxidative stress and NADPH oxidase-2 (NOX2) enzyme are associated to the decline of the functional &#946;-cell mass in type 2 diabetes (T2D). Here, we tested the role of NOX2 on &#946;-cell glucotoxicity. NOX2 knockout (NOX2 KO) and wild type (WT) C57BL/6J mice islets were isolated and cultured up to 3 weeks at 10 or 30 mmol/l glucose concentrations (G10 and G30, respectively). The insulin secretion was higher in NOX2-KO vs. WT islets despite similar metabolic and cytosolic glutathione-redox potential (EGSH) changes. The prolonged culture at G30 increases the H2O2 concentration and cytosolic thiol oxidation, followed by increased &#946;cell apoptosis but preserving maximal secretory response. These responses were almost identical in both types of islets. In conclusion, NOX2 is a negative regulator of insulin secretion in C57BL/6J mouse islets, but is not a critical component for &#946;-cell survival in a model of glucotoxicity in vitro.

&#946;-cell

Apoptose

Apoptosis

Célula-&#946;

Ilhotas de Langerhans

Insulin

Insulin secretion

Insulina

Islets of Langerhans

NADPH oxidase

NADPH oxidase

NOX2

NOX2

roGFP

roGFP

Secreção de insulina

Perfil de expressão de genes modulados pela Pioglitazona em ilhotas pancreáticas murídeas / Gene expression profile modulated by pioglitazone in rat pancreatic islets

