Critical Role for CD103+CD8+ Effectors in Promoting Tubular Injury following Allogeneic Renal Transplantation

Yuan, Rongwen; El-Asady, Riham; Liu, Kechang; Wang, Donghua; Drachenberg, Cinthia B.; Hadley, Gregg A.

doi:10.4049/jimmunol.175.5.2868

Cited by 55 publications

(40 citation statements)

References 49 publications

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“…There are some limitations to all these models, leaving open the question of whether the effector mechanisms are model specific, differing between islet and solid organ transplantation. A recent study (23) investigating the role of CD103 + CD8 + effector cells in rat kidney allografts, using a monoclonal antibody to CD103 to reduce accumulation of CD8 + cells in the graft, also concluded that CD103 was not essential for tubulitis or tubular injury, Histology, E-cadherin staining and tubular surface area in normal kidneys (NCBA), isografts and allografts rejecting in wild-type hosts (WT) or in hosts lacking granzyme A and B (GzmAB −/− ) or perforin (Prf −/− ) at day 21 1 1 E-cadherin staining was scored as the percentage of tubules in the cortex area with positive staining (<25%: 1; 25-75%: 2; >75%: 3); staining intensity was scored as weak (1), intermediate (2) or strong (3). Separate scores were obtained for staining of the basolateral or apical membrane.…”

Section: Loss Of Cadherins In Kidney Allograft Rejectionmentioning

confidence: 98%

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Tubulitis and Epithelial Cell Alterations in Mouse Kidney Transplant Rejection Are Independent of CD103, Perforin or Granzymes A/B

Einecke¹,

Fairhead²,

Hidalgo³

et al. 2006

American Journal of Transplantation

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One of the defining lesions of kidney allograft rejection is epithelial deterioration and invasion by inflammatory cells (tubulitis). We examined epithelial changes and their relationship to effector T cells and to CD103/E-cadherin interactions in mouse kidney allografts. Rejecting allografts showed interstitial mononuclear infiltration from day 5. Loss of epithelial mass, estimated by tubular surface area, and tubulitis were minimal through day 7 and severe by day 21. Tubules in day 21 allografts manifested severe reduction of E-cadherin and Ksp-cadherin by immunostaining with redistribution to the apical membrane, indicating loss of polarity. By flow cytometry T cells isolated from allografts were 25% CD103 + . Laser capture microdissection and RT-PCR showed increased CD103 mRNA in the interstitium and tubules. However, allografts in hosts lacking CD103 developed tubulitis, cadherin loss, and epithelial deterioration similar to wild-type hosts. The loss of cadherins and epithelial mass was also independent of perforin and granzymes A and B. Thus rejection is characterized by severe tubular deterioration associated with CD103 + T cells but not mediated by CD103/cadherin interactions or granzyme-perforin cytotoxic mechanisms. We suggest that alloimmune effector T cells mediate epithelial injury by contact-independent mechanisms related to delayed type hypersensitivity, followed by invasion of the altered epithelium to produce tubulitis.

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Section: Loss Of Cadherins In Kidney Allograft Rejectionmentioning

confidence: 98%

“…+ effector cells in rat kidney allograft rejection found that treatment with a monoclonal antibody to CD103 reduced accumulation of CD8 + cells in graft renal tubules and attenuated tubular injury in cyclosporine-treated rats (23). In contrast, in rats with a fully functional immune system, i.e.…”

Section: Cd8mentioning

confidence: 99%

Tubulitis and Epithelial Cell Alterations in Mouse Kidney Transplant Rejection Are Independent of CD103, Perforin or Granzymes A/B

Einecke¹,

Fairhead²,

Hidalgo³

et al. 2006

American Journal of Transplantation

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“…Expression of ␣ E (CD103)␤ 7 appears to be associated with cytotoxic activity of CD8 ϩ T cells in graft-versus-host disease and allogeneic transplantation. 19,20 Along this line, interactions of ␣ E (CD103)␤ 7 with E-cadherin are crucial for lysis of E-cadherin ϩ tumor cells by cytotoxic T cells in some cases. 21 Moreover, expression of ␣ E (CD103)␤ 7 is associated with several important cellular activities such as antigen presentation 22 or stimulation of T reg 23 and some mucosal CD8 ϩ T cells 24,25 by ␣ E (CD103)␤ 7 ϩ dendritic cells.…”

Section: Introductionmentioning

confidence: 99%

Integrin αE(CD103)β7 influences cellular shape and motility in a ligand-dependent fashion

