The role of respiratory epithelium in a rat model of obliterative airway disease

BACKGROUND: The etiology and pathogenesis of obliterative bronchiolitis after lung transplantation remain to be fully elucidated. Using a rat model of heterotopically transplanted trachea grafts, we have examined the role airway epithelium plays in obliterative airway disease (OAD). METHODS: Rat trachea isografts were denuded of epithelium by protease digestion. Grafts were inoculated either with or without native airway epithelial cells and transplanted into the omentum of recipient animals. RESULTS: Airway epithelium removal resulted in OAD in denuded isogeneic trachea grafts. Reseeding of the denuded grafts with epithelial cells significantly reduced airway obliteration from 78% to 22% luminal occlusion. CONCLUSIONS: Non-immune-mediated injury will cause OAD, and epithelial cell replacement in denuded isografts can significantly reduce the fibrotic progression of the disease.     

Specific immune responses against airway epithelial cells in a transgenic mouse-trachea transplantation model for obliterative airway disease

BACKGROUND: Immune injury to airway epithelium is suggested to play a central role in the pathogenesis of obliterative bronchiolitis (OB) after clinical lung transplantation. In several studies, a rejection model of murine trachea transplants is used, resulting in obliterative airway disease (OAD) with similarities to human OB. To focus on the role of an immune response specifically against airway epithelium, we transplanted tracheas from transgenic mice expressing human epithelial glycoprotein (hEGP) on epithelial cells. We hypothesized that the immune response against the hEGP-2 antigen would result in OAD in the trachea transplants. METHODS: Tracheas from hEGP-2 transgenic and control nontransgenic FVB/N mice were heterotopically transplanted into FVB/N mice and harvested at week 1, 3, 6, and 9. Anti-hEGP-2 antibodies were determined in the recipient blood. The trachea grafts were analyzed for cellular infiltration, epithelial cell injury, and luminal obliteration. RESULTS: Recipients of transgenic tracheal grafts gradually developed anti-hEGP-2 antibodies. In the transgenic grafts, the submucosa was infiltrated predominantly by CD4+ T cells. Epithelial cells remained present but showed progressive abnormality. The tracheal lumen showed a mild degree of obliteration. All these changes were absent in nontransgenic FVB/N trachea transplants. CONCLUSION: The hEGP-2 antigen on the epithelial cells of transgenic trachea transplants induces specific humoral and cellular immune responses, leading to a mild form of OAD. It provides a suitable model for further investigation of the role of epithelial cells in the development of OAD in animals and OB in human-lung transplantation.     

Immunosuppressive therapies for the prevention and treatment of obliterative airway disease in heterotopic rat trachea allografts

BACKGROUND: Obliterative bronchiolitis remains a major long-term complication after lung transplantation. Using a reproducible model of heterotopically transplanted rat tracheas, this study examined the role of several novel immunosuppresive compounds to prevent and reverse obliterative airway disease in these animals. METHODS: Brown Norway rat trachea were transplanted into the greater omentum of Lewis (allografts) or Brown Norway (isografts) animals. Recipient animals were treated with rapamycin, cyclosporine, 15-deoxyspergulin, mycophenolate mofetil, or leflunomide from day 0, 7, or 14 until day of graft removal, either day 28 or 50. Trachea segments were evaluated for degree of lumenal occlusion, as well as percent and type of lumen epithelial cell coverage. RESULTS: All untreated allografted tracheas obliterated completely, although isografts appeared patent with normal respiratory epithelium when they were removed. Leflunomide, rapamycin, and cyclosporine effectively prevented obliteration when treatment was initiated at day 0, with rapamycin showing continued efficacy when initiated as late as day 7. 15-deoxyspergulin and mycophenolate mofetil failed to consistently inhibit obliteration with any treatment schedule. An inverse correlation was found between epithelial coverage and degree of obliteration, and was especially pronounced in grafts from cyclosporine-treated animals. CONCLUSIONS: Immunosuppressive drug therapy will inhibit airway obliteration, but efficacy sharply diminishes if initiation of treatment is delayed. Efficacy also varies among immunosuppressive compounds, and results indicate those drugs that enable epithelial regrowth most effectively inhibit airway graft obliteration.     