Lamounier, Rodrigo Nunes

28 March 2008

O receptor ativado do peroxissomo &#947; (PPAR-&#947;) é regulador do metabolismo e diferenciação do tecido adiposo, sendo um alvo conhecido das tiazolidinedionas (TZD), utilizadas para o tratamento do diabetes tipo 2 (DM2). As TZD agem como um agente sensibilizador da ação da insulina nos tecidos periféricos e tem sido especulado que as TZDs podem ter um papel na função da célula , prevenindo perda de massa e melhorando a sua viabilidade a longo prazo. Este efeito seria supostamente mediado pela transcrição de genes que favoreceriam a lipólise, diminuindo o conteúdo intracelular de triglicérides e, portanto, diminuindo a lipotoxicidade. Entretanto, alguns estudos também mostraram efeito nulo ou mesmo deletério das TZDs sobre as ilhotas pancreáticas. Na realidade, o papel de genes-alvo para o PPAR- nas ilhotas pancreáticas é ainda pouco conhecido. Estudamos o perfil de expressão gênica induzido pelo tratamento com Pioglitazona (Pio), uma TZD aprovada e disponível para uso clínico no tratamento do DM2, em ilhotas pancreáticas murídeas em cultura primária, com concentrações normal e suprafisiológica de glicose no meio de cultura. As ilhotas foram obtidas de ratos wistar machos de dois meses de idade e isoladas pelo método do gradiente de Ficoll e então cultivadas em 5,6 mM ou 23 mM de glicose por 24h, sendo tratadas com Pio 10 M ou DMSO 0,1% (veículo). A Pioglitazona foi cedida pela Takeda Farmacêutica, Osaka, Japão. O RNA foi extraído com Trizol e purificado com o kit RNeasy (Qiagen). As amostras foram marcadas e hibridizadas no microarranjo de cDNA Mouse Panchip 13k, usando-se cinco replicatas biológicas diferentes para cada condição. A análise estatística dos dados do microarranjo foi feita com o uso do programa significance analysis of microarrays (SAM) com uso de taxa de descobrimento falso (FDR) de 20%. A análise das vias acometidas foi feita com o Ingenuity Pathway Analysis (www.ingenuity.com). Os resultados de expressão gênica foram confirmados por RT-qPCR. Em concentração de 5,6 mM de glicose no meio de cultura, 101 genes foram modulados pela Pio, sendo 49 regulados para cima, com aumento de sua expressão na presença da droga e 52 genes regulados para baixo. Em 23 mM de glicose, 1.235 genes foram afetados, sendo 621 para cima e 623 para baixo. A comparação entre as duas condições revelou 74 genes que foram modulados em ambas as concentrações de glicose. A análise das vias biológicas alteradas mostrou que genes relacionados ao metabolismo de lípides foram modulados em ambas as concentrações de glicose. Em 23 mM foi ainda significativo o grupo de genes relacionados a ciclo celular e morte celular que tiveram sua expressão modificada pela presença da droga na cultura. Este dado demonstrou que além de seus efeitos conhecidos nos adipócitos, o sensibilizador de insulina Pioglitazona modula a expressão de genes nas ilhotas pancreáticas, especialmente na presença de concentrações suprafisiológicas de glicose, afetando notadamente genes relacionados ao metabolismo lipídico, sendo vários deles ligados a lipogênese, como Srebf1, Scd2 e Fabp4 cujas expressões aumentaram em ambas as concentrações de glicose. Além disso foi observado aumento na expressão de genes com atividade pró-apoptótica como Tnf, Bad, Bax, Caspase4, Fadd e Myc. A Pioglitazona parece induzir um perfil gênico desfavorável em ilhotas pancreáticas mantidas em cultura em concentrações suprafisiológicas de glicose. / Peroxisome proliferator-activator receptor-&#947; (PPAR-&#947;) is a target for thiazolidinedione (TZD) antidiabetic drugs and a regulator of adipose tissue differentiation and metabolism. TZD act as an insulin sensitizing agent on peripheral tissues. It has been speculated that TZD could play a role on beta-cell function, preventing loss and improving viability in the long-term. This effect is supposed to be mediated through a potential benefit against lipotoxicity, favouring lypolisis and decreasing intracellular tryglicerides content. Nevertheless some studies also showed a lack or even a potential deleterious effect of TZD on islets. The role of PPAR-&#947; target genes in pancreatic islets is actually still largely unclear. We studied the gene expression profile induced by the treatment with Pioglitazone (Pio), an approved TZD for T2DM therapy, on rat pancreatic islets primary culture both at normal and supraphysiological glucose medium concentrations. Islets were obtained from 2 month-old, male, wistar rats and isolated through the Ficoll gradient method and then cultured with 5.6 mM or 23 mM of glucose concentration for 24h, being treated with Pio 10 µM or DMSO 0.1% (vehicle). Pioglitazone was provided by Takeda Pharmaceuticals, Osaka, Japan. RNA was extracted with Trizol (Sigma) and purified with RNeasy kit (Qiagen). Samples were labeled and then hybridized on the Mouse PanChip 13k cDNA microarray, using 5 different biological replicates for each test condition. Statistical Analysis of the microarray data was performed using significance analysis of microarrays (SAM) with a false discovery rate of 20%. Pathways assessment was performed through Ingenuity Pathway Analysis (www.ingenuity.com). Gene expression results were confirmed through RT-qPCR. At 5.6 mM glucose 101 genes were modulated by Pio, 49 upregulated and 52 downregulated. At 23 mM, 1,235 genes were affected, 612 upregulated and 623 downregulated. Comparison between both conditions revealed 74 genes that were similarly modulated at both glucose concentrations. Pathway analysis of perturbed genes revealed biologically relevant networks related to lipid metabolism at both glucose medium concentrations. At 23 mM, cell cycle and cell death pathways were significant modulated as well. These data demonstrates that in addition to known effect in adipocytes, the insulin sensitizing agent Pioglitazone modulates gene expression in pancreatic islets, especially in the presence of supraphysiological glucose concentrations, affecting especially lipid metabolism and mechanisms of cell death and cell cycle. Considering the ontology of modulated genes it seems to be a trend towards lypogenesis (increased Srebf1, Scd2 and Fabp4 RNA expressions) with Pio treatment also enhancing the abundance of some genes considered to be pro apoptotic like Tnf, Bad, Bax, Caspase4, Fadd and Myc. Pioglitazone seems to induce a negative gene expression profile in islets cultured at high glucose concentrations.

Diabetes Mellitus

Diabetes Mellitus

Expressão gênica

Gene expression

Ilhotas pancreáticas

Islets of Langerhans

Oligonucleotide array sequence analysis

PPAR gama

PPAR gama

Tiazolidinedionas

Dieta normocalórica de ácidos graxos de cadeia média: Efeitos sobre a secreção de insulina, tecido adiposo e fígado de ratos jovens / Medium chain fat acid normocaloric diet: effects upon insulin secretion, adipose tissue and liver of young rats

