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In 1902, Ralph Larrabee provided intriguing evidence suggesting parallels between the changes in white blood cell counts observed in Boston Marathon runners and those seen in specific disease states. Notably he also noted a considerable leukocytosis of the inflammatory type, suggesting a potential link between extreme exercise and inflammatory responses. This early observation laid the groundwork for further investigations into the complex relationship between exercise intensity, immune system activation, and health outcomes, igniting an ongoing debate about the impact of exercise on the immune system.

Today we know exercise shows quantifiable and observable benefits to human health across multiple scales, but the specific genetic and biological processes and pathways underlying these benefits remain unclear. This is primarily caused by individuals exhibiting significant physiological variations in their response to exercise training, coupled with the diverse methods, subjects and timelines used in studying this phenomenon, which impacts the potential for clear and reproducible analysis. A deeper grasp of the metabolic and cellular impacts of exercise could lead to more targeted exercise approaches. Additionally, unraveling the molecular shifts induced by various exercise methods may hasten the identification of pharmaceutical targets for improving metabolic well-being. To combat the global pandemic of physical inactivity and its associated toll of 5.3 million deaths annually, we must gain a better understanding of the fundamental principles governing physical activity’s benefits.

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Current Issue

An INSULIN and IAPP dual reporter enables tracking of functional maturation of stem cell-derived insulin producing cells

Carmen L. Bayly, Xiao-Qing Dai, Cuilan Nian, Paul C. Orban, ... Francis C. Lynn

An INSULIN and IAPP dual reporter enables tracking of functional maturation of stem cell-derived insulin producing cells

 

Objective

Human embryonic stem cell (hESC; SC)-derived pancreatic β cells can be used to study diabetes pathologies and develop cell replacement therapies. Although current differentiation protocols yield SCβ cells with varying degrees of maturation, these cells still differ from deceased donor human β cells in several respects. We sought to develop a reporter cell line that could be used to dynamically track SCβ cell functional maturation.

Methods

To monitor SCβ cell maturation in vitro, we created an IAPP-2A-mScar and INSULIN-2A-EGFP dual fluorescent reporter (INS2A-EGFP/+;IAPP2A-mScarlet/+) hESC line using CRISPR/Cas9. Pluripotent SC were then differentiated using a 7-stage protocol to islet-like cells. Immunohistochemistry, flow cytometry, qPCR, GSIS and electrophysiology were used to characterise resulting cell populations.

Results

We observed robust expression of EGFP and mScarlet fluorescent proteins in insulin- and IAPP-expressing cells without any compromise to their differentiation. We show that the proportion of insulin-producing cells expressing IAPP increases over a 4-week maturation period, and that a subset of insulin-expressing cells remain IAPP-free. Compared to this IAPP-free population, we show these insulin- and IAPP-expressing cells are less polyhormonal, more glucose-sensitive, and exhibit decreased action potential firing in low (2.8 mM) glucose.

Conclusions

The INS2A-EGFP/+;IAPP2A-mScarlet/+ hESC line provides a useful tool for tracking populations of maturing hESC-derived β cells in vitro. This tool has already been shared with 3 groups and is freely available to all.

 

Articles in Press

An INSULIN and IAPP dual reporter enables tracking of functional maturation of stem cell-derived insulin producing cells

Carmen L. Bayly, Xiao-Qing Dai, Cuilan Nian, Paul C. Orban, ... Francis C. Lynn

An INSULIN and IAPP dual reporter enables tracking of functional maturation of stem cell-derived insulin producing cells

 

Objective

Human embryonic stem cell (hESC; SC)-derived pancreatic β cells can be used to study diabetes pathologies and develop cell replacement therapies. Although current differentiation protocols yield SCβ cells with varying degrees of maturation, these cells still differ from deceased donor human β cells in several respects. We sought to develop a reporter cell line that could be used to dynamically track SCβ cell functional maturation.

Methods

To monitor SCβ cell maturation in vitro, we created an IAPP-2A-mScar and INSULIN-2A-EGFP dual fluorescent reporter (INS2A-EGFP/+;IAPP2A-mScarlet/+) hESC line using CRISPR/Cas9. Pluripotent SC were then differentiated using a 7-stage protocol to islet-like cells. Immunohistochemistry, flow cytometry, qPCR, GSIS and electrophysiology were used to characterise resulting cell populations.

Results

We observed robust expression of EGFP and mScarlet fluorescent proteins in insulin- and IAPP-expressing cells without any compromise to their differentiation. We show that the proportion of insulin-producing cells expressing IAPP increases over a 4-week maturation period, and that a subset of insulin-expressing cells remain IAPP-free. Compared to this IAPP-free population, we show these insulin- and IAPP-expressing cells are less polyhormonal, more glucose-sensitive, and exhibit decreased action potential firing in low (2.8 mM) glucose.

Conclusions

The INS2A-EGFP/+;IAPP2A-mScarlet/+ hESC line provides a useful tool for tracking populations of maturing hESC-derived β cells in vitro. This tool has already been shared with 3 groups and is freely available to all.

 

You are what you eat

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