Schlickum

Sennefelder

Friedrich

et al. 2008

Blood

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While the extravasation cascade of lymphocytes is well characterized, data on their intraepithelial positioning and morphology are scant. However, the latter process is presumably crucial for many immune functions. Integrin ␣ E (CD103)␤ 7 has previously been implicated in epithelial retention of some T cells through binding to E-cadherin. Our current data suggest that ␣ E (CD103)␤ 7 also determines shape and motility of some lymphocytes. Time-lapse microscopy showed that wild-type ␣ E (CD103)␤ 7 conferred the ability to form cell protrusions/filopodia and to move in an amoeboid fashion on E-cadherin, an activity that was abrogated by ␣ E (CD103)␤ 7 -directed antibodies or cytochalasin D. The ␣ E -dependent motility was further increased (P < .001) when point-mutated ␣ E (CD103) locked in a constitutively active conformation was expressed. Moreover, different yellow fluorescent protein-coupled ␣ E (CD103) species demonstrated that the number and length of filopodia extended toward purified E-cadherin, cocultured keratinocytes, cryostat-cut skin sections, or epidermal sheets depended on functional ␣ E (CD103). The in vivo relevance of these findings was demonstrated by wild-type dendritic epidermal T cells (DETCs), which showed significantly more dendrites and spanned larger epidermal areas as compared with DETCs of ␣ E (CD103)-deficient mice (P < .001). Thus, integrin ␣ E (CD103)␤ 7 is not only involved in epithelial retention, but also in shaping and proper intraepithelial morphogenesis of some leukocytes. IntroductionPositioning and locomotion of leukocytes within tissues provide the basis for the molecular crosstalk with other cells and are prerequisites for a functional immune system. To date, the recruitment cascade of initial endothelial adhesion, activation, firm adhesion, transmigration, and subsequent localization into the connective tissue is one of the best established concepts in leukocyte biology. 1,2 However, many effector functions of immunocytes are exerted within parenchymatous organs, mostly epithelia. It is therefore somewhat surprising that we know relatively little about locomotion and function-determining morphogenesis of lymphocytes within epithelial tissues, such as the epidermis of the skin. 3 An adhesion receptor that is thought to mediate retention of lymphocytes within epithelial tissues is integrin ␣ E (CD103)␤ 7 . 4 First described 2 decades ago as a selective marker for intestinal intraepithelial lymphocytes, 5 ␣ E (CD103)␤ 7 has been implicated in epithelial T-cell retention through binding to E-cadherin. 6,7 Indeed, ␣ E (CD103)-deficient mice exhibited a reduced number of mucosal intraepithelial T cells. 8 However, ␣ E (CD103)␤ 7 has later been found to be also expressed by some lymphocytes within other epithelia, such as the epidermis of the skin, 9 where it presumably contributes to recruitment of T cells in inflamed human skin 10 as well as dendritic epidermal T cells (DETCs) in murine skin. 11 Thymic DETC precursor cells express integrin ␣ E (CD103)␤ 7 before their migration ...

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“…We previously reported that CD103 plays an essential role in TCR-dependent tumor-cell killing through interaction with its ligand, the epithelial cell marker E-cadherin on target cells (6). This integrin has also been associated with the cytotoxicity of CD8 þ T cells in several pathologies, including graft-versus-host disease (GVHD; 7), allogeneic transplant rejection (8)(9)(10), and autoimmune diseases (11,12). CD103 is frequently expressed on intraepithelial lymphocytes (IEL; 13) as well as on a subpopulation of CD3 þ / CD8 þ TIL (6,(14)(15)(16), CD4 þ /CD25 þ Treg cells (17), and dendritic cells (18).…”

Section: Introductionmentioning

confidence: 99%

Minimal Engagement of CD103 on Cytotoxic T Lymphocytes with an E-Cadherin-Fc Molecule Triggers Lytic Granule Polarization via a Phospholipase Cγ–Dependent Pathway

et al. 2011

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Interaction of the integrin a E (CD103)b 7 expressed on tumor-infiltrating lymphocytes (TIL) with E-cadherin on epithelial tumor cells is required to trigger polarized exocytosis of cytotoxic granules in TIL that elicit tumor cell lysis. In this study, we investigated the functional and signaling properties of CD103 and its individual contribution to T-cell-mediated cancer-cell killing. Our results indicated that the binding of CD103 on tumor-specific CTL to immobilized recombinant E-cadherin-Fc is sufficient to induce the polarization of cytolytic granules, whereas the degranulation of cytolytic granules also requires the coengagement of the T-cell receptor. Moreover, minimal CD103 triggering promotes the phosphorylation of the ERK1/2 kinases and phospholipase Cg1 (PLCg1). Inhibiting PLCg blocks granule relocalization, decreasing T-cell receptor-mediated cytotoxicity. Thus, our results emphasize a unique costimulatory role of CD103 in tumor-specific CTL activation by providing signals that promote T-cell effector functions needed to specifically target and lyse cancer cells.Cancer Res; 71(2); 328-38. Ó2011 AACR.

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Critical Role for CD103+CD8+ Effectors in Promoting Tubular Injury following Allogeneic Renal Transplantation

Cited by 55 publications

References 49 publications

Tubulitis and Epithelial Cell Alterations in Mouse Kidney Transplant Rejection Are Independent of CD103, Perforin or Granzymes A/B

Tubulitis and Epithelial Cell Alterations in Mouse Kidney Transplant Rejection Are Independent of CD103, Perforin or Granzymes A/B

Integrin αE(CD103)β7 influences cellular shape and motility in a ligand-dependent fashion

Minimal Engagement of CD103 on Cytotoxic T Lymphocytes with an E-Cadherin-Fc Molecule Triggers Lytic Granule Polarization via a Phospholipase Cγ–Dependent Pathway

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