The endothelial glycocalyx/endothelial surface layer is ideally studied using intravital microscopy. Intravital microscopy is technically challenging in a moving organ such as the lung. We demonstrate how simultaneous brightfield and fluorescent microscopy may be used to estimate endothelial surface layer thickness in a freely-moving in vivo mouse lung.
Intratracheal (IT) administration of experimental agents in mice often results in asymmetric delivery to the distal lungs. In this report, we describe a direct intrabronchial (IB) approach to cannulate each lung in living mice non-operatively. This approach can be used to selectively administer agents to one lung or may be adapted to improve the symmetric agent delivery to both lungs.
This report describes techniques to isolate and purify sulfated glycosaminoglycans (GAGs) from biological samples and a polyacrylamide gel electrophoresis approach to approximate their size. GAGs contribute to tissue structure and influence signaling processes via electrostatic interaction with proteins. GAG polymer length contributes to their binding affinity for cognate ligands.
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