Marçal, Anderson Carlos

21 September 2009

A suplementação dietética com AGCM induz resistência à insulina, redução de peso ponderal e aumento da adiposidade em ratos Wistar. Adipócitos isolados apresentam reduzidas captação de glicose estimulada por insulina e atividade/fosforilação da proteína AMPK. A expressão protéica do IR no tecido hepático está aumentada em animais tratados com AGCM com redução do grau de fosforilação, enquanto que o grau de fosforilação da proteína AKT permaneceu semelhante entre os grupos. Ilhotas pancreáticas isoladas apresentam redução na secreção de insulina quando incubadas com altas concentrações de glicose, diminuição do conteúdo total de insulina, hipersensibilidade a leucina e/ou arginina e aumento do percentual de morte celular com diminuída expressão da proteína AKT_1 . Desta forma, utilização em longo prazo dessa estratégia nutricional pode interferir no crescimento normal do indivíduo, na sensibilidade à insulina e possívelmente, desenvolvimento e instalação do diabetes. / The introduction of MCFA into diet induces insulin resistance, reduced body weight gain, and increased adiposity in Wistar rats. Isolated adipocytes have reduced insulin induced glucose uptake and phosphorylation/activation of AMPK protein. The insulin receptor protein expression is increased in liver of MCFA fed rats accompanied by reduced tyrosine phosphorylation, with similar AKT serine phosphorylation. Isolated pancreatic islets had reduced glucose stimulated insulin secretion due to high glucose exposure and reduced insulin content; higher insulin secretion induced by leucine and arginine, and increased apoptosis with reduced AKT protein level. In these regard, the chronic ingestion of MCFA may interfere with normal body growth, with the insulin sensitivity and may participate with the development of diabetes.

Adipose tissue

AGCM

Ilhotas pancreáticas

Insulin receptor

Insulin resistance

Intracellular signaling

MCFA

Pancreatic islets

Receptor para insulina

Resistência à insulina

Sinalização intracelular

Tecido adiposo

Protective mechanism(s) of anti-oxidants in pancreatic-islet β-cells against glucose toxicity and oxidative stress. / Protective mechanism(s) of anti-oxidants in pancreatic-islet beta-cells against glucose toxicity and oxidative stress

