Estudo do papel da proteína HSP27/25 na ação da prolactina humana recombinante em células beta pancreáticas / Role of HSP27/25 in PRL-induced cytoprotective effects on beta cells.

Mansano, Rosangela Aparecida Wailemann

13 August 2013

Um dos objetivos no tratamento de Diabetes mellitus é aumentar a função, proliferação e sobrevivência de células beta pancreáticas, pois o transplante de ilhotas pancreáticas é severamente limitado pela escassez de doadores de órgãos. Nós mostramos que prolactina recombinante humana (rhPRL) apresenta efeitos benéficos em células beta, inibindo a apoptose. Recentemente reportamos o aumento dos níveis de expressão da proteína antiapoptótica HSP27/25, regulada por rhPRL em ilhotas humanas. Nosso objetivo é explorar o papel de HSP27/25 na citoproteção induzida por prolactina em células beta. Métodos: Células MIN6 parentais e silenciadas para HSP25 foram privadas de soro por 24h e cultivadas na presença ou ausência de rhPRL (300ng/mL). Posteriormente foram tratadas na presença ou ausência de uma combinação de citocinas (TNF-&#945;, INF-&#947 e IL-1&#946;) por diferentes períodos de tempo. A apoptose foi avaliada usando-se análise por citometria de fluxo. Os níveis de expressão gênica de HSP27/25 e membros da família BCL-2, da expressão proteica de membros desta mesma família, além de Caspase-9, Smac-Diablo HSP27/25, HSTF1, pP38 e pSTAT1 foram analisados por Westen blot. Ainda, foram avaliadas a atividade de Caspase-8 e -3, por ensaios fluorimétricos. Após o tratamento com rhPRL e citocinas, a proporção de núcleos fragmentados aumentou em células silenciadas para HSP25 (p<0,05), quando comparadas com células controles. A inibição da atividade de Caspase-3 e -8, tanto quanto os níveis de expressão proteica de caspase- 9, por rhPRL e o aumento da razão de expressão Bcl-2/Bax e BclxL/Bax foram revertidos em células silenciadas (p<0,05). Além disso, a cinética dos níveis de expressão de HSP27/25 e HSTF1 foram estudadas em culturas de ilhotas pancreáticas humanas, mostrando que enquanto HSTF1 apresenta um aumento significativo (p<0,01) nos níveis de expressão proteica após 10min de tratamento com rhPRL, HSP27 alcançou seu nível máximo após 2h do tratamento hormonal. Adicionalmente, foi detectado um aumento significante (p<0,05) nos níveis de fosforilação de STAT1 e de p38, após 10min, atingindo o pico de expressão após 30min (p<0,01) do tratamento com rhPRL. Estes estudos demonstram o papel chave de HSP27/25 sobre os efeitos citoprotetores induzidos por rhPRL, desde que a ausência desta proteína aboliu completamente os efeitos benéficos induzidos por PRL sobre a morte de células beta. Ainda, nós fornecemos pela primeira vez, evidências da corregulação de HSP27 e HSTF1 induzidas por rhPRL em células humanas pancreáticas, que pode estar sendo mediada pela ativação de STAT1 e p38. Coletivamente, nossos resultados podem conduzir para a atenuação da morte de células beta por meio da regulação de uma via de proteção endógena, a qual é independente da modulação do sistema imunológico. / One of the goals in Diabetes mellitus treatment is to enhance pancreatic &#946;-cell function, proliferation and survival since transplantation of pancreatic islets is severely limited by shortage of organ donors. We have shown that recombinant human prolactin (rhPRL) inhibits beta-cell apoptosis. We have recently reported PRL-induced up-regulation of the anti-apoptotic HSP25/27 in human islets. Since the function of HSP25/27 in beta-cells has not been directly studied, we set out to explore the role of HSP25/27 in prolactin-induced beta-cell cytoprotection. Methods: Parental and HSP25 knocked-down Min6 cells were serumstarved for 24h and then cultured in the presence or in the absence of rhPRL (300ng/mL) for different time periods. Apoptosis was evaluated using flow cytometry analysis. Levels of Bcl-2 gene family members, caspase-9, Bcl-2, BclxL, Bax, Smac-Diablo, HSP27/25, HSTF1, pStat- 1,pP38 were studied by western blot. Caspase-3 and -8 activity, were evaluated by fluorimetric assays. Upon cytokines and rhPRL treatment, the proportion of fragmented nuclei was increased in HSP25 silenced cells (p<0.05) when compared to control cells. The inhibition of cytokine-induced capase-3 and -8 activity as well as Bcl-2/Bax and BclxL/Bax ratios and caspase-9 protein levels mediated by rhPRL in wild type cells was reverted in knocked-down cells (p<0.05). Moreover, the kinetics of HSP 25/27 and HSTF1 expression levels studied in primary cultures of human pancreatic islets showed that while HSTF1 presented a significant increase (p<0.01) in protein expression level after 10 min of rhPRL treatment, HSP27 reached its maximum expression level upon 2h of hormonal treatment. Additionally, a significant (p<0.05) increase in both P38 and STAT1 phosphorylation levels were detected after 10min of rhPRL treatment reaching the highest levels upon 30 min (p<0.001) of hormonal treatment. Therefore, we demonstrated a key role for HSP25/27 in rhPRL-induced cytoprotective effects, since the lack of this protein completely abolished the beneficial effects induced by PRL on beta-cell death. Moreover, we provided for the first time, evidence for the co-regulation of HSP27 and HSTF1 induced by rhPRL in human pancreatic cells which could be mediated by activated STAT1 and P38. Collectively, our results could lead to the mitigation of beta-cell death through the up-regulation of an endogenous protective pathway which is independent on the modulation of the immune system.

