Joren C. Madsen

International Society for Heart and Lung Transplantation working formulation of a standardized nomenclature for cardiac allograft vasculopathy-2010.

The development of cardiac allograft vasculopathy remains the Achilles heel of cardiac transplantation. Unfortunately, the definitions of cardiac allograft vasculopathy are diverse, and there are no uniform international standards for the nomenclature of this entity. This consensus document, commissioned by the International Society of Heart and Lung Transplantation Board, is based on best evidence and clinical consensus derived from critical analysis of available information pertaining to angiography, intravascular ultrasound imaging, microvascular function, cardiac allograft histology, circulating immune markers, non-invasive imaging tests, and gene-based and protein-based biomarkers. This document represents a working formulation for an international nomenclature of cardiac allograft vasculopathy, similar to the development of the system for adjudication of cardiac allograft rejection by histology.

Cardiac operations in patients 80 years old and older.

BACKGROUND Because the elderly are increasingly referred for operation, we reviewed results with cardiac surgical patients 80 years old or older. METHODS Records of 600 consecutive patients 80 years old or older having cardiac operations between 1985 and 1995 were reviewed. Follow-up was 99% complete. RESULTS Two hundred ninety-two patients had coronary grafting (CABG), 105 aortic valve replacement (AVR), 111 AVR + CABG, 42 mitral valve repair/ replacement (MVR) +/- CABG, and 50 other operations. Rates of hospital death, stroke, and prolonged stay (> 14 days) were as follows: CABG: 17 (5.8%), 23 (7.9%) and 91 (31.2%); AVR: 8 (7.6%), 1 (1.0%), and 31 (29.5%); AVR + CABG: 7 (6.3%), 12 (10.8%), and 57 (51.4%); MVR +/- CABG: 4 (9.5%), 3 (7.1%), and 16 (38.1%); other: 9 (18.0%), 3 (6.0%), and 23 (46.0%). Multivariate predictors (p < 0.05) of hospital death were chronic lung disease, postoperative stroke, preoperative intraaortic balloon, and congestive heart failure; predictors of stroke were CABG and carotid disease; and predictors of prolonged stay were postoperative stroke and New York Heart Association class. Actuarial 5-year survival was as follows: CABG, 66%; AVR, 67%; AVR + CABG, 59%; MVR +/- CABG, 57%; other, 48%; and total, 63%. Multivariate predictors of late death were renal insufficiency, postoperative stroke, chronic lung disease, and congestive heart failure. Eighty-seven percent of patients believed having a heart operation after age 80 years was a good choice. CONCLUSIONS Cardiac operations are successful in most octogenarians with increased hospital mortality, postoperative stroke, and longer hospital stay. Long-term survival is largely determined by concurrent medical diseases.

Induction of transplantation tolerance in adults using donor antigen and anti-CD4 monoclonal antibody.

The T-cell-mediated immune response usually results in the rapid destruction of organ allografts transplanted between murine strains incompatible for major and minor histocompatibility antigens. This response may be modified by pretreatment with either donor-specific antigen or anti-CD4 monoclonal antibody. Previous work by others has shown that combined treatment of mice with soluble protein antigens and anti-CD4 monoclonal antibody can produce antigen-specific B cell unresponsiveness that continues long after the nonspecific immunosuppressive effect of the mAb treatment has resolved. Following this principle we have shown that adult C3H/He mice can be made specifically unresponsive to vascularized C57BL/10 cardiac allografts by pretreating the recipient with donor alloantigen under the cover of a brief course of mAb against CD4. A full-dose response analysis shows that the dose of mAb is critically important for the successful induction of tolerance. Tolerance induction using this protocol is dependent on treatment with donor major histocompatibility complex antigens and occurs in the presence of marked depletion but not complete elimination of the CD4+ T cell subset. The unresponsiveness to alloantigen is antigen specific, as determined by the ineffectiveness of third-party (C57BL/10) alloantigen when combined with anti-CD4 mAb to induce long-term survival of BALB/c allografts in C3H/He recipients. The tolerant state is specific and effective in the long-term as indicated by the specific acceptance of C57BL/10 skin grafts in recipients with surviving C57BL/10 cardiac allografts. This study provides a simple method for the successful induction of specific transplantation tolerance in the adult across a full H-2 major and minor antigen mismatch strain combination. The results illustrate the important role of the CD4 molecule in the T cell response to alloantigen in vivo and suggest possibilities for the therapeutic manipulation of complex immune reactions.

