Beneficial Effects of Targeting CCR5 in Allograft Recipients

Overview

Journal Transplantation

Specialty General Surgery

Date 2001 Oct 17

PMID 11602842

Citations 28

Authors

W Gao

K L Faia

V Csizmadia

S T Smiley

D Soler

J A King

T M Danoff

W W Hancock

Affiliations

Soon will be listed here.

Abstract

Background: The chemokine receptor, CCR5, and its three high-affinity ligands, macrophage inflammatory protein- (MIP) 1alpha, MIP-1beta, and regulated on activation normal T cell expressed and secreted (RANTES), are expressed by infiltrating mononuclear cells during the rejection of clinical and experimental organ allografts, although the significance of these molecules in the pathogenesis of rejection has not been established.

Methods: We studied intragraft events in four allograft models. First, we studied cardiac transplants in fully MHC-mismatched mice that were deficient in CCR5 or two of its ligands, MIP-1alpha or RANTES. Second we tested the effects of a neutralizing rat anti-mCCR5 monoclonal antibody on allograft survival. Third we assessed whether a subtherapeutic course of cyclosporine would potentiate enhance survival in CCR5-deficient recipients. Finally, we tested the effect of targeting CCR5 in a class II-mismatched model.

Results: Whereas mice deficient in expression of MIP-1alpha or RANTES reject fully MHC-mismatched cardiac allografts normally, CCR5-/- mice, or CCR5+/+ mice treated with a neutralizing mAb to mCCR5, show enhanced allograft survival. MHC class II-disparate mismatched are permanently accepted in CCR5-/- but not CCR5+/+ recipients. Finally, the beneficial effects of targeting of CCR5 are markedly synergistic with the effects of cyclosporine, resulting in permanent engraftment without development of chronic rejection.

Conclusions: We conclude that CCR5 plays a key role in the mechanisms of host T cell and macrophage recruitment and allograft rejection, such that targeting of CCR5 clinically may be of therapeutic significance.

Citing Articles

Lack of a significant pharmacokinetic interaction between maraviroc and tacrolimus in allogeneic HSCT recipients.

Ganetsky A, Miano T, Hughes M, Vonderheide R, Porter D, Reshef R J Antimicrob Chemother. 2015; 70(7):2078-83.

PMID: 25881619 PMC: 4472330. DOI: 10.1093/jac/dkv082.

Effector mechanisms of rejection.

Moreau A, Varey E, Anegon I, Cuturi M Cold Spring Harb Perspect Med. 2013; 3(11).

PMID: 24186491 PMC: 3808773. DOI: 10.1101/cshperspect.a015461.

Cytomegalovirus CC chemokine promotes immune cell migration.

Vomaske J, Denton M, Kreklywich C, Andoh T, Osborn J, Chen D J Virol. 2012; 86(21):11833-44.

PMID: 22915808 PMC: 3486311. DOI: 10.1128/JVI.00452-12.

Innate immunity and resistance to tolerogenesis in allotransplantation.

Benichou G, Tonsho M, Tocco G, Nadazdin O, Madsen J Front Immunol. 2012; 3:73.

PMID: 22566954 PMC: 3342343. DOI: 10.3389/fimmu.2012.00073.

Macrophages: contributors to allograft dysfunction, repair, or innocent bystanders?.

Mannon R Curr Opin Organ Transplant. 2011; 17(1):20-5.

PMID: 22157320 PMC: 3319132. DOI: 10.1097/MOT.0b013e32834ee5b6.