Apoptose

Apoptosis

Beta-cell

Células beta pancreáticas

Diabetes mellitus

Diabetes mellitus

HSP27/25

HSP27/25

Prolactin

Prolactina

Mecanismos moleculares envolvidos em citoproteção e transformação maligna de células-beta pancreáticas / Molecular mechanisms involved in pancreatic beta-cells cytoprotection and malignant transformation

Terra, Letícia Ferreira

14 May 2013

O transplante de ilhotas pancreáticas constitui uma alternativa atraente para o tratamento de diabetes tipo 1 (DM1), contudo, é limitado devido à escassez de doadores de órgãos. O papel da prolactina humana recombinante (rhPRL), que apresenta efeitos benéficos em células-beta, e seu mecanismo de ação foram investigados neste estudo. O número de células apoptóticas diminui significativamente na presença de rhPRL. Essa citoproteção envolveu diminuição da razão BCL2/BAX e inibição de caspase-8, -9 e -3. Este estudo revelou, pela primeira vez, evidência direta do efeito protetor de lactogênios contra apoptose de células-beta humanas. Levando em consideração a relação conhecida entre citocinas e DM1 e observações recentes sugerindo o papel da autofagia no desenvolvimento e prevenção do DM1, foi investigada a conexão entre citocinas (IL-1&#946;, TNF&#945; e IFN-&#947;) e autofagia em células-beta. O co-tratamento com citocinas e rapamicina, um indutor de autofagia via inibição de mTOR, não aumentou os níveis de apoptose em células INS-1E. Contudo, exposição a citocinas levou ao aumento nos níveis de autofagossomos e na relação LC3-II/LC3-I, do mesmo modo que o tratamento com rapamicina. O tratamento com citocinas também levou à diminuição dos níveis de mTOR e 4E-BP1 fosforilados. Foi demonstrada aqui, pela primeira vez, uma relação direta entre o tratamento com citocinas e a indução de autofagia em células-beta. Recentemente, surgiram novas evidências mostrando ligação entre a morte de células-beta induzida por citocinas e indução de estresse de retículo endoplasmático. Em nosso modelo, foram observados níveis diminuídos de p-mTOR e aumento da formação de autofagossomos após o tratamento com indutores de estresse de retículo. Este estudo reforça também, resultados prévios sobre a hipótese da função de indutores de estresse de retículo em promover a autofagia. Além disso, o tratamento com rhPRL aumentou os níveis de p-mTOR e levou à diminuição na formação de autofagossomos após exposição a citocinas em células-beta. Estes resultados são relevantes para a caracterização mais aprofundada das funções dos lactogênios nessas células. Sabendo-se da necessidade de células-beta humanas para estudos detalhados em células-beta, nosso grupo gerou linhagens celulares derivadas de insulinomas humanos que secretam hormônios e expressam marcadores com o mesmo padrão de seu tecido original. Estas linhagens foram caracterizadas comparando-as com culturas primárias de células-beta através de eletroforese bidimensional acoplada a espectrometria de massa. Cerca de 1.800 spots foram detectados, sendo que menos de 1% apresentou expressão diferencial. As proteínas superexpressas em ilhotas, como Caldesmon, estão envolvidas em organização do citoesqueleto, influenciando a secreção hormonal. Contrariamente, quase todas as proteínas superexpressas nas células de insulinoma, como MAGE-A2, foram descritas aqui pela primeira vez, podendo estar relacionadas à sobrevivência celular e resistência à quimioterapia. Estes resultados mostram, pela primeira vez, mudanças na expressão de proteínas relacionadas ao fenótipo alterado dos insulinomas, direcionando a pesquisa ao estabelecimento de células-beta humanas bioengenheiradas e ao desenvolvimento de novas estratégias terapêuticas para insulinomas. Coletivamente, os dados obtidos neste estudo estendem o conhecimento molecular envolvido na citoproteção induzida