Epithelial Kinetics in Mouse Heterotopic Tracheal Allografts

Obliterative bronchiolitis (OB) is the most important cause of graft dysfunction post-lung transplantation. It is likely that the small airway epithelium is a target of the alloimmune response, and that epithelial integrity is a crucial determinant of airway patency. Our goals are to elucidate epithelial cell kinetics in the heterotopic mouse trachea model and to determine potential mechanisms of cell death in allografts. Allografts and isografts were obtained by transplanting BALB/c tracheas into C57BL/6 and BALB/c immunosuppressed and non-immunosuppressed hosts, respectively and harvested from day 3-20. Morphometry, BrdU and TUNEL labeling, and EM studies were performed. Columnar epithelium in isografts and allografts sloughs during day 0-3, but regenerates in both sets of grafts by day 10. Subsequently, allografts become inflamed and denuded, while isografts retain an intact epithelium. Prior to airway denudation, allografts exhibited significantly increased epithelial cell density, BrdU labeling index (LI), and TUNEL positive cells. Epithelial apoptosis was confirmed by electron microscopy. Allograft percent ciliated columnar epithelium and lumenal circumference were significantly decreased. Cyclosporin delayed airway fibrosis but did not alter the progression of the allograft through the phases of early ischemic injury, airway epithelial cell regeneration, and eventual cell death. These studies quantitatively demonstrate that the allograft epithelium actively regenerates in the alloimmune environment, but succumbs to increased apoptotic cell death, underscoring the importance of the airway epithelium as a self-renewing source of alloantigen.     

Epithelial re-growth is associated with inhibition of obliterative airway disease in orthotopic tracheal allografts in non-immunosuppressed rats

BACKGROUND: Because epithelial cells are targets of alloimmune injury leading ultimately to airway obliteration, we tested whether epithelial re-growth could prevent obliterative airway disease (OAD) in orthotopic tracheal allografts. METHODS: Brown Norway tracheal segments were orthotopically transplanted into nonimmunosuppressed Lewis rats. Allografts were removed on days 2-10 (n=13), 30 (n=4), and 60 (n=5) for histology, computerized morphometry (obliteration), and immunohistochemical detection of mononuclear cells, smooth muscle alpha-actin, and tissue phenotype. Normal tracheas, host tracheas, and heterotopically transplanted allografts served as controls. RESULTS: Orthotopic allografts removed on days 2-10 exhibited epithelial damage and re-growth and mononuclear cell infiltration. On days 30 and 60, partially ciliated cuboidal or attenuated epithelium completely covered the lumen. Although mononuclear cells declined, numerous T cells with a high CD4/CD8 ratio were found in the epithelium till day 60. Orthotopic allograft epithelium expressed donor phenotype on day 7, but recipient phenotype on days 30 and 60. Despite subepithelial alpha-actin positive myofibroblast proliferation, obliteration did not progress from day 7 to 30 and 60 (35, 30, and 33%, respectively). Although more than in normal or host tracheas, the obliteration in orthotopic allografts on days 30 and 60 was significantly less (P<0.001) than in heterotopic allografts. CONCLUSIONS: We describe, for the first time, longterm patency of fully histoincompatible orthotopic tracheal allografts in nonimmunosuppressed rats. Despite acute alloimmune injury and induction of myofibroblast proliferation, epithelial re-growth from the host limited the progression of OAD, thus emphasizing the role of epithelium in the control of airway obliteration.     

Blocking the CD28-B7 T-cell costimulatory pathway abrogates the development of obliterative bronchiolitis in a murine heterotopic airway model

BACKGROUND: CTLA4IgG that binds to B7 effectively inhibits the signaling of CD28/B7 pathway and induces antigen-specific T-cell unresponsiveness in vitro and in vivo. We examined whether the development of obliterative bronchiolitis in a murine heterotopic airway transplantation model is T cell dependent and whether CTLA4IgG abrogates the development of obliterative bronchiolitis. METHODS: Tracheae with main bronchi from C3H/He (H2k), BALB/C (H2d), or C57BL/6 (H2b) mice were transplanted heterotopically into subcutaneous pockets on the backs of BALB/C or BALB/C nu/nu mice on day 0. Recipient mice were untreated or intraperitoneally treated with either CTLA4IgG or human IgG with different time and dose schedules. RESULTS: The development of obliterative bronchiolitis, which leads to luminal obliteration by fibrous tissue in a murine heterotopic airway transplantation model, was T cell dependent and the development of obliterative bronchiolitis was significantly abrogated by the CTLA4IgG treatment. However, the normal ciliated columnar respiratory epithelial cells in allografts were lost and replaced by flattened attenuated epithelial cells even after the CTLA4IgG treatment. We further demonstrated that CTLA4IgG treatment did not result in the induction of donor-specific unresponsiveness. CONCLUSIONS: We demonstrated that the development of obliterative bronchiolitis in a murine heterotopic airway model involves both CD28/B7-dependent and -independent processes. The luminal obliteration by fibrous tissue is clearly CD28/B7 dependent and can be inhibited by CTLA4IgG. The luminal obliteration of allografted trachea by fibrous tissues and the loss of ciliated columnar respiratory epithelial cells represent distinct disease processes.     

