A Microfluidic System for Mouse Embryonic Stem Cell Culture and Microenvironment Control

Moledina, Faisal

23 August 2011

The embryonic stem cell (ESC) microenvironment contains various localized physical and biochemical cues to direct cell fate. Current approaches for microenvironmental regulation rely on restricting cell behaviour to control endogenous signals such as secreted ligands. This report presents a microfluidic device that can directly manipulate the removal of autoregulatory ligands from culture and control the activation of Signal Transducer and Activator of Transcription-3 (Stat3) in ESCs. Specifically, the response of Stat3 was measured under diffusive and convective mass transfer regimes. A Brownian dynamics algorithm was also developed to simulate ligand transport and predict cellular response under these conditions. Stat3 activation under perfusion culture was found to depend on flow rate and axial distance in the flow direction. Long-term perfusion also allowed for the formation of a sustained gradient of Stat3 activation that led to selective loss of ESC pluripotency. These results demonstrate the utility of microfluidic culture for stem cell bioengineering applications.

stem cells

mathematical modelling

microfluidics

mESC self-renewal

autocrine signalling

0541

A Microfluidic System for Mouse Embryonic Stem Cell Culture and Microenvironment Control

Moledina, Faisal

23 August 2011

The embryonic stem cell (ESC) microenvironment contains various localized physical and biochemical cues to direct cell fate. Current approaches for microenvironmental regulation rely on restricting cell behaviour to control endogenous signals such as secreted ligands. This report presents a microfluidic device that can directly manipulate the removal of autoregulatory ligands from culture and control the activation of Signal Transducer and Activator of Transcription-3 (Stat3) in ESCs. Specifically, the response of Stat3 was measured under diffusive and convective mass transfer regimes. A Brownian dynamics algorithm was also developed to simulate ligand transport and predict cellular response under these conditions. Stat3 activation under perfusion culture was found to depend on flow rate and axial distance in the flow direction. Long-term perfusion also allowed for the formation of a sustained gradient of Stat3 activation that led to selective loss of ESC pluripotency. These results demonstrate the utility of microfluidic culture for stem cell bioengineering applications.

stem cells

mathematical modelling

microfluidics

mESC self-renewal

autocrine signalling

0541

Ácidos graxos de cadeia média como ligantes da proteína PPAR / Medium chain fatty acids like PPAR ligand

Liberato, Marcelo Vizoná

06 February 2009

Receptores ativados da proliferação de peroxissomos (PPAR) são receptores nucleares que regulam o metabolismo de gordura e glicose, adipogênese e polarização de macrófagos, e são os mediadores da ação de uma grande classe de fármacos usada no tratamento de diabetes tipo 2, as tiazolidinadionas (TZD). Enquanto as TZDs reduzem a glicose do sangue e aumentam efetivamente a sensibilidade à insulina, elas podem também apresentar efeitos colaterais como aumento do risco de complicações cardiovasculares, ganho de peso, retenção de fluido e toxicidade hepática. Por causa disso, novos fármacos que possuem respostas mais favoráveis devem ser desenvolvidos, e o mecanismo de ativação do PPAR por ligantes vem sendo intensamente examinado. Para entender a relação entre a ligação de agonistas ao PPAR e a ativação transcricional, pretendíamos primeiramente obter cristais de PPAR-LBD (domínio de ligação ao ligante) humano na forma apo. Porém, surpreendentemente, a análise do sítio de ligação ao ligante revelou a presença de três pequenas moléculas, identificadas como ácidos nonanoicos e octanoicos. Este trabalho reporta a análise da estrutura cristalográfica do PPAR LBD complexado simultaneamente com três ácidos graxos de cadeia média (AGCM), provindos de bactérias (organismo de expressão), localizados no sítio de ligação ao ligante. A análise estrutural e funcional sugere que os AGCM são agonistas parciais que estabilizam a conformação do LBD do PPAR por mecanismo independente da hélice 12. / PPARs (peroxisome proliferator activated receptors) are nuclear receptors that regulate glucose and fat metabolism, adipogenesis and macrophage polarization and mediate actions of a major class of drugs that are used to treat type 2 diabetes, the thiazolidinediones. While TZDs reduce blood glucose and improve insulin sensitivity effectively, they can also exhibit deleterious side effects such as increased cardiovascular risk, weight gain, fluid retention and liver toxicity. Because it is desirable to develop new PPAR drugs with more favorable spectrums of response, mechanisms of PPAR ligand activation have come under intense scrutiny. To understand relationships between PPAR ligand binding and transcriptional activation, we sought to obtain apo human PPAR-LBD (ligand binding domain) crystals that diffract to high resolution. More surprisingly, close analysis of the ligand binding pocket revealed the presence of three small molecules, identified as nonanoic acid and octanoic acid. Here, we report the X-ray structural analysis of the PPAR LBD complexed with three bacterial (expression organism) medium chain fatty acids (MCFAs) that simultaneously occupy the buried ligand binding pocket (LBP). Structural and functional analysis suggests that MCFAs are partial agonists that stabilize PPAR LBD conformation, through a helix 12 independent mechanism.

