Thrombospondin-1 mediates Rho-kinase inhibitor-induced increase in outflow-facility

Sze-Wan Shan, Chi-Wai Do, Thomas Chuen Lam, Hoi-Lam Li, W. Daniel Stamer, Chi-Ho To

Research output: Journal article publicationJournal articleAcademic researchpeer-review

Abstract

Rho-kinase (ROCK) inhibitors, a novel class of anti-glaucoma agents, act by increasing the aqueous humor outflow through the conventional trabecular meshwork pathway. However, the downstream signaling consequences of the ROCK inhibitor are not completely understood. Our data show that Y39983, a selective ROCK inhibitor, could induce filamentous actin remodeling, reduced cell motility (as measured by cell migration), and transepithelial resistance in primary human TM (hTM) cells. After 2 days Y39983 treatment of hTM cells, a proteomic study identified 20 proteins whose expression was significantly altered. Pathway analysis of those proteins revealed the involvement of the p53 pathway, integrin signaling pathway, and cytoskeletal pathway regulation by Rho GTPase. Thrombospondin-1 (TSP1), a matricellular protein that is increased in glaucoma patients, was downregulated fivefold following Y39983 treatment. More importantly, both TSP1 antagonist leucine?serine?lysine?leucine (LSKL) and small interfering RNA (siRNA) reduced TSP1 gene and protein expressions as well as hTM cell migration. In the presence of Y39983, no further inhibition of cell migration resulted after LSKL and TSP1 siRNA knockdown. Likewise, LSKL triggered a dose-dependent increase in outflow facility in ex vivo mouse eyes, to a similar extent as Y39983 (83.8% increase by Y39983 vs. 71.2% increase by LSKL at 50?µM). There were no additive effects with simultaneous treatment with LSKL and Y39983, supporting the notion that the effects of ROCK inhibition were mediated by TSP1.
Original languageEnglish
Pages (from-to)1-13
Number of pages13
JournalJournal of Cellular Physiology
Publication statusPublished - 27 Jun 2021

Keywords

  • glaucoma
  • outflow facility
  • ROCK inhibitor
  • thrombospondin-1
  • trabecular meshwork

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