Donor antigen-presenting cells are important in the development of obliterative airway disease

OBJECTIVE: Obliterative airway disease, which resembles obliterative bronchiolitis histologically, develops in murine heterotopic tracheal allografts. Chimeric tracheas were used to examine whether donor-type antigen-presenting cells are important in the development of obliterative airway disease. To separate the contributions of CD4(+) and CD8(+) direct pathways, we transplanted tracheas from knockout mice lacking major histocompatibility complex (MHC) class I or II antigens. METHODS: Chimeric tracheas were created via bone marrow transplantation in fully MHC-mismatched combinations. Tracheas from naive B6, autologously reconstituted B6, chimeric B6 bearing recipient-type C3H antigen-presenting cells, MHC class I knockout B6 (B6(I-)), MHC class II knockout B6 (B6(II-)), or C3H mice were transplanted into C3H recipients. The tracheas were harvested at days 14 and 28. RESULTS: At day 28, isografts showed no occlusion, normal respiratory epithelium, and minimal infiltrates. Naive or autologously reconstituted B6, B6(I-), and B6(II-) tracheas showed minimal occlusion at day 14 but contained intraepithelial infiltrates. By day 28, the naive or autologously reconstituted B6 tracheas had occlusion of 69.5% +/- 11.6% (mean +/- standard error of the mean), and in comparison, B6(I-) and B6(II-) tracheas had occlusions of 53.0% +/- 16.3% and 52.2% +/- 15.9%, respectively (P =. 20,.19). In chimeric B6 tracheas, minimal occlusion was seen at day 14 and remained 33.6% +/- 16.2% (P =.039) at day 28. Subtle epithelial changes and minimal infiltrates were seen. CONCLUSIONS: Obliterative airway disease appears to involve donor-type antigen-presenting cells and develops in the absence of either MHC class I or II antigens. These findings suggest that either CD8(+) or CD4(+) direct allorecognition is important in the development of obliterative airway disease.     

Respiratory epithelial expression of integrin alphaVbeta6 in chronic progressive allograft rejection.

BACKGROUND: Obliterative bronchiolitis (OB) is the major cause of morbidity and mortality after lung transplantation. One initiating event in the development of obliteration of the airway lumen is epithelial injury. In our model of chronic rejection, initial ischemic injury and denudation of the epithelium occurs in the isografts, with eventual re-epithelialization and partial patency of the airway lumen. In contrast, allografts do not recover epithelium, and the airway lumen becomes obliterated. We hypothesized that because integrin alphaVbeta6 is expressed in healing epithelium, integrin alphaVbeta6 expression would be greatly increased in isografts, but not in allografts. METHODS: Using a rat tracheal allograft rejection model as a source of 4- to 5-microm tissue sections, we compared integrin staining in allografts vs isografts from animals at post-transplant Days 7, 14, 28, and 60. We analyzed the sections using immunohistochemistry after incubation with a specific monoclonal antibody E7P6 against integrin alphaVbeta6. Negative control slides were processed identically, except that primary antibody was omitted. RESULTS: The sections from healing, re-epithelializing isografts showed intense staining when using the antibody recognizing integrin alphaVbeta6, compared with the allografts studied. Days 7 and 14 isografts had increased epithelial expression of alphaVbeta6. As the isograft epithelium recovered, the intensity diminished at Days 28 and 60. In allografts, at Days 7 to 60, we detected only a comparatively low-level of expression in injured epithelium. CONCLUSIONS: Integrin alphaVbeta6 is readily detectable in healing isografts. Integrin alphaVbeta6 may be crucial in maintaining a viable epithelial cell layer, which is related to slowed progression of airway obliteration in OB.     

