Differentiation Patterns of Immortalized Human Meibomian Gland Epithelial Cells in Three-Dimensional Culture

Asano, Nagayoshi; Hampel, Ulrike; Garreis, Fabian; Schröder, Antje; Schicht, Martin; Hammer, Christian; Paulsen, Friedrich

doi:10.1167/iovs.17-23266

Cited by 14 publications

(8 citation statements)

References 50 publications

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“…Importantly, across all of the different harvesting and extraction techniques, the lipidome from HMGECs still shows significant differences relative to the lipidome from normal human meibum. One possibility to explain these discrepant findings is that immortalized HMGECs may fail to fully differentiate in culture, as previously hypothesized by other groups [3,22,23], though the methodology of Schroder et al [23] has recently been challenged [24]. Hampel et al stated that HMGECs that are differentiated by serum reach only an early stage of differentiation [25].…”

Section: Discussionmentioning

confidence: 97%

Evaluation of Cell Harvesting Techniques to Optimize Lipidomic Analysis from Human Meibomian Gland Epithelial Cells in Culture

Ziemanski

Chen

Nichols

2020

IJMS

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The lipidomic analysis of immortalized human meibomian gland epithelial cells (HMGECs) has been proposed as a preclinical model to study meibomian gland dysfunction. An in vitro study was conducted to evaluate neutral lipid recovery following three harvesting techniques and to identify candidate lipid biomarkers of HMGECs. HMGECs were cultured in serum-containing media for two days to promote lipid production. Cells were either harvested by 0.25% trypsin–ethylenediaminetetraacetic acid (EDTA), harvested by 10 mM EDTA, or simultaneously harvested and extracted by 2:1 chloroform–methanol (CM). After extraction by a modified Folch technique, the nonpolar phase was processed and infused into a TripleTOF 5600 mass spectrometer (Sciex, Framingham, MA, USA) with electrospray ionization. MS and MS/MSall spectra were acquired. Nonpolar cholesteryl esters (CEs) were consistently detected in all samples, while wax esters were not. Only small differences in two out of twenty CEs were detected between harvesting methods. CM yielded less CE18:1 than the other methods but greater CE20:4 than the trypsin–EDTA method (p < 0.05 for all). Similar to human meibum, very long-chain CEs with carbon number (nc) ≥ 24 were detected in all samples and may serve as HMGEC lipid biomarkers. Further work is needed to address the absence of wax esters. Overall, the three harvesting methods are reasonably equivalent, though CM promotes much better efficiency and is recommended for higher throughput.

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Section: Discussionmentioning

confidence: 97%

Evaluation of Cell Harvesting Techniques to Optimize Lipidomic Analysis from Human Meibomian Gland Epithelial Cells in Culture

Ziemanski

Chen

Nichols

2020

IJMS

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“…The first 3D culture of meibomian glands was prepared in 2016 using rat cells [45]. In 2018, Asano et al used HMGECs and different biomaterials and techniques to create 3D models of human meibomian glands [46]. First, they used different membranes (Millicell ® -HA, Millicell ® -PCF, and ThinCert™) as substrates on which HMGECs were seeded and cultured in air-lifted conditions.…”

Section: Meibomian Glandsmentioning

confidence: 99%

“…In these 3D scaffolds, HMGECs differentiated into sphere-shaped colonies on the apical surface. Finally, the hanging drop technique, initially described by Harrison in 1907 and mentioned at the beginning of this review, was also used to establish 3D cultures of human meibomian glands [46]. Around 1000 cells were seeded in a 20 µL drop of proliferation medium on the inside of petri dish lids.…”

Section: Meibomian Glandsmentioning

confidence: 99%

Three-Dimensional Human Cell Culture Models to Study the Pathophysiology of the Anterior Eye