Ácidos graxos de cadeia média como ligantes da proteína PPAR / Medium chain fatty acids like PPAR ligand

Marcelo Vizoná Liberato

06 February 2009

Receptores ativados da proliferação de peroxissomos (PPAR) são receptores nucleares que regulam o metabolismo de gordura e glicose, adipogênese e polarização de macrófagos, e são os mediadores da ação de uma grande classe de fármacos usada no tratamento de diabetes tipo 2, as tiazolidinadionas (TZD). Enquanto as TZDs reduzem a glicose do sangue e aumentam efetivamente a sensibilidade à insulina, elas podem também apresentar efeitos colaterais como aumento do risco de complicações cardiovasculares, ganho de peso, retenção de fluido e toxicidade hepática. Por causa disso, novos fármacos que possuem respostas mais favoráveis devem ser desenvolvidos, e o mecanismo de ativação do PPAR por ligantes vem sendo intensamente examinado. Para entender a relação entre a ligação de agonistas ao PPAR e a ativação transcricional, pretendíamos primeiramente obter cristais de PPAR-LBD (domínio de ligação ao ligante) humano na forma apo. Porém, surpreendentemente, a análise do sítio de ligação ao ligante revelou a presença de três pequenas moléculas, identificadas como ácidos nonanoicos e octanoicos. Este trabalho reporta a análise da estrutura cristalográfica do PPAR LBD complexado simultaneamente com três ácidos graxos de cadeia média (AGCM), provindos de bactérias (organismo de expressão), localizados no sítio de ligação ao ligante. A análise estrutural e funcional sugere que os AGCM são agonistas parciais que estabilizam a conformação do LBD do PPAR por mecanismo independente da hélice 12. / PPARs (peroxisome proliferator activated receptors) are nuclear receptors that regulate glucose and fat metabolism, adipogenesis and macrophage polarization and mediate actions of a major class of drugs that are used to treat type 2 diabetes, the thiazolidinediones. While TZDs reduce blood glucose and improve insulin sensitivity effectively, they can also exhibit deleterious side effects such as increased cardiovascular risk, weight gain, fluid retention and liver toxicity. Because it is desirable to develop new PPAR drugs with more favorable spectrums of response, mechanisms of PPAR ligand activation have come under intense scrutiny. To understand relationships between PPAR ligand binding and transcriptional activation, we sought to obtain apo human PPAR-LBD (ligand binding domain) crystals that diffract to high resolution. More surprisingly, close analysis of the ligand binding pocket revealed the presence of three small molecules, identified as nonanoic acid and octanoic acid. Here, we report the X-ray structural analysis of the PPAR LBD complexed with three bacterial (expression organism) medium chain fatty acids (MCFAs) that simultaneously occupy the buried ligand binding pocket (LBP). Structural and functional analysis suggests that MCFAs are partial agonists that stabilize PPAR LBD conformation, through a helix 12 independent mechanism.

Gezielte Modifikation sowie Analyse der Bindungseigenschaften des Histidin Bindeproteins aus Escherichia coli und des GCN4 Leucinzippers aus Saccharomyces cerevisiae / Modification and analysis of the binding properties of the histidine-binding protein from Escherichia coli and the GCN4-Leucine zipper from Saccharomyces cerevisiae

Wittmann, Julia

31 October 2002

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

Rezeptor-Liganden-Wechselwirkung

Protein-Protein-Wechselwirkun

direkte Mutagenese

Proteinstabilität

Receptor-ligand interaction

protein-protein interaction

direct mutagenesis

protein stbility

42.13

42.20

42.30

WJ 000: Genetik {Biologie}