Abstract
Background: We have shown previously that the abrogation of acute and chronic rejection of rat cardiac allografts occurs through the down-regulation of RhoA pathway and involves the changes in RhoA kinase (ROCK)-dependent actin cytoskeleton and T cell motility. Here we studied the ability of the Y-27632, a highly selective inhibitor of Rho-associated protein kinase p160ROCK (ROCK1), to abrogate chronic rejection of the allograft and influence T cell infiltration. Methods: Heterotopic cardiac transplants were performed between donor Wistar Furth (WF) and ACI recipient rats. Controls received sub-therapeutic dose of cyclosporine (CsA, 10 mg/kg) for 3 days or 7 days therapeutic dose of cyclosporine. The experimental groups of ACI recipient received one preoperative dose of the Y-27632 inhibitor (2 mg/kg, gavage feed) in conjunction with the sub-therapeutic dose of CsA for 3 days or inhibitor alone for 7 days. The cardiac grafts were harvested at 100 days of post-transplantation for histological and immunohistochemical assessment of chronic rejection, vascular sclerosis, and infiltration by different T cell subtypes. Results: Cardiac allografts from recipients exposed to Y-27632 inhibitor in conjunction with sub-therapeutic dose of CsA showed drastically reduced vascular sclerosis, minimal myocardial total cellular infiltration, and were selectively infiltrated with Foxp3+ T regulatory (Treg) cells. Conclusions: Our novel finding that a single dose of the ROCK1 inhibitor Y-27632 attenuates chronic rejection in rat cardiac model system by promoting development of Treg cells warrants its potential as a novel therapeutic agent specific for the inhibition of chronic rejection.
Highlights
One of the most challenging and still unresolved problems in organ transplantation is the phenomenon of chronic rejection that slowly damages and eventually destroys transplanted organs [1,2,3,4,5]
We have shown previously that the abrogation of acute and chronic rejection of rat cardiac allografts occurs through the down-regulation of RhoA pathway and involves the changes in RhoA kinase (ROCK)-dependent actin cytoskeleton and T cell motility
Our novel finding that a single dose of the Rho-associated protein kinase p160ROCK (ROCK1) inhibitor Y-27632 attenuates chronic rejection in rat cardiac model system by promoting development of T regulatory (Treg) cells warrants its potential as a novel therapeutic agent specific for the inhibition of chronic rejection
Summary
One of the most challenging and still unresolved problems in organ transplantation is the phenomenon of chronic rejection that slowly damages and eventually destroys transplanted organs [1,2,3,4,5]. In order to study the mechanisms and molecular pathways responsible for the chronic rejection and to identify potential molecular targets and therapeutic agents we previously developed the rat cardiac allograft model system in which the peri-operative treatment of recipients with an allochimeric MHC I induced indefinite survival and abrogated acute and chronic rejection of the allograft [6,7,8,9]. Conclusions: Our novel finding that a single dose of the ROCK1 inhibitor Y-27632 attenuates chronic rejection in rat cardiac model system by promoting development of Treg cells warrants its potential as a novel therapeutic agent specific for the inhibition of chronic rejection
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