January 2011

Poon, Chui Wa Christina. / "August 2011." / Thesis (M.Phil.)--Chinese University of Hong Kong, 2011. / Includes bibliographical references (leaves 123-131). / Abstracts in English and Chinese. / ABSTRACT --- p.i / 論文摘要 --- p.vi / ACKNOWLEDGEMENTS --- p.ix / PUBLICATIONS --- p.x / Abstracts --- p.x / ABBREVIATIONS --- p.xii / Chapter 1. --- GENERAL INTRODUCTION --- p.1 / Chapter 1.1. --- Diabetes --- p.1 / Chapter 1.1.1. --- Overview --- p.1 / Chapter 1.1.2. --- Diagnostic Criteria of Type-2 Diabetes --- p.2 / Chapter 1.1.3. --- Type-2 Diabetes (T2DM) --- p.3 / Chapter 1.1.3.1. --- Impaired Insulin Synthesis and Insulin Secretory Defects in Type-2 Diabetes --- p.3 / Chapter 1.1.3.2. --- β-Cell Dysfunction --- p.5 / Chapter 1.1.3.3. --- Insulin Resistance --- p.5 / Chapter 1.1.4. --- Glucose Toxicity --- p.6 / Chapter 1.1.4.1. --- Fasting Hyperglycemia --- p.8 / Chapter 1.1.4.2. --- Postprandial Hyperglycemia --- p.8 / Chapter 1.2. --- Oxidative Stress --- p.8 / Chapter 1.2.1. --- ROS and Mitochondria --- p.8 / Chapter 1.2.2. --- ROS Production by Mitochondria --- p.9 / Chapter 1.2.3. --- The Relationship of Glucose Recognition by β-cells and Oxidative Stress --- p.11 / Chapter 1.2.4. --- Important Roles of Glutathione in Pancreatic β-cells and Glutathione Synthesis --- p.14 / Chapter 1.2.5. --- N-acetyl-L-cysteine - A Potential Drug Treatment for Type-2 Diabetes? --- p.17 / Chapter 1.3. --- Role of F-actin Cytoskeleton on Glucose-induced Insulin Secretion --- p.18 / Chapter 1.4. --- Current Clinical Treatments for Type-2 Diabetes Mellitus --- p.21 / Chapter 1.4.1. --- Metformin --- p.22 / Chapter 1.4.2. --- Sulfonylureas --- p.22 / Chapter 1.4.3. --- Thiazolidinediones --- p.23 / Chapter 1.4.4. --- Glinides (Meglitinide Analogues) --- p.23 / Chapter 1.4.5. --- α-Glucosidase (AG) Inhibitors --- p.24 / Chapter 1.4.6. --- Dipeptidyl Peptidase-4 (DPP-4) Inhibitors --- p.24 / Chapter 1.4.7. --- (Clinical) Antioxidant Treatment --- p.24 / Chapter 1.5. --- Animal Models Used in Type-2 Diabetes Research --- p.25 / Chapter 1.6. --- Aims of Study --- p.27 / Chapter 2. --- RESEARCH DESIGN & METHODS --- p.28 / Chapter 2.1. --- Materials --- p.28 / Table 1. Sources and concentrations of drugs tested in this study: --- p.28 / Culture Medium - --- p.29 / General Reagents --- p.29 / Chapter 2.2. --- Isolation of Islets of Langerhans and Single Pancreatic β-Cells --- p.31 / Chapter 2.3. --- Measurement of Mitochondrial ROS Levels --- p.32 / Chapter 2.4. --- Measurement of Islets Insulin Release and Insulin Content --- p.34 / Chapter 2.4.1. --- Preparation of Samples --- p.34 / Chapter 2.4.2. --- Enzyme-Link Immunosorbent Assay (ELISA) --- p.35 / Chapter 2.5. --- Immunocytochemistry --- p.35 / Chapter 2.6. --- Data and Statistical Analysis --- p.37 / Chapter 3. --- RESULTS --- p.38 / Chapter 3.1. --- "Effects of L-NAC, Various Oxidative Stress Inducers/Reducers and Actin Polymerisation/Depolymerisation Inducers on Releasable Insulin Levels and Insulin Contents in Response to Low Glucose (5 mM) and High Glucose (15 mM) of Isolated Pancreatic Islets of (db+/m+) and (db+/db+) Mice" --- p.38 / Chapter 3.1.1. --- Effect of L-NAC on Insulin Secretion and Insulin Contents --- p.38 / Chapter 3.1.2. --- Effect of Cytochalasin B on Insulin Secretion and Insulin Contents --- p.39 / Chapter 3.1.3. --- Effect of 4-Phenyl Butyric Acid on Insulin Secretion and Insulin Contents --- p.43 / Chapter 3.1.4. --- Effect of Ursodeoxycholic Acid on Insulin Secretion and Insulin Contents --- p.46 / Chapter 3.1.5. --- Effect of Hydrogen Peroxide on Insulin Secretion and Insulin Contents --- p.49 / Chapter 3.1.6. --- Effect of Jasplakinolide on Insulin Secretion and Insulin Contents --- p.53 / Chapter 3.1.7. --- Effect of Thapsigargin on Insulin Secretion and Insulin Contents --- p.57 / Chapter 3.1.8. --- Effect of BSO on Insulin Secretion and Insulin Contents --- p.61 / Chapter 3.2. --- "Effects of L-NAC, Various Oxidative Stress Inducers/Reducers and Actin Polymerisation/Depolymerisation Inducers on Mitochondrial ROS Levels in Response to High Glucose (15 mM) Challenge in Isolated Single Pancreatic β-Cells of (db +/m+) and (db +/db +) Mice" --- p.65 / Chapter 3.2.1. --- "Effects of L-NAC (20 mM), 4-Phenyl Butyric Acid (4-PBA) (1 mM), Ursodeoxycholic Acid (UA) (500 μg/ml), H202 (200 μM), Thapsigargin (0.5 μM) and DL-Buthionine-[S,R]-Sulfoximine (BSO) (0.1 μM) Pre-treatments on Mitochondrial ROS Level in Response to High Glucose (15 mM) Challenge" --- p.65 / Chapter 3.2.2. --- "Effects of L-NAC (20 mM), Cytochalasin B (10 μM) and Jasplakinolide (5 μM) Pre-treatments on Mitochondrial ROS Level in Response to High Glucose (15 mM) Challenge_" --- p.76 / Chapter 3.3. --- "Effects of L-NAC, Various Oxidative Stress Inducers/Reducers and Actin Polymerisation/Depolymerisation Inducers on F-actin Cytoskeleton Levels Incubated in Low Glucose (5 mM) and High Glucose (15 mM) Medium in Single Pancreatic β-Cells of Non-Diabetic (db +/m+) and Diabetic (db +/db +) Mice" --- p.81 / Chapter 4. --- DISCUSSION --- p.100 / Chapter 4.1. --- General Discussion --- p.100 / Chapter 5. --- SUMMARY --- p.120 / Chapter 6. --- FUTURE PERSPECTIVES --- p.121 / Chapter 7. --- REFERENCES --- p.123

Antioxidants--Therapeutic use

Islands of Langerhans--Physiology

Pancreatic beta cells

Oxidative stress

Antioxidants--therapeutic use

Islets of Langerhans--physiology

Oxidative Stress

Diabetes Mellitus, Type 2--complications