por rhPRL e transformação maligna de células-beta pancreáticas, contribuindo para futuras aplicações na compreensão e no tratamento do DM1 / Transplantation of pancreatic islets constitutes an alternative for type 1 diabetes (DM1); however, it is limited by the shortage of organ donors. Here, we investigated the role of recombinant human prolactin (rhPRL), shown to have beneficial effects in beta-cells, and its mechanisms of action. Apoptotic beta-cells were decreased in the presence of rhPRL, with cytoprotection involving an increase of BCL2/BAX ratio and inhibition of caspase-8, -9 and -3. This study provides new direct evidence for a protective effect of lactogens in human beta-cell apoptosis. Taking into account the known relationship between cytokines and DM1 and recent observations suggesting a role for autophagy in the development and prevention of DM1, we investigated the connection between cytokines (IL-1&#946;, TNF-&#945; and IFN-&#947;) and autophagy in beta-cells. Co-treatment with cytokines and rapamycin, an inducer of autophagy through inhibition of mTOR, did not increase the apoptosis levels in INS-1E cells. However, exposure to cytokines increased the levels of autophagosome formation and LC3-II/LC3-I ratio. Treatment with cytokines also led to decreased levels of phosphorylated mTOR and 4E-BP1. We demonstrated for the first time, a direct relationship between cytokines treatment and induction of autophagy in beta-cells. Lately, new evidence point to a connection between cytokine-induced beta-cell death and endoplasmic reticulum stress. In our model, we observed that decreased levels of p-mTOR and increased autophagosome formation also ensued after treatment with endoplasmic reticulum stressors. This study also supports the previous hypothesis on the function of ER stressors in inducing autophagy. Furthermore, rhPRL treatment increased the levels of p-mTOR and decreased autophagosome formation after exposure to cytokines in beta-cells. These findings are also relevant for further characterization of lactogens functions in these cells. Considering the demand for human cells for further beta-cells studies, our group generated cell lines derived from human insulinomas which secrete hormones and express markers with the same pattern displayed by their original tissue. We set out to further characterize these lineages by comparing them to primary beta-cells using two-dimensional gel electrophoresis coupled to mass spectrometry. An average of 1,800 spots was detected with less than 1% exhibiting differential expression. Proteins upregulated in islets, such as Caldesmon, are involved in cytoskeletal organization thus influencing hormone secretion. In contrast, almost all proteins upregulated in insulinoma cells, such as MAGE-A2, first described here, could be related to cell survival and resistance to chemotherapy. Our results provide, for the first time, a molecular snapshot of the changes in expression of proteins correlated with the altered phenotype of insulinomas, prompting research towards the establishment of bioengineered human beta-cells, and the development of new therapeutic strategies for insulinomas. Collectively, the data obtained in this study extend the molecular knowledge involved in rhPRL-induced cytoprotection and malignant transformation of pancreatic beta-cells, contributing to future applications for understanding and treatment of DM1

Apoptose

Apoptosis

Autofagia

Autophagy

Beta-cell

Células-beta pancreáticas

Diabetes mellitus

Diabetes mellitus

Insulinoma

Insulinoma

Prolactin

Prolactina

Adaptações transgeracionais do pâncreas endócrino em camundongos provenientes de restrição proteica materna In Utero / Transgenerational endocrine pancreatic adaptation in mice from maternal protein restriction in utero.

