Common actions of adenosine receptor agonists in modulating human trabecular meshwork cell transport

A₁ adenosine receptors (ARs) reduce, and A₂ARs increase intraocular pressure, partly by differentially altering resistance to aqueous humor outflow. It is unknown whether the opposing effects of A₁AR and A₂AR agonists are mediated at different outflow-pathway cell targets or by opposing actions on a single cell target. We tested whether a major outflow-pathway cell, the trabecular meshwork (TM) cell might constitute the primary AR-agonist target and respond differentially to A₁, A_2A and A₃AR agonists. Receptor activation in human TM cells was identified by applying subtype-selective AR agonists: CPA and ADAC for A₁ARs, CGS 21680 and DPMA for A_2AARs, and Cl-IB-MECA and IB-MECA for A₃ARs. Stimulation of A₁, A_2A and A₃ARs elevated Ca²⁺, measured with fura-2. Whole-cell patch clamping indicated that AR agonists activated ion channels non-uniformly, possibly reflecting variability in magnitude of agonist-triggered second-messenger responses. A₁, A_2A and A₃AR agonists all reduced volume, determined by calcein cell imaging. The endogenous source of adenosine delivery to the outflow pathway could be the TM cells since these cells were stimulated to release ATP by hypotonic perfusion. We conclude that: (1) TM cells express functional A₁, A_2A and A₃ARs; and (2) the reported differential effects of AR agonists on aqueous humor outflow are not mediated by differential actions on TM-cell Ca²⁺ and volume, but likely by actions on separate cell targets.