Abstract

Elevated cAMP in the trabecular meshwork (TM) cells increases the aqueous humor outflow facility. The authors investigated the mechanisms by which elevated cAMP opposes the RhoA-Rho kinase pathway, leading to the relaxation of the actomyosin system in bovine TM cells. Forskolin (Fsk) and rolipram were used to elevate cAMP levels. Changes in the phosphorylation of RhoA at Ser188 (a putative inhibitory site), the regulatory light chain of myosin (pMLC), and the regulatory subunit of myosin phosphatase (MYPT1) were determined by Western blot analysis. The actomyosin contraction was measured by collagen gel contraction (CGC) assay. The impact of cAMP on cell-matrix adhesion was followed by immunostaining of focal adhesion proteins and by electric cell-substrate impedance sensing. Elevated cAMP led to an increase in the phosphorylation of RhoA at Ser188, to the inhibition of endothelin-1 (ET-1)-induced activation of RhoA, and to the formation of stress fibers. The loss of pMLC along the stress fibers was comparable to that induced by Y-27632 (Rho kinase inhibitor). A concomitant reduction in both MYPT1 phosphorylation and pMLC was observed. Elevated cAMP also reduced (ET-1)-induced CGC and the cell-substrate resistance by >50%. In TM cells, elevated cAMP leads to the phosphorylation of RhoA at Ser188. Consequent inhibition of RhoA activity reduces the phosphorylation of MYPT1 at Thr853, leading to a reduction in MLC phosphorylation and actomyosin contraction. These actions, similar to those of the Rho kinase inhibitors, possibly underlie the reported increase in outflow facility in response to Fsk perfusion ex vivo.

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