Eliete Dalla Corte Frantz

16 February 2011

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / A exposição materna durante o período gestacional a uma dieta restrita em proteínas (LP) prejudica o desenvolvimento do pâncreas endócrino em sua prole e aumenta a susceptibilidade à hipertensão, diabetes e obesidade na vida adulta. Há evidências de que esse fenômeno pode persistir em gerações subsequentes. Objetivou-se avaliar o efeito da restrição proteica sobre o metabolismo da glicose e morfometria pancreática na prole F3 de camundongos ao nascimento e ao desmame. Para tanto, fêmeas virgens de camundongos Suíços (F0) foram acasaladas e receberam dieta normo-proteica (19% de proteína - NP) ou uma dieta isocalórica restrita em proteínas (5% de proteína - LP) durante toda a gravidez. Durante a lactação e o restante do experimento, todos os grupos receberam a dieta NP. Os filhotes machos foram nomeados F1 (NP1 e LP1). As fêmeas F1 e F2 foram acasaladas para produzir F2 e F3 (NP2, LP2, NP3 e LP3), respectivamente. Semanalmente, os filhotes foram pesados e calculada a taxa de crescimento alométrico (log [massa corporal] = log a + log b [idade]). Os animais foram sacrificados nos dias 1 e 21 de idade, a glicemia foi determinada e o pâncreas retirado, pesado e analisado por estereologia e imunofluorescência; a insulina foi mensurada aos 21 dias. Como resultados, os filhotes restritos na primeira geração (LP1) foram menores ao nascer, mas apresentaram um crescimento acelerado nos primeiros sete dias de vida, mostrando catch-up com os controles; a prole LP2 demonstrou a maior massa corporal ao nascimento e tiveram uma taxa de crescimento mais lenta durante a lactação; não houve diferença na massa corporal e na taxa de crescimento na geração F3. A massa de pâncreas foi diminuída em LP1-LP3 ao nascimento, contudo foi aumentada em LP2 ao desmame. A densidade de volume e o diâmetro das ilhotas foram menores em todos os grupos restritos no dia 1 e 21, somente LP1 teve o menor número de ilhotas. Ao nascer, a massa de células beta foi menor em LP1-LP3 e permaneceu baixa durante a lactação. No dia 1 e 21, os filhotes foram normoglicêmicos, entretanto foram hipoinsulinêmicos ao desmame. Portanto, a restrição de proteínas em camundongos durante a gestação produz alterações morfológicas nas ilhotas pancreáticas, sugerindo que a homeostase da glicose foi mantida por um aumento da sensibilidade à insulina durante os primeiros estágios de vida na prole ao longo de três gerações consecutivas. / Exposure of pregnant mice to a low-protein (LP) diet impairs endocrine pancreas development in their offspring and increases susceptibility to hypertension, diabetes and obesity in adulthood. There is evidence that this phenomenon may persist in subsequent generations. We sought to evaluate the effect of protein restriction on glucose metabolism and pancreatic morphometry in the F3 offspring of mice at birth and weaning. Virgin female Swiss mice (F0) were mated and received normal protein diet (19% protein - NP) or an isocaloric low protein diet (5% protein - LP) throughout pregnancy. Lactation and the rest of the experimental groups received NP diet. The male pups were named F1 (NP1 and LP1). F1 and F2 females were mated to produce F2 and F3 (NP2, LP2, NP3 and LP3). Weekly, pups were weighted and calculated the growth rate by allometry (log [body mass] = log a + b log [age]). The mice were sacrificed on days 1 and 21 of age, blood glucose was measured and the pancreas removed, weighed and analyzed by stereology and immunofluorescence, insulin was measured at 21 days. LP pups in the first generation (LP1) were smaller at birth, but had an accelerated growth and within 7 days catch-up growth with controls; LP2 offspring had higher body mass at birth and had a slower growth rate within 21 days; but there was no difference in body mass and growth rate in the F3 generation. The pancreatic mass decreased in LP1 through LP3 at birth but increased in LP2 at weaning. The islet volume density and diameter were smaller in all restricted groups at day 1 and 21, and LP1 had the lowest islet number; at birth, beta cell mass was smaller in LP1 through LP3 and remained low throughout suckling. At day 1 and 21, pups were normoglycemic, but were hypoinsulinemic at weaning. Thus, protein restriction in mice during pregnancy produces morphologic changes in pancreatic islets, suggesting that glucose homeostasis is maintained by an increased sensitivity to insulin during the early stages of life in offspring over three consecutive generations.