Nitric oxide in the development of obliterative bronchiolitis in a heterotopic pig model

BACKGROUND: Inflammation, epithelial cell injury, and development of fibrosis and airway obliteration are the major histological features of posttransplant obliterative bronchiolitis (OB). The expression of inducible nitric oxide synthase (iNOS) in the damaged epithelium, accompanied by peroxynitrite, suggests that endogenous nitric oxide (NO) mediates the epithelial destruction preceding obliteration. To elucidate the role of NO in this cascade, heterotopic bronchial allografts were studied in pigs. METHODS: Allografts or autografts were harvested serially 3-90 days after transplantation and processed for histology and immunocytochemistry for iNOS, nitrotyrosine, a marker of peroxynitrite formation, and superoxide dismutase (SOD). RESULTS: During initial ischemic damage to the epithelium, iNOS, nitrotyrosine, and SOD were found to be strongly expressed in the epithelium of all implants as well as later, after partial recovery, parallel to onset of epithelial destruction and subsequent airway obliteration in allografts. The levels of expression of iNOS in fibroblasts during the early phase of obliteration paralleled the onset of fibrosis. Constant expression of iNOS and SOD, but not nitrotyrosine, occurred in autografts and allografts with blocked alloimmune response. CONCLUSIONS: These findings suggest that an excessive amount of NO promotes posttransplant obliterative bronchiolitis by destroying airway epithelium and stimulating fibroblast activity. SOD may provide protection by binding reactive molecules and preventing peroxynitrite formation.     

Obliterative airway disease progresses in heterotopic airway allografts without persistent alloimmune stimulus

BACKGROUND: Up to 50% of human lung allografts develop chronic rejection manifested as obliterative bronchiolitis (OB). This complication frequently progresses despite maximal immunosuppression, suggesting that, once initiated, factors other than alloimmunity play a role in its progression. In animals, heterotopically transplanted allograft airways develop obliterative airway disease (OAD), an immunologically mediated lesion that is used as a preclinical model of OB. We sought to determine whether OAD would progress even after removal from the alloimmune environment. METHODS: Tracheas from Lewis rats were transplanted subcutaneously into Brown Norway recipients to create allografts. After 7 or 14 days of alloimmune stimulus, these allografts were removed and retransplanted into an isogeneic environment for an additional 21 days. Histology was assessed at each time point, with quantitation of the airway epithelium and intraluminal fibroproliferation. RESULTS: Allografts exposed to 14 days of alloimmune stimulus had a significant loss of airway epithelium compared with grafts exposed to only 7 days ( <0.001). There was little fibroproliferation seen in either of these groups. After retransplantation, the grafts initially exposed to 7 days of alloimmune stimulus had few abnormalities. In contrast, the group exposed initially to 14 days of alloimmunity and retransplanted had near complete obliteration of the lumen with fibroproliferation (96.9% occlusion, =0.001) and absent airway epithelium. CONCLUSIONS: OAD progresses despite removal of alloimmunity if the initial period of alloimmune injury is sufficient. Airway epithelial loss correlated with progression to fibroproliferation, suggesting that the epithelium plays a significant role in the pathogenesis of OB.     

