Automated microfluidic droplet sampling with integrated, mix-and-read immunoassays to resolve endocrine tissue secretion dynamics

Li, Xiangpeng; Hu, Juan; Easley, Christopher J.

doi:10.1039/c8lc00616d

Cited by 39 publications

(36 citation statements)

References 56 publications

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“…Since adipocytes are buoyant, another important component of the chip is the cell-culture reservoir ( Fig. S-1E), fabricated by 3D-printed templating 18,25 . As the schematic in Fig.…”

Section: Resultsmentioning

confidence: 99%

Rapid Lipolytic Oscillations in Ex-Vivo Adipose Tissue Explants Revealed Through Microfluidic Droplet Sampling at High Temporal Resolution

Hu¹,

Li²,

Judd³

et al. 2019

Preprint

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Our understanding of adipose tissue biology has steadily evolved. While structural and energy storage functionalities have been in the forefront, a key endocrine role for adipocytes was revealed only over the last few decades. In contrast to the wealth of information on dynamic function of other endocrine tissues, few studies have focused on dynamic adipose tissue function or on tool development toward that end. Here, we apply our unique droplet-based microfluidic devices to culture, perfuse, and sample secretions from primary murine epididymal white adipose tissue (eWAT), and from predifferentiated clusters of 3T3-L1 adipocytes. Through automated control, oil-segmented aqueous droplets (~2.6 nL) were sampled from tissue or cells at 3.5-second temporal resolution, with integrated enzyme assays enabling real-time quantification of glycerol (down to 1.9 fmol droplet<sup>-1</sup>). This high resolution revealed previously unreported oscillations in secreted glycerol at frequencies of 0.2 to 2.0 min<sup>-1</sup> (~30-300 s periods) present in the primary tissue but not in clustered cells. Low-level bursts (~50 fmol) released in basal conditions were contrasted with larger bursts (~300 fmol) during stimulation. Further, both fold changes and burst magnitudes were decreased in eWAT of aged and obese mice. These results, combined with immunostaining and photobleaching analyses, suggest that gap-junctional coupling or nerve cell innervation within the intact ex-vivo tissue explants play important roles in this apparent tissue-level, lipolytic synchronization. High-resolution, quantitative sampling by droplet microfluidics thus permitted unique biological information to be observed, giving an analytical framework poised for future studies of dynamic oscillatory function of adipose and other tissues.

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“…Since adipocytes are buoyant, another important component of the chip is the cell-culture reservoir ( Fig. S-1E), fabricated by 3D-printed templating 18,25 . As the schematic in Fig.…”

Section: Resultsmentioning

confidence: 99%

Rapid Lipolytic Oscillations in Ex-Vivo Adipose Tissue Explants Revealed Through Microfluidic Droplet Sampling at High Temporal Resolution

Hu¹,

Li²,

Judd³

et al. 2019

Preprint

Self Cite

View full text Add to dashboard Cite

show abstract

“…Insulin oscillation has been documented in the isolated islets in vitro , and in the blood circulation in vivo ( 21 , 22 ). A number of studies have shown rhythmic behavior of hormone secretion in isolated islets, with oscillating periods ranging from ~ 20 s to several minutes ( 21 , 23 , 24 ). Insulin oscillation is thought to be coupled with intracellular Ca 2+ oscillation, bursting electrical activity and cellular metabolic rhythm ( 25 ).…”

Section: Discussionmentioning

confidence: 99%

In Vivo ZIMIR Imaging of Mouse Pancreatic Islet Cells Shows Oscillatory Insulin Secretion

et al. 2021

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Appropriate insulin secretion is essential for maintaining euglycemia, and impairment or loss of insulin release represents a causal event leading to diabetes. There have been extensive efforts of studying insulin secretion and its regulation using a variety of biological preparations, yet it remains challenging to monitor the dynamics of insulin secretion at the cellular level in the intact pancreas of living animals, where islet cells are supplied with physiological blood circulation and oxygenation, nerve innervation, and tissue support of surrounding exocrine cells. Herein we presented our pilot efforts of ZIMIR imaging in pancreatic islet cells in a living mouse. The imaging tracked insulin/Zn2+ release of individual islet β-cells in the intact pancreas with high spatiotemporal resolution, revealing a rhythmic secretion activity that appeared to be synchronized among islet β-cells. To facilitate probe delivery to islet cells, we also developed a chemogenetic approach by expressing the HaloTag protein on the cell surface. Finally, we demonstrated the application of a fluorescent granule zinc indicator, ZIGIR, as a selective and efficient islet cell marker in living animals through systemic delivery. We expect future optimization and integration of these approaches would enable longitudinal tracking of beta cell mass and function in vivo by optical imaging.

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“…Thus, for the interrogation of adipocyte functionality, microanalytical fluidic systems (MAS) are of utmost value: One of the first MAS allowed for time-resolved sampling of factors secreted by endocrine tissues, such as adiponectin [ 162 ]. More advanced devices based on droplet microfluidics significantly increased the time-resolution of the secretion sampling [ 163 ]. Combined with on-chip enzyme assays, the droplet-based sampling approach enabled monitoring of glycerol secretion from adipocytes at a 3.5 s temporal resolution ( Figure 3 B) [ 164 ].…”

Section: Experimental Model Systems To Study Molecular Effects Of mentioning

confidence: 99%

The Inflammatory Profile of Obesity and the Role on Pulmonary Bacterial and Viral Infections

Hornung

Rogal

Loskill

et al. 2021

IJMS

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Obesity is a globally increasing health problem, entailing diverse comorbidities such as infectious diseases. An obese weight status has marked effects on lung function that can be attributed to mechanical dysfunctions. Moreover, the alterations of adipocyte-derived signal mediators strongly influence the regulation of inflammation, resulting in chronic low-grade inflammation. Our review summarizes the known effects regarding pulmonary bacterial and viral infections. For this, we discuss model systems that allow mechanistic investigation of the interplay between obesity and lung infections. Overall, obesity gives rise to a higher susceptibility to infectious pathogens, but the pathogenetic process is not clearly defined. Whereas, viral infections often show a more severe course in obese patients, the same patients seem to have a survival benefit during bacterial infections. In particular, we summarize the main mechanical impairments in the pulmonary tract caused by obesity. Moreover, we outline the main secretory changes within the expanded adipose tissue mass, resulting in chronic low-grade inflammation. Finally, we connect these altered host factors to the influence of obesity on the development of lung infection by summarizing observations from clinical and experimental data.

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Automated microfluidic droplet sampling with integrated, mix-and-read immunoassays to resolve endocrine tissue secretion dynamics

Cited by 39 publications

References 56 publications

Rapid Lipolytic Oscillations in Ex-Vivo Adipose Tissue Explants Revealed Through Microfluidic Droplet Sampling at High Temporal Resolution

Rapid Lipolytic Oscillations in Ex-Vivo Adipose Tissue Explants Revealed Through Microfluidic Droplet Sampling at High Temporal Resolution

In Vivo ZIMIR Imaging of Mouse Pancreatic Islet Cells Shows Oscillatory Insulin Secretion

The Inflammatory Profile of Obesity and the Role on Pulmonary Bacterial and Viral Infections

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