Programação transgeracional

Restrição proteica materna

Célula beta

Metabolismo da glicose

Camundongos

Transgenerational programming

Protein restriction

Beta cell

Glucose metabolism

Mice

MORFOLOGIA

Population pharmacokinetic/pharmacodynamic modeling of insulin kinetics

Xie, Lanyi

01 December 2011

The development of type 2 diabetes over time involves defects in insulin action and insulin secretion. Defects in insulin action alone can be compensated with appropriate hyperinsulinemia. However, the progressive loss of pancreatic beta-cell function leads eventually to the development of persistent hyperglycemia that characterizes type 2 diabetes. Insulin secretion patterns reflect two phases when beta-cells are exposed to acute and sustained glucose stimulation. Through the study and understanding of the roles of these two phases in the regulation of glucose homeostasis, it is clear that insulin must not only be secreted in sufficient amounts, but also at the right time. In type 2 diabetes, the timing and magnitude of insulin secretion are altered, and an abnormal first-phase release initiates before the onset of the disease. Only a few pharmacokinetic/pharmacodynamic (PK/PD) models have considered the biphasic nature of insulin secretion. This study is aimed at describing the biphasic dynamics of insulin secretion through developing a PK/PD model based on current knowledge of the cellular mechanism of biphasic insulin secretion. The objectives of this work are to 1) evaluate the insulin-glucose kinetics using nonparametric analysis, 2) develop a physiologically based mechanistic PK/PD model to dynamically describe the biphasic insulin secretion, 3) evaluate the impact of ethnicity on insulin secretion kinetics following an intravenous glucose administration using population analysis and 4) extend the proposed model to oral glucose administration and utilize the co-secretion kinetics of insulin and C-peptide in a population PK/PD analysis of the prehepatic insulin secretion. Population analysis was done using a nonlinear mixed-effects model combined with the proposed PK/PD model to estimate population parameters and their variations between- and within-subjects and the covariates' effects on model parameters. The proposed model describes biphasic insulin behavior, accounts for first-phase insulin secretion, and also applies to oral glucose administration for estimating prehepatic insulin secretion in vivo and in liver extraction. This is done by an analysis that simultaneously uses plasma insulin and C-peptide concentrations. A significant higher first-phase insulin secretion was identified in healthy youths of African-American compared to Caucasians. The analysis showed no significant differences in the clearance of insulin from the plasma and the liver extraction of insulin between subjects with various levels of glucose tolerance. Obesity leads to a higher insulin production rate and lower elimination rate from the plasma than normal weight subjects. Also, type 2 diabetes and impaired glucose tolerance were found to reduce insulin production rate and resulted in a delayed insulin secretion from the beta-cells.

Beta-cell

First-phase insulin

Glucose tolerance

Insulin modeling

Insulin secretion

Population PK/PD

Pharmacy and Pharmaceutical Sciences

Autoantibodies as markers of beta-cell autoimmunity in children

Holmberg, Hanna

January 2006

Type 1 diabetes (T1D) is a chronic disease caused by destruction of the insulin producing beta-cells in the pancreas. The incidence of T1D has increased rapidly, especially in the Western world and among young children. The pathogenesis of T1D is not fully understood, but the beta-cells are believed to be destroyed by an autoimmune process initiated years before the onset of T1D. During this pre-clinical period, autoantibodies to insulin (IAA), glutamic acid decarboxylase (GADA) and the tyrosine phosphatase-like protein IA-2 (IA-2A) can be detected and are used to identify individuals at risk of T1D. The major genetic determinant for T1D is the HLA class II genes, but also polymorphism in the insulin gene and CTLA-4 gene are associated with T1D. The risk genes cannot explain the rapid increase in incidence of T1D, therefore a role for different environmental factors has been suggested. The aim was to study the prevalence of beta-cell autoantibodies in children from the general population in relation to known genetic and environmental risk factors, and in young patients with T1D in high and low incidence areas. Short duration of breast-feeding was associated with an increased risk of developing beta-cell autoantibodies in children from the general population at 5-6 years of age. We found an association between positivity for GADA and/or IAA at the age of 5-6 years and a short duration of total breastfeeding, and also between positivity for GADA, IA-2A and/or IAA and a short duration of exclusive breast-feeding. Our findings suggest that breast-feeding has a long term protective effect on the risk of beta-cell autoimmunity in children from the general population. The T1D related risk genes were not associated with beta-cell autoantibodies other than GADA in children from the general population at 5-6 years of age. Children with the DR4-DQ8 haplotype were more often positive for GADA than children without this haplotype. We found no association of GADA with DR3-DQ2 haplotype or between these two haplotypes and any of the other autoantibodies. Our results suggest that beta-cell autoimmunity in children from the general population is not strongly associated with any risk genes of T1D other than DR4-DQ8. In the non-diabetic children with allergic heredity GADA was detectable in almost all children, IA-2A in about half and IAA in 10% of the children. The levels low of these autoantibodies fluctuated with age and different patterns of fluctuations were seen for GADA and IA-2A, which may reflect differences in the immune response to the autoantigens. In patients with newly diagnosed T1D, we found some differences between patients from a high incidence country (Sweden) and a country with a lower incidence (Lithuania). Among the Swedish patients, the prevalence of IAA and GADA or multiple autoantibodies was higher than in Lithuanian patients. The risk genes DR4-DQ8 and the heterozygous high risk combination DR4-DQ8/DR3-DQ2 was more common among the Swedish patients than Lithuanian patients. Patients with low levels of IAA had higher levels of HbA1c and ketones, indicating that patients without IAA or with low levels of IAA have a more severe onset of T1D. Our findings indicate that beta-cell autoimmunity is more pronounced in a high incidence area compared to an area with a lower incidence. In conclusion, short duration of breast-feeding is a risk factor for beta-cell autoantibodies in children from the general population, and the beta-cell autoantibodies in these children are not associated with specific risk genes. Children with newly diagnosed T1D in a high incidence area carry risk genes and have autoantibodies more often than newly diagnosed children from an area with a lower incidence, perhaps indicating different disease phenotypes.