García-Posadas

Diebold

2020

Pharmaceutics

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In recent decades, the establishment of complex three-dimensional (3D) models of tissues has allowed researchers to perform high-quality studies and to not only advance knowledge of the physiology of these tissues but also mimic pathological conditions to test novel therapeutic strategies. The main advantage of 3D models is that they recapitulate the spatial architecture of tissues and thereby provide more physiologically relevant information. The eye is an extremely complex organ that comprises a large variety of highly heterogeneous tissues that are divided into two asymmetrical portions: the anterior and posterior segments. The anterior segment consists of the cornea, conjunctiva, iris, ciliary body, sclera, aqueous humor, and the lens. Different diseases in these tissues can have devastating effects. To study these pathologies and develop new treatments, the use of cell culture models is instrumental, and the better the model, the more relevant the results. Thus, the development of sophisticated 3D models of ocular tissues is a significant challenge with enormous potential. In this review, we present a comprehensive overview of the latest advances in the development of 3D in vitro models of the anterior segment of the eye, with a special focus on those that use human primary cells.

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“…Recent attempts of establishing a suitable in vitro three-dimensional meibomian culture model also faced limitations. 11 Together with the lack of appropriate animal models, 11,12 we are aware of the urgent requirement of an appropriate model system to study the (patho-)physiology of meibomian glands. Therefore, recently established ex vivo slice culture models were adapted to study cell cohesion in human skin and murine heart 27,38 and established a novel ex vivo slice culture model of human eyelids.…”

Section: The Human Ex Vivo Human Eyelid Model Is Suitable To Study (Pmentioning

confidence: 99%

“…However, at the moment, many in vitro studies are confronted with limitations in reflecting the in vivo situation. 4,10,11 Moreover, up to now no satisfactory animal model exists that resembles the pathophysiologic aspects of human MGD. 11,12 Together, this underlines the requirement of new model systems for the investigation of the (patho-)physiology of meibomian glands in a physiologic environment.…”

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confidence: 99%

E-Cadherin Is Important for Meibomian Gland Function as Revealed by a New Human ex Vivo Slice Culture Model

Rötzer

Melega

Garreis

et al. 2019

The American Journal of Pathology

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Meibomian glands within the eyelid are important for the maintenance of the integrity and health of the ocular surface. Patients with the blistering skin disease pemphigus vulgaris (PV), which is caused by autoantibodies against desmosomal cadherins, often have dry eye disease. Therefore, we studied the regulation of cell cohesion in human meibomian gland epithelial cells (HMGECs). During serum-induced differentiation for 1 to 6 days, HMGECs drastically enhanced intercellular cohesion, whereas lipid production did not change. The expression profiles of the desmosomal PV antigens desmoglein (Dsg) 3 and 1 but not of the adherens junction component E-cadherin (Ecad) was dependent on the presence of serum. Surprisingly, after 1 day but not after 6 days of serum-induced differentiation, an inhibitory antibody against Ecad drastically reduced intercellular cohesion and blocked lipid production of HMGECs. In contrast, antibodies against desmosomal cadherins, including human and mouse pemphigus autoantibodies, had no effect on monolayer integrity and lipid production. Because lipid production was unaltered in meibomian glands from Dsg3-deficient mice, we established an ex vivo slice culture model of human eyelids to allow studies in a more physiologic environment. Here, the inhibitory antibody against Ecad but not a Dsg3-specific PV antibody interfered with stimulated lipid production. Together, these data demonstrate that cell cohesion is maintained differently in meibomian gland cells and indicate that Ecad is important for meibomian gland function.

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Differentiation Patterns of Immortalized Human Meibomian Gland Epithelial Cells in Three-Dimensional Culture

Cited by 14 publications

References 50 publications

Evaluation of Cell Harvesting Techniques to Optimize Lipidomic Analysis from Human Meibomian Gland Epithelial Cells in Culture

Evaluation of Cell Harvesting Techniques to Optimize Lipidomic Analysis from Human Meibomian Gland Epithelial Cells in Culture

Three-Dimensional Human Cell Culture Models to Study the Pathophysiology of the Anterior Eye

E-Cadherin Is Important for Meibomian Gland Function as Revealed by a New Human ex Vivo Slice Culture Model

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