同种异体大鼠气管腹腔移植后闭塞性细支气管炎发生机制探讨

目的建立肺移植后闭塞性细支气管炎动物模型,对其发病机制进行初步探讨。方法新鲜SD大鼠气管（每段5环）异位移植到SD大鼠（Ⅰ组）和Wistar大鼠（Ⅱ、Ⅲ组）腹腔并用大网膜包裹,Ⅰ、Ⅱ组不接受环孢菌素A（CsA）,Ⅲ组全程接受CsA10mg·kg^-1·d^-1。分别在3、14、28d后取出移植气管检测形态学改变和Th1（IL-2、IFN-γ）／Th2（IL-4、IL-10）细胞因子表达,并观察CsA对上述指标的影响。结果术后3d时3组气管形态学变化差异无统计学意义（P〉0．05）。14d时Ⅰ组气管形态基本恢复;Ⅱ、Ⅲ组上皮细胞几乎全部缺失,差异无统计学意义（P〉0．05）,与Ⅰ组区别明显（P〈0．01）;Ⅱ组管腔阻塞（28．5±5．0）％,淋巴细胞密集浸润,Ⅲ组阻塞（19．4±2．9）％,较多淋巴细胞分布,3组差异有统计学意义（P〈0．01）。28d时Ⅰ组形态正常,Ⅱ组管腔阻塞（94．8±3．6）％,浸润淋巴细胞有所减少,Ⅲ组阻塞（36．6±7．6）％,淋巴细胞分布减少,3组差异有统计学意义（P〈0．01）。Ⅱ组Th1／Th2细胞因子表达比Ⅰ组明显升高。与Ⅰ组相比,Ⅱ组Th1细胞因子表达比Th2细胞因子升高更为显著。Ⅲ组IL-2表达比Ⅱ组明显减少,但2组IFN-γ、IL-4、IL-10表达差异没有统计学意义。结论同种异体移植物在上皮细胞损害、纤维性细胞增生以及淋巴细胞浸润等方面较同系移植物有明显变化。Th1／Th2促进了同种异体大鼠异位移植气管闭塞性细支气管炎（OB）的发生,其细胞因子可能介入了OB的发病机制。CsA减少管腔阻塞和淋巴细胞浸润,但对于移植物上皮没有明显保护作用。CsA抑制IL-2基因转录,在一定程度上减少了OB病理性损害。     

Obliterative airway disease and graft stenting in pig-to-dog tracheal xenotransplantation

OBJECTIVE: Obliterative airway disease occurring in concordant tracheal xenografts in rodent models is histologically similar to obliterative bronchiolitis in human lung allografts. We studied whether obliterative airway disease would occur in a large animal-discordant model. METHODS: Pig and dog tracheas were cryopreserved for 7 to 14 days, and 18 recipient dogs given splenectomy 7 days before transplantation, then seven tracheal rings were removed and a corresponding five-ring donor tracheal segment was transplanted to the excised site. Grafts were wrapped with pedicled omentum and inmmunosuppression was conducted with tacrolimus or deoxyspergualin. Graft status was observed by bronchoscopy. Dogs were classified into three groups. Group 1 consisted of dog-to-dog allotransplantation animals (control group, n = 5), Group 2 of pig-to-dog xenotransplantation animals (n = 8), and Group 3 of pig-dog xenotransplantation animals who also underwent graft stenting immediately after transplantation (n = 5). RESULTS: Grafts healed well in 4 of 5 Group 1 dogs. Tracheal stricture began on day 5 post transplantation and the lumen was obstructed by fibrosis by days 8 to 14 in all Group 2 dogs. All Group 3 dogs remained in good respiratory status until death. CONCLUSION: Obliterative airway disease developed quickly in pig-to-dog discordant tracheal xenografts. Graft stenting is a feasible treatment for managing of tracheal obstruction.     

Tracheal allograft transplantation in rats: the role of different immunosuppressants on preservation of respiratory epithelium

BACKGROUND: Bronchiolitis obliterans is the most significant complication adversely affecting the survival of lung allograft recipients. Injury and loss of epithelium are associated with obliteration of the airway lumen. The aim of this study was to examine the effects of various immunosuppressants on airway epithelium. METHODS: Tracheae from Brown Norway donors were heterotopically transplanted into the greater omentum of Lewis (allografts) or Brown Norway (isografts) animals. Recipients were treated for 28 days with FK778 (20 mg/kg), tacrolimus (4 mg/kg), or sirolimus (2 mg/kg). Tracheal segments were evaluated for the degree of luminal occlusion as well as the type and percent of luminal epithelial cell coverage. RESULTS: All agents inhibited peritracheal infiltration and luminal obliteration. Tacrolimus- more than sirolimus-treated recipients showed partial preservation of the luminal epithelial coverage, whereas animals that received FK778 showed no respiratory epithelium. The epithelial loss was accompanied by the appearance of fibrous tissue, which replaced the mucosa. CONCLUSIONS: Tacrolimus as well as sirolimus effectively prevented the development of obliterative airway disease whereas tacrolimus and, to a lesser degree, sirolimus preserved epithelial cells as a source of protective cytokines. With FK778 significant airway obliteration was suppressed despite complete epithelial loss. Thus, FK778-treated animals displayed an epithelial-independent inhibitory effect on myofibroblast proliferation.     