Type 1 diabetes

Autoantibodies

Beta-cell autoimmunity

Children

Breast-feeding

HLA haplotypes

Insulin gene

Paediatric medicine

Pediatrisk medicin

Oscillatory Signaling and Insulin Secretion from Single ß-cells

Idevall Hagren, Olof

January 2010

cAMP and Ca2+ are key regulators of exocytosis in many cells, including insulin-secreting pancreatic β-cells. Glucose-stimulated insulin secretion from β-cells is pulsatile and driven by oscillations of the cytoplasmic Ca2+ concentration ([Ca2+]i), but little is known about the kinetics of cAMP signaling and the mechanisms of cAMP action. Evanescent wave microscopy and fluorescent translocation biosensors were used to monitor plasma membrane-related signaling events in single MIN6-cells and primary mouse β-cells. Glucose stimulation of insulin secretion resulted in pronounced oscillations of the membrane phospholipid PIP3 caused by autocrine activation of insulin receptors. Glucose also triggered oscillations of the sub-plasma membrane cAMP concentration ([cAMP]pm). These oscillations were preceded and enhanced by elevations of [Ca2+]i, but conditions raising cytoplasmic ATP triggered [cAMP]pm elevations without accompanying changes in [Ca2+]i. The [cAMP]pm oscillations were also synchronized with PIP3 oscillations and both signals were suppressed after inhibition of adenylyl cyclases. Protein kinase A (PKA) was important for promoting concomitant initial elevations of [cAMP]pm and [Ca2+]i, and PKA inhibitors diminished the PIP3 response when applied before glucose stimulation, but did not affect already manifested PIP3 oscillations. The glucose-induced PIP3 oscillations were markedly suppressed in cells treated with siRNA against the cAMP-dependent guanine nucleotide exchange factor Epac2. Pharmacological activation of Epac restored PIP3 responses after adenylyl cyclase or PKA inhibition. Glucose and other cAMP-elevating stimuli induced redistribution of fluorescence-tagged Epac2 from the cytoplasm to the plasma membrane. This translocation was modulated by [Ca2+]i and depended on intact cyclic nucleotide-binding and Ras-association domains. In conclusion, glucose generates cAMP oscillations in β-cells via a concerted action of Ca2+ and metabolically generated ATP. The oscillations are important for the magnitude and kinetics of insulin secretion. While both protein kinase A and Epac is required for initiation of insulin secretion the cAMP-dependence of established pulsatility is mediated by Epac2.

cAMP

Ca2+

oscillations

beta-cell

insulin secretion

evanescent wave microscopy

PIP3

PKA

Epac

Medical cell biology

Medicinsk cellbiologi

Improving the bioartificial pancreas: Investigation of the effects of pro-survival and insulinotropic factor delivery and the development of PEGylated alginate microcapsules to support the function and survival of encapsulated islets and beta cells