A novel pathway of chronic allograft rejection mediated by NK cells and alloantibody.

Chronic allograft vasculopathy (CAV) in murine heart allografts can be elicited by adoptive transfer of donor specific antibody (DSA) to class I MHC antigens and is independent of complement. Here we address the mechanism by which DSA causes CAV. B6.RAG1−/− or B6.RAG1−/−C3−/− (H‐2b) mice received B10.BR (H‐2k) heart allografts and repeated doses of IgG2a, IgG1 or F(ab’)2 fragments of IgG2a DSA (anti‐H‐2k). Intact DSA regularly elicited markedly stenotic CAV in recipients over 28 days. In contrast, depletion of NK cells with anti‐NK1.1 reduced significantly DSA‐induced CAV, as judged morphometrically. Recipients genetically deficient in mature NK cells (γ‐chain knock out) also showed decreased severity of DSA‐induced CAV. Direct NK reactivity to the graft was not necessary. F(ab’)2 DSA fragments, even at doses twofold higher than intact DSA, were inactive. Graft microvascular endothelial cells responded to DSA in vivo by increased expression of phospho‐extracellular signal‐regulated kinase (pERK), a response not elicited by F(ab’)2 DSA. We conclude that antibody mediates CAV through NK cells, by an Fc dependent manner. This new pathway adds to the possible mechanisms of chronic rejection and may relate to the recently described C4d‐negative chronic antibody‐mediated rejection in humans.

Risk of Reoperative Valve Replacement for Failed Mitral and Aortic Bioprostheses

BACKGROUND One factor influencing the choice of mechanical versus bioprosthetic valves is reoperation for bioprosthetic valve failure. To define its operative risk, we reviewed our results with valve reoperation for bioprosthetic valve failure. METHODS Records of 400 consecutive patients having reoperative mitral, aortic, or mitral and aortic bioprosthetic valve replacement from January 1985 to March 1997 were reviewed. RESULTS Reoperations were for failed bioprosthetic mitral valves in 219 patients, failed aortic valves in 153 patients, and failed aortic and mitral valves in 28 patients. Including 26 operations (6%) for acute endocarditis, 153 operations (38%) were nonelective. One hundred nine patients (27%) had other valves repaired or replaced, and 72 (18%) had coronary bypass grafting. The incidence of death in the mitral, aortic, and double-valve groups was respectively, 15 (6.8%), 12 (7.8%), and 4 (14.3%); and the incidence of prolonged postoperative hospital stay (>14 days) was, respectively, 57 (26.0%), 41 (26.8%), and 8 (28.6%). Only 7 of 147 patients (4.8%) having elective, isolated, first-time valve reoperation died. Multivariable predictors (p < 0.05) of hospital death were age greater than 65 years, male sex, renal insufficiency, and nonelective operation; and predictors of prolonged stay were acute endocarditis, renal insufficiency, any concurrent cardiac operation, and elevated pulmonary artery systolic pressure. CONCLUSIONS Reoperative bioprosthetic valve replacement can be performed with acceptable mortality and hospital stay. The best results are achieved with elective valve replacement, without concurrent cardiac procedures.