Prolonged inhibition of obliterative airway disease in murine tracheal allografts by brief treatment with anti-leukocyte function-associated antigen-1 (CD11a) monoclonal antibody.

BACKGROUND: We have previously shown that anti-leukocyte function-associated antigen (LFA)-1 (CD11a) monoclonal antibody (mAb) prevents acute rejection and produces donor-specific unresponsiveness in murine recipients of heterotopic heart allografts. Here, we investigate the ability of this mAb to prevent the development of obliterative airway disease (OAD) in murine recipients of tracheal allografts. METHODS AND RESULTS: BALB/c tracheae were heterotopically transplanted into C3H mice. OAD developed by day 28 after transplantation and was characterized histologically by a loss of epithelial cell coverage and luminal obliteration of the tracheal allograft with a proliferation of fibrogenic mesenchymal cells, which is a lesion comparable to obliterative bronchiolitis in human lung transplant recipients. Monotherapy with anti-LFA-1 mAb preserved graft epithelium, prevented the development of OAD, and maintained unresponsiveness to donor antigen for more than 42 days after the final mAb administration. CONCLUSION: These findings suggest the potential for anti-LFA-1 mAb therapy to suppress both acute and chronic rejection in clinical lung transplantation.     

CTLA4Ig-gene transfection inhibits obliterative airway disease in rats

BACKGROUND: Obliterative airway disease (OAD) is a major cause of long-term morbidity following lung transplantation. Its pathologic characteristics are small-airway inflammation and occlusion by fibrous tissue. However, the pathogenesis is uncertain and therapy is ineffective. This study presents the effects of CTLA4Ig-gene therapy on OAD in heterotopically transplanted rat tracheal allografts. METHODS: Dark Agouti (DA, RT1a) allografts and Lewis (LEW, RT1l) isografts were transplanted into Lewis recipients. The tracheal graft was transplanted heterotopically into the subcutaneous pocket into the back. Adenoviral vectors (1.0x10(9) pfu) containing the CTLA4Ig-gene (AdCTLA4Ig) or the LacZ-gene (AdLacZ) were injected into the tail vein immediately after grafting. Grafts were harvested and examined after more than 35 days for mononuclear cell infiltration development and lumen occlusion with fibrosis. RESULTS: Fully allogenic DA tracheas, treated with AdCTLA4Ig had significantly lower pathologic scores and infiltrating scores than the control allografts. The pathologic findings of the grafts, treated with AdCTLA4Ig, were very similar to those of the syngeneic grafts. The animals experienced no adverse events during follow-up. No evidence of vector-mediated tissue damage was seen in any graft. CONCLUSIONS: Adenoviral vectors containing the CTLA4Ig-gene markedly inhibited the obliteration of the airway lumen. OAD may be associated with T-cell responses against graft tissue and alloimmune injury.     

A comparison of rat tracheal transplant models: implantation verses anastomotic techniques for the study of airway rejection

BACKGROUND: In rodent models, investigators have transplanted donor tracheas into a recipient rat's abdomen or s.c. tissue to study airway rejection. We describe a modification of this model, which provides improved histology to study the airway injury related to obliterative bronchiolitis. METHODS: The standard technique of implanting the donor trachea was compared to a model in which a tracheal Y graft was created by anastomosis of the donor trachea to the recipient airway. Syngeneic and allogeneic tracheal grafts (Lewis and Brown Norway rats) were harvested at 2 and 4 weeks using each model (eight groups). RESULTS: Gross patency at the tracheal anastomosis grafts was 100%. All donor tracheas, which were implanted without an anastomosis, were occluded with mucus (syngeneic) or granulation tissue (allogeneic). Syngeneic implant grafts demonstrated significantly less lumenal granulation tissue 35.3%+/-32 than the allograft implant group (95.3%+/-9.2, P=0.0005 at 4 weeks). The anastomotic allograft group demonstrated significantly less lumenal granulation tissue 48.3%+/-23.7 when compared with the implanted allograft group (P=0.003). The implanted allograft demonstrated a severe loss of epithelial integrity by 2 weeks (16.7%+/-38), which progressed to complete loss by 4 weeks (P=0.0001 and P=0.0001 vs. native). This loss was significantly more than that of the anastomotic group at 2 weeks (89.5%+/-13, P=0.004) and 4 weeks (88.3+/-29, P=0.005). CONCLUSIONS: The rat tracheal allograft anastomosed to the recipient airway demonstrated less lumenal granulation tissue obstruction and better preservation of epithelial integrity than an implant allograft, suggesting that an open airway improves assessment of transplant-related changes associated with rejection.     