Duncanson, Stephanie

21 September 2015

The development of a bioartificial pancreas (BAP) has the potential to substantially improve the treatment of insulin-dependent diabetes. Composed of insulin-secreting cells encapsulated in a hydrogel material, a BAP may provide superior glycemic regulation compared with conventional exogenous insulin-delivery therapies. Towards this goal, β- cells or islets encapsulated in alginate microcapsules remain a promising approach. Due to the limited supply of human islets, alternative cell sources are under investigation for incorporation into a BAP, including porcine islets and β- cell lines. Several challenges remain to clinical implementation, including loss of islet or β- cell function and viability following transplantation and host response to the transplanted microcapsules. The objective of this work was to evaluate strategies to improve a BAP by supporting the function and survival of encapsulated islets and β -cells. Towards this goal, two areas were explored: 1) the provision of pro-survival and insulinotropic factors, namely, CXCL12 and GLP-1 (or a GLP-1 analog, Exendin-4), to encapsulated islets and β-cells and 2) modification of the alginate microcapsule to confer long-term resistance to host cell adhesion. To achieve the first objective, methods to deliver both pro-survival and insulinotropic factors to a BAP were developed and their effects on encapsulated β-cells and porcine islets were studied, both in vitro and in vivo. Results demonstrate that delivery of pro-survival and insulinotropic factors is a promising strategy to prolong the survival and function of a BAP. To reduce host cell adhesion to the microcapsule, we employed covalent conjugation of PEG to the surface of alginate-PLL capsules to replace the un-crosslinked layer of alginate used in traditional alginate-PLL-alginate (APA) microcapsules. Results demonstrate that while PEGylation of alginate-PLL microcapsules initially reduced host cell adhesion over 2 weeks in vivo compared with APA capsules, the PEG coating did not provide long-term protection over 3 months. Taken together, these studies represent a multipronged approach towards improving the duration of BAP function, with the ultimate goal of advancing this technology to the clinic.

Bioartificial pancreas

Diabetes

Alginate microcapsule

Islet

Beta-cell

CXCL12

SDF-1

GLP-1

PEG

Hypoxia

Exendin-4

Oleate rescues INS-1E β-cells from palmitate-induced apoptosis by preventing activation of the unfolded protein response / -Oleat schützt INS-1E β-Zellen vor Palmitat-induzierter Apoptose durch eine Blockierung der unfolded protein response-

Sommerweiß, Dietlind

29 July 2015

In this project I sought to analyse the effects of different free fatty acids (FFAs) on INS-1E β-cells. The saturated fatty acid palmitate is considered toxic whereas the monounsaturated fatty acid oleate is harmless. In my working hypothesis I assumed an additional protective effect of oleate when used in combination with palmitate. Furthermore I aimed to explore in detail the possible causes and signalling pathways responsible for apoptosis or sustained cell survival. I examined the Endoplasmic Reticulum (ER) stress response, called unfolded protein response (UPR), as one essential criterion deciding about cell death or life. Analysis of viability and apoptosis confirmed the deleterious effect of palmitate on INS-1E β-cells after 24h of incubation. Oleate proved not to be harmful and even reversed the toxicity of palmitate. When the main components of the UPR were assessed using Western blot analyses and quantitative PCR was performed I found positive proof that palmitate activated the UPR and ultimately led to apoptosis. By contrast, oleate completely prevented UPR signalling. I conclude that oleate rescues INS-1E β-cells by inhibiting ER stress and its signalling.

ddc:610

Small-Molecule Modulators of Pancreatic Ductal Cells: Histone Methyltransferases and \(\beta\)-Cell Transdifferentiation

Yuan, Yuan

January 2012

Small molecules are important not only for treating human diseases but also for studying disease-related biological processes. This dissertation focuses on the effects of small molecules on pancreatic ductal adenocarcinoma cells. Here, I describe the discovery of two small-molecule tool compounds and their applications for interrogating the biological processes related to two distinct diseases in the human pancreas. First, BRD4770 was identified as a histone methyltransferase inhibitor through a target-based biochemical approach, and was used as a probe to study the function of methyltransferases in cancer cells. Second, BRD7552 was discovered as an inducer of Pdx1 using a cell-based phenotypic screening approach, and was used to induce the expression of Pdx1, a master regulatory transcription factor required for \(\beta\)-cell transdifferentiation. This compound is particularly interesting for the study of type-1 diabetes (T1D). The histone methyltransferase G9a catalyzes methylation of lysine 9 on histone H3, a modification linked to aberrant silencing of tumor-suppressor genes. The second chapter describes the collaborative effort leading to the identification of BRD4770 as a probe to study the function of G9a in human pancreatic cancer cells. BRD4770 induces cellular senescence and inhibits both anchorage-dependent and -independent proliferation in PANC-1 cell line, presumably mediated through ATM-pathway activation. Chapter three describes the study of a natural product gossypol, which significantly enhances the BRD4770 cytotoxicity in p53-mutant cells through autophagic cell death. The up-regulation of BNIP3 might be responsible for the synergistic cell death, suggesting that G9a inhibition may help overcome drug resistance in certain cancer cells. Ectopic overexpression of Pdx1, Ngn3, and MafA can reprogram pancreatic exocrine cells to insulin-producing cells in mice, which sheds light on a new avenue for treating T1D. The fourth chapter focuses on a gene expression-based assay using quantitative real-time PCR technique to screen >60,000 compounds for induction of one or more of these three transcription factors. A novel compound BRD7552 which up-regulated Pdx1 mRNA and protein levels in PANC-1 cells was identified. BRD7552 induces changes of the epigenetic markers within the Pdx1 promoter region consistent with transcriptional activation. Furthermore, BRD7552 partially complements Pdx1 in cell culture, enhancing the expression of insulin induced by the introduction of the three genes in PANC-1 cells. In summary, the central theme of my dissertation is to identify novel bioactive small molecules using different screening approaches, as well as to explore their effects in pancreatic ductal cells. / Chemistry and Chemical Biology

Biochemistry

Chemistry

beta-cell transdifferentiation

high-throughtput screening

histone methyltransferase

pancreatic ductal cells

Pdx1

small-molecule probe

Optical projection tomography based 3D-spatial and quantitative assessments of the diabetic pancreas

Alanentalo, Tomas

January 2008

The gastrointestinal tract comprises a number of digestive organs including the stomach and pancreas. The stomach is involved in the digestion and short term storage of food while the pancreas is a mixed endocrine and exocrine gland which provides the body with hormones and enzymes essential for nutritional utilisation. The pancreas consists of three different cell lineages, acinar, ductal and endocrine cells. The endocrine cells, organised in the islets of Langerhans, are scattered throughout the exocrine parenchyma and regulate blood glucose levels by production of hormones such as glucagon and insulin. The Nkx family of homeodomain proteins controls numerous processes during development. Previous studies have identified two members belonging to the Nkx6 subfamily of Nkx proteins, Nkx6.1 and Nkx6.2. We have described the cloning and embryonic expression pattern of Nkx6.3. All three members of the Nkx6 gene family were shown to be expressed in partially overlapping domains during the development of the gastrointestinal tract and the central nervous system. Nkx6.2 was also identified as a transient marker for pancreatic exocrine cells. Analysing gene expression patterns and morphological features in tissues and organs is often performed by stereologic sampling which is a labour-intensive two dimensional approach that rely on certain assumptions when calculating e.g. β-cell mass and islet number in the pancreas. By combined improvements in immunohistochemical protocols, computational processing and tomographic scanning, we have developed a methodology based on optical projection tomography (OPT) allowing for 3D visualisation and quantification of specifically labelled objects within intact adult mouse organs. In the pancreas, this technique allows for spatial and quantitative measurements of total islet number and β-cell mass. We have further developed a protocol allowing for high resolution regional analyses based on global OPT assessments of the pancreatic constitution. This methodology is likely to facilitate detailed cellular and molecular analysis of user defined regions of interest in the pancreas, at the same time providing information on the overall disease state of the gland. Type 1 diabetes mellitus (T1D) can occur at any age and is characterized by the marked inability of the pancreas to secrete insulin due to an autoimmune destruction of the insulin producing β-cells. Information on the key cellular and molecular events underlying the recruitment of lymphocytes, their infiltration of the islets of Langerhans and consequent β-cell destruction is essential for understanding the pathogenesis of T1D. Using the developed methodology we have recorded the spatial and quantitative distribution of islet β-cells and infiltrating lymphocytes in the non obese diabetic (NOD) mouse model for T1D. This study shows that the smaller islets, which are predominantly organised in the periphery of the organ, are the first to disappear during the progression of T1D. The larger islets appear more resistant and our data suggest that a compensatory proliferative process is going on side by side with the autoimmune-induced β-cell destruction. Further, the formation of structures resembling tertiary lymphoid organs (TLOs) in areas apparently unaffected by insulitis suggests that local factors may provide cues for the homing of these lymphocytes back to the pancreas.

Nkx

development

optical projection tomography

3D visualisation

pancreas

beta-cell mass

insulitis

diabetes

Cell and molecular biology

Cell- och molekylärbiologi