6^th Global Ophthalmologists Annual Meeting

Biography

Biography: Elie Beit-Yannai

Abstract

The trabecular meshwork TM is dynamic tissue responding to pressure stimuli and cellular signaling. TM increase in drainage resistance had been attributed to increase in intra ocular pressure, a major risk for glaucoma development. In previous study in our lab we were able to show that signaling between the non-pigmented ciliary epithelium (NPCE) and the TM exist, resulting in changes in protein expression and activity. We hypothesized that these intra drainage system tissue communications is carried, at least partially by exosomes. Exosomes are nanoparticles carrying a cargo of proteins, mRNAs and micro-RNAs which are believed to deliver signaling molecules that affect this outflow. Exosomes were extracted from NPCE cell line, characterized for size, Zeta potential, protein content and specific exosomes markers. Then, NPCE derived exosomes were incubated with human TM cell line and the exosomes fate was traced using confocal microscopy. Signaling pathway changes and their downstream effects were examined. We were able to show that NPCE derived exosome accumulate along time in the TM cells cytosol with specify. Within the TM cells the NPCE derived exosomes interfere with signaling pathway resulting in changes in key adhesion molecules.