The role of cyclosporine A and interleukin-2 in obliterative airway disease in a rat tracheal transplant model.

The pathogenesis of obliterative bronchiolitis (OB) following lung and heart-lung transplantation remains unclear. We evaluated the role of CsA and IL-2 on the development of obliterative airway disease (OAD) by administrating exogenous IL-2 in a CsA-treated rat tracheal transplant model. Tracheal grafts were implanted into the peritoneal cavity from Brown Norway (BN) to BN rats or to Lewis (LEW) rats. Allotransplant: No treatment was given in group 1. Short-term CsA (25 mg/kg, i.m. on POD 2 and 3) was used in group 2. Group 3 was treated with long-term CsA (25 mg/kg, i.m. on POD 2 and 3, followed by 5 mg/kg on POD 4 to 27). Administration of IL-2 (300, 000 IU/kg, i.p. on POD 15 to 19 and 22 to 26) was performed to long-term CsA treated rats in group 4. Isotransplant: No treatment was given to group 5, group 6 was treated with IL-2 (same regimen as in group 4). Grafts were harvested at different time points after Tx for histological assessment. No luminal obliteration was observed in group 5 and 6. Complete luminal obliteration was noted 4 weeks after Tx in group 1. In group 2 and 3, obliterative lesion occurred 4-6 weeks after CsA withdrawal. IL-2 increased epithelial loss, lymphocytic infiltration, and obliterative changes in group 4. Our results suggest that OAD is an immune mediated disorder. Furthermore, administration of exogenous IL-2 might be able to abrogate the protection from OAD by CsA therapy.     

Combination treatment with FTY720 and CTLA4IgG preserves the respiratory epithelium and prevents obliterative disease in a murine airway model.

BACKGROUND: Mouse heterotopic tracheal transplantation offers a reproducible model of obliterative bronchiolitis after lung transplantation. CTLA4IgG inhibits signaling of the CD28/B7 pathway and induces antigen-specific T-cell unresponsiveness. FTY720 induces T-cell apoptosis and sequestration of circulating mature lymphocytes. We previously found that CTLA4IgG could prevent the development of obliterative airway disease but could not preserve the respiratory epithelium of grafted tracheae. We evaluated whether treatment with either FTY720 or CTLA4IgG, or with combination FTY720 and CTLA4IgG could preserve the respiratory epithelium and inhibit the development of obliterative airway disease. METHODS: Tracheae with main bronchi from C3H/He mice were transplanted heterotopically into BALB/C mice and harvested on Day 35. Recipient mice received either no treatment or treatment with intraperitoneal FTY720, CTLA4IgG, or the combination of the 2. RESULTS: Either FTY720 or CTLA4IgG alone significantly inhibited the development of obliterative airway disease. However, normal ciliated columnar respiratory epithelial cells were lost in the allografts. In contrast, combination therapy preserved the respiratory epithelium of the allografted tracheae. FTY720 concentration in the tissue was very high; treatment with FTY720 inhibited mixed lymphocyte reactions and augmented T-cell apoptosis. CONCLUSION: Combination treatment with FTY720 and CTLA4IgG may prevent obliterative airway disease.     

Late airway changes caused by chronic rejection in rat lung allografts.

Airway disease after lung or heart-lung transplantation is one of late major complications, affecting the prognosis of the transplants. Little is known about the causes of airway changes. We performed rat lung transplantation and investigated the late airway changes of the long-term surviving lung grafts: allografts, BN to Lewis; isografts, BN to BN rat. All recipients were treated with CsA. We found airway changes, i.e., mucosal ulceration, granulation, submucosal fibrosis, which was located in the large airways, in four of five allografted lungs. The lung isografts showed no pathological abnormalities. Immunopathological studies disclosed the localized expression of MHC class II antigens on the bronchial epithelium of the large airways where recipient type dendritic cells accumulated in the submucosa and CD4 positive predominant lymphocytes infiltrated. These findings support the idea that the late airway changes in lung transplants are caused by immunologically mediated chronic rejection.