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  • Endothelial Glycocalyx-Mediated Nitric Oxide Production in Response to Selective AFM Pulling.

Endothelial Glycocalyx-Mediated Nitric Oxide Production in Response to Selective AFM Pulling.

Biophysical journal (2017-07-13)
Anne Marie W Bartosch, Rick Mathews, John M Tarbell
摘要

Nitric oxide (NO) is a regulatory molecule in the vascular system and its inhibition due to endothelial injury contributes to cardiovascular disease. The glycocalyx is a thin layer of glycolipids, glycoproteins, and proteoglycans on the surface of mammalian epithelial cells. Extracellular forces are transmitted through the glycocalyx to initiate intracellular signaling pathways. In endothelial cells (ECs), previous studies have shown the glycocalyx to be a significant mediator of NO production; degradation of the endothelial glycocalyx layer (EGL) drastically reduces EC production of NO in response to fluid shear stress. However, the specific EGL components involved in this process are not well established. Recent work using short-hairpin RNA approaches in vitro suggest that the proteoglycan glypican-1, not syndecan-1, is the dominant core protein mediating shear-induced NO production. We utilized atomic force microscopy (AFM) to apply force selectively to components of the EGL of confluent rat fat pad ECs (RFPECs), including proteoglycans and glycosaminoglycans, to observe how each component individually contributes to force-induced production of NO. 4,5-diaminofluorescein diacetate, a cell-permeable fluorescent molecule, was used to detect changes in intracellular NO production. Antibody-coated AFM probes exhibited strong surface binding to RFPEC monolayers, with 100-300 pN mean adhesion forces. AFM pulling on glypican-1 and heparan sulfate for 10 min caused significantly increased NO production, whereas pulling on syndecan-1, CD44, hyaluronic acid, and with control probes did not. We conclude that AFM pulling can be used to activate EGL-mediated NO production and that the heparan sulfate proteoglycan glypican-1 is a primary mechanosensor for shear-induced NO production.

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Sigma-Aldrich
透明质酸酶 来源于 Streptomyces hyalurolyticus
Sigma-Aldrich
白蛋白 溶液 来源于牛血清, 30%±2% in 0.85% sodium chloride, aseptically filled
Sigma-Aldrich
4,5-二氨基荧光素二乙酸酯 溶液, 5 mM in DMSO, ≥97% (HPLC)