Integration of immune cells in organs-on-chips: a tutorial

Os, Lisette van; Engelhardt, Britta; Guénat, O.

doi:10.3389/fbioe.2023.1191104

Cited by 5 publications

(4 citation statements)

References 172 publications

(264 reference statements)

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“…The bidirectional pulsatile flow used in our model by rockers did not replicate the unilateral fluid flow found in the kidney. Technically, to create a unidirectional flow, we could consider using an artificial pump, but this might lead to the formation of bubbles in the microfluidic channel, cell sedimentation, or cell lysis [ 17 , 18 , 19 ]. Therefore, despite the limitation of using a bidirectional flow, we opted for a gravity-driven flow approach to reduce the complexity of the device and cellular damage.…”

Section: Discussionmentioning

confidence: 99%

Development of Drug Efficacy Testing Platform for Glomerulonephritis

Kwon,

Choi,

Kim

et al. 2024

Micromachines

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We developed a 3D glomeruli tissue chip for glomerulonephritis (GN) testing, featuring a gravity-driven glomerular filtration barrier (GFB) with human podocytes and endothelial cells with a bidirectional flow in the bottom channel. Using puromycin-induced GN, we observed decreased cell viability, increased albumin permeability, and reduced WT1 and nephrin compared to the normal GFB. Tacrolimus restored cell viability, reduced albumin permeability, and increased WT1 expression. Using serum from five membranous nephropathy (MN) patients, we created MN models using a GFB-mimicking chip. A notable decline in cell viability was observed in the serum-induced MN1 and MN2 models. However, tacrolimus restored it. Albumin permeability was reduced in the MN1, MN2, and MN5 models by tacrolimus treatment. MN1 displayed the best clinical response to tacrolimus, exhibiting increased expression of WT1 in chip-based evaluations after tacrolimus treatment. We successfully evaluated the efficacy of tacrolimus using puromycin-induced and serum-induced GN models on a chip that mimicked the structure and function of the GFB. The GFB-mimicking chip holds promise as a personalized platform for assessing drug efficacy using patient serum samples.

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Section: Discussionmentioning

confidence: 99%

Development of Drug Efficacy Testing Platform for Glomerulonephritis

Kwon,

Choi,

Kim

et al. 2024

Micromachines

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“…18 Besides primary or donor-derived origins, some immune cells can also be derived from embryonic or induced pluripotent stem cells (iPSC), with a variety of immune cell types including macrophages, 193 natural killer cells 194 and T cells 195,196 derived through this method. It should however be noted that multiple other immune-focused lab-on-chip applications, 185,186,197,198 lacking the intestinal component, do exist, using cells lines and primary cells; for example multiple studies have developed lymph nodes on chip, 186 such as Moura Rosa et al (2016) who developed a lymph node-on-chip to study intercell dynamics of T cells and dendritic cells. 199 Recently, advances have been made in modelling immune tissues, with Goyal et al (2022) developing a lab-on-chip model (Chip-S1) of ectopic lymphoid follicles using primary human blood B- and T-lymphocytes which were able to self-assemble in a 3D extracellular matrix gel within one of the fluidic channels, offering a new way to explore how the human immune system responds to infections and vaccinations.…”

Section: Gut–immune Lab-on-chip Technologies For Metabolic Disease Re...mentioning

confidence: 99%

Lab-on-chip technologies for exploring the gut–immune axis in metabolic disease

Wheeler,

Stoeger,

Owens

2024

Lab Chip

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“…Immune cells can be circulated with the media perfusion; upon endothelial activation, or other inflammatory stimuli, immune cells can cross the barrier and infiltrate into the recruiting tissue compartment. 78 …”

Section: Neurometabolic Dysfunction: Oxidative Stress Neuroinflammati...mentioning

confidence: 99%

Human In Vitro Models of Neuroenergetics and Neurometabolic Disturbances: Current Advances and Clinical Perspectives

Rogal,

Zamproni,

Nikolakopoulou

et al. 2024

Stem Cells Translational Medicine

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Neurological conditions conquer the world; they are the leading cause of disability and the second leading cause of death worldwide, and they appear all around the world in every age group, gender, nationality, and socioeconomic class. Despite the growing evidence of an immense impact of perturbations in neuroenergetics on overall brain function, only little is known about the underlying mechanisms. Especially human insights are sparse, owing to a shortage of physiologically relevant model systems. With this perspective, we aim to explore the key steps and considerations involved in developing an advanced human in vitro model for studying neuroenergetics. We discuss biological and technological strategies to meet the requirements of a predictive model, aiming at providing a guide and inspiration for future in vitro models of neuroenergetics.

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Integration of immune cells in organs-on-chips: a tutorial

Cited by 5 publications

References 172 publications

Development of Drug Efficacy Testing Platform for Glomerulonephritis

Development of Drug Efficacy Testing Platform for Glomerulonephritis

Lab-on-chip technologies for exploring the gut–immune axis in metabolic disease

Human In Vitro Models of Neuroenergetics and Neurometabolic Disturbances: Current Advances and Clinical Perspectives

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