NK Cells Can Trigger Allograft Vasculopathy: The Role of Hybrid Resistance in Solid Organ Allografts

Progressive arterial stenosis (cardiac allograft vasculopathy (CAV)) is a leading cause of long-term failure of organ transplants. CAV remains intractable, in part because its mechanisms are insufficiently understood. A central proposition is that MHC-driven alloimmune processes play a necessary role in CAV, as shown by the absolute requirement for histoincompatibility between donor and recipient for its production. Two immunological pathways have been implicated involving reactivity to donor MHC Ags by either T or B cells. In this study, we use a novel system of semiallogeneic cardiac transplants between parental donors and F1 hybrid recipients to provide evidence that NK cells, members of the innate immune system, also contribute to the generation of CAV in mice. This finding marks the first demonstration that the hybrid resistance phenomenon occurs in solid organ allografts. Extension of these experiments to recipients deficient in T cells demonstrates that this third pathway of CAV, the NK cell-triggered pathway, involves the recruitment of T cells not responsive to donor alloantigens. Finally, transplants performed with donors or recipients deficient in IFN-γ revealed that recipient-derived IFN-γ is necessary for CAV formation in parental to F1 transplants, suggesting a possible effector mechanism by which NK cells can promote CAV. Together, these results define a previously unknown pathway toward CAV and assign a novel role to NK cells in organ allograft rejection.

Enhanced In Vivo Function of Bioartificial Lungs in Rats

BACKGROUND More than 11 million Americans live with chronic lung disease; in search for an alternative to donor organs, we attempted to regenerate lungs based on perfusion decellularized lung scaffolds that can be transplanted similar to a donor organ. METHODS Cadaveric rat lungs were decellularized by detergent perfusion. Resulting scaffolds were mounted in bioreactors and seeded with endothelial and fetal lung cells. Biomimetic organ culture was maintained for 7 days. Resulting bioartificial left lungs were transplanted in orthotopic position after left pneumonectomy in rats. Cadaveric left lung transplants and pneumonectomies served as controls. Blood gas analyses, compliance testing, and fluoroscopies were performed on postoperative days 1, 7, and 14. Lungs were removed for final analysis on day 14. RESULTS Perfusion decellularization of cadaveric lungs yielded acellular scaffolds with intact architecture and matrix composition. Alveolar volumes, number, and size were comparable in bioartificial and native lungs, as were gas exchange, vital capacity and compliance in vitro. After using improved graft preservation and postoperative weaning protocols, animals could be fully recovered, and bioartificial lung constructs provided oxygenation as long as 7 days at levels comparable to cadaveric lung transplants. Compliance, gas exchange, and radiographic appearance gradually declined over the subsequent 7 days owing to progressive graft consolidation and inflammation. CONCLUSIONS Perfusion decellularization of cadaveric lungs yields intact scaffolds that can be seeded with cells to generate bioartificial lung grafts. After orthotopic transplantation, grafts are perfused by the recipients circulation, ventilated through the recipients airway and provide gas exchange in vivo for 7 days.

The Effects of mTOR-Akt Interactions on Anti-apoptotic Signaling in Vascular Endothelial Cells

Recent studies have determined that mTOR mediates the activation of the protein kinase Akt in several cell types, but little is known about the association between mTOR and Akt in vascular endothelial cells. Furthermore, the functional significance of mTOR/Akt signaling has not been characterized in the endothelium. In these studies we treated endothelial cells with the mTOR inhibitor rapamycin, and we found that it decreases Akt phosphorylation and activity, as determined by phosphorylation of its substrate glycogen synthase kinase-3. This effect of rapamycin on Akt phosphorylation could not be demonstrated in endothelial cells transfected with a rapamycin-resistant mTOR construct. Also, in the presence of rapamycin, vascular endothelial growth factor, tumor necrosis factor, and insulin failed to phosphorylate Akt, further indicating that mTOR regulates Akt activation in endothelial cells. The activation of Akt is well established to mediate pro-survival signals. In part this is mediated via the phosphorylation and inactivation of the pro-apoptotic Akt substrates Foxo1 and Foxo3a. We find that rapamycin totally blocks vascular endothelial growth factor and Akt-inducible phosophorylation of these transcription factors in endothelial cells. Furthermore, inhibition of Akt activity by rapamycin increased the number of endothelