Placental basement membrane proteins are required for effective cytotrophoblast invasion in a three‐dimensional bioprinted placenta model

Kuo, Che-Ying; Guo, Ting; Cabrera-Luque, Juan; Arumugasaamy, Navein; Bracaglia, Laura G.; Garcia-Vivas, Amy; Santoro, Marco; Baker, Hannah B.; Fisher, John P.; Kim, Peter

doi:10.1002/jbm.a.36350

Cited by 41 publications

(33 citation statements)

References 61 publications

(175 reference statements)

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“…Comparing EC type, the largest difference was observed in small molecule permeability, though even this difference was relatively modest; permeability was still within the same order of magnitude. In evaluating placental ECM, the tissue was decellularized to an extent similar to other studies, with low DNA content and similar protein composition . Modest differences in barrier formation based on placental ECM content were observed, which is comparable to previous findings that ECM proteins have minimal impact on permeability characteristics, albeit studied for ECs .…”

Section: Discussionsupporting

confidence: 76%

“…By comparison, the placenta‐on‐a‐chip and transwell models often lack the cellular complexity and 3D nature of the BPB . Extracellular matrix (ECM) proteins, important in placental biology, are rarely used. Similarly, how EC phenotype influences molecular permeability, with differences between macrovascular and microvascular ECs reported, rarely influences BPB model design.…”

Section: Introductionmentioning

confidence: 99%

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Model Placental Barrier Phenotypic Response to Fluoxetine and Sertraline: A Comparative Study

Arumugasaamy

Gudelsky

Hurley-Novatny

et al. 2019

Adv Healthcare Materials

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Medications taken during pregnancy may significantly impact fetal development, yet there are few studies that rigorously assess medication safety due to ethical concerns. Selective serotonin reuptake inhibitors (SSRIs) are a class of drug increasingly being prescribed for depression, yet multiple studies have shown that taking SSRIs during pregnancy can lead to preterm birth and potential health concerns for the baby. Therefore, a biomimetic placental barrier model is utilized herein to assess transport profiles and phenotypic effects resulting from SSRI exposure, comparing fluoxetine and sertraline. Results show that the placental barrier quickly uptakes drug from the maternal side, but slowly releases on the fetal side. Phenotypically, there is a dose‐dependent change in cell adhesion molecule (CAM) and transforming growth factor beta (TGFβ) secretions, markers of cell adhesion and angiogenesis. Both drugs impact CAM secretions, whereas sertraline alone impacts TGFβ secretions. When evaluating cell type, it becomes clear that endothelial cells, not trophoblast, are the main cell type involved in these phenotypic changes. Overall, these findings further the understanding of SSRI transplacental transport and drug‐induced effects on the placental barrier.

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Section: Discussionsupporting

confidence: 76%

Section: Introductionmentioning

confidence: 99%

Model Placental Barrier Phenotypic Response to Fluoxetine and Sertraline: A Comparative Study

Arumugasaamy

Gudelsky

Hurley-Novatny

et al. 2019

Adv Healthcare Materials

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“…Such models can replicate relevant biophysical properties inspired by the native tissue, including matrix stiffness, extracellular matrix composition, and three-dimensional architecture. Advanced tissue engineered platforms have increasingly been utilized to study trophoblast invasion and migration in three-dimensional biomaterial platforms (8)(9)(10)(11); however, some limitations still remain with existing models. The use of three-dimensional bioprinting (8,9) and microfluidic technology (10) allows for tracking migration of trophoblast cells toward soluble factor gradients within biomaterials but these models quantify migration in dissociated cells and hence, do not recapitulate the native spherical structure of an invading blastocyst.…”

Section: Introductionmentioning

confidence: 99%

“…Advanced tissue engineered platforms have increasingly been utilized to study trophoblast invasion and migration in three-dimensional biomaterial platforms (8)(9)(10)(11); however, some limitations still remain with existing models. The use of three-dimensional bioprinting (8,9) and microfluidic technology (10) allows for tracking migration of trophoblast cells toward soluble factor gradients within biomaterials but these models quantify migration in dissociated cells and hence, do not recapitulate the native spherical structure of an invading blastocyst. Existing models that utilize embryos (11) utilize Matrigel which contains a heterogeneous combination of extracellular matrix proteins and exhibits significant lot to lot variability (12,13).…”

Section: Introductionmentioning

confidence: 99%

Tuning trophoblast invasion in a gelatin hydrogel via soluble cues from the maternal-fetal interface

Zambuto¹,

Clancy²,

Harley

2020

Preprint

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Trophoblast cells play multiple critical roles in pregnancy, notably modulating blastocyst attachment to the endometrium as well as invading into and actively remodeling the endometrium to facilitate biotransport needs of the growing embryo. Despite the importance of trophoblast invasion for processes essential at early stages of pregnancy, much remains unknown regarding the balance of signaling molecules that may influence trophoblast invasion into the endometrium. The goal of this study was to use a three-dimensional trophoblast spheroid invasion assays to examine the effect of cues from the maternal-fetal interface on trophoblast invasion. We report use of a methacrylamide-functionalized gelatin (GelMA) hydrogel to support quantitative analysis of trophoblast outgrowth area and cell viability. We show this multidimensional model of trophoblast invasion can resolve quantifiable differences in outgrowth area and viability in the presence of a known invasion promoter, epidermal growth factor, and a known invasion inhibitor, transforming growth factor β1. We then investigate the sensitivity of trophoblast invasion to cortisol, a hormone associated with exogenous stressors.Together, this approach provides a toolset to investigate the coordinated action of physiological and pathophysiological processes on early stages of trophoblast invasion. IMPACT STATEMENTTrophoblast cells from the invading blastocyst play crucial roles in pregnancy, including remodeling endometrial structure to support embryonic biotransport needs; however, much remains unknown regarding the balance of signaling molecules that may influence trophoblast invasion. We show this multidimensional model of invasion can resolve quantifiable differences in outgrowth area and viability in the presence of known invasion promoters and inhibitors and then investigate invasion sensitivity to cortisol, a hormone associated with exogenous stressors.This approach provides a toolset to investigate the coordinated action of molecules from the maternal-fetal interface on trophoblast invasion that may be challenging to study in humans.3

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“…Protein was isolated through electrophoresis, as described. Gel lanes were separated, cut into 10 equal pieces, digested with sequencing grade trypsin, and peptides extracted with acetonitrile‐formic acid buffer . Liquid‐chromatography (LC)‐MS/MS was performed using a nano‐LC system (Easy nLC1000) connected to Q Exactive mass spectrometer (ThermoFisher).…”

Section: Methodsmentioning

confidence: 99%

Development of surface functionalization strategies for 3D‐printed polystyrene constructs

et al. 2019

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There is a growing interest in 3D printing to fabricate culture substrates; however, the surface properties of the scaffold remain pertinent to elicit targeted and expected cell responses. Traditional 2D polystyrene (PS) culture systems typically require surface functionalization (oxidation) to facilitate and encourage cell adhesion. Determining the surface properties which enhance protein adhesion from media and cellular extracellular matrix (ECM) production remains the first step to translating 2D PS systems to a 3D culture surface. Here we show that the presence of carbonyl groups to PS surfaces correlated well with successful adhesion of ECM proteins and sustaining ECM production of deposited human mesenchymal stem cells, if the surface has a water contact angle between 50° and 55°. Translation of these findings to custom‐fabricated 3D PS scaffolds reveals carbonyl groups continued to enhance spreading and growth in 3D culture. Cumulatively, these data present a method for 3D printing PS and the design considerations required for understanding cell–material interactions. © 2019 Wiley Periodicals, Inc. J Biomed Mater Res Part B: Appl Biomater 107B:2566–2578, 2019.

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Placental basement membrane proteins are required for effective cytotrophoblast invasion in a three‐dimensional bioprinted placenta model

Cited by 41 publications

References 61 publications

Model Placental Barrier Phenotypic Response to Fluoxetine and Sertraline: A Comparative Study

Model Placental Barrier Phenotypic Response to Fluoxetine and Sertraline: A Comparative Study

Tuning trophoblast invasion in a gelatin hydrogel via soluble cues from the maternal-fetal interface

Development of surface functionalization strategies for 3D‐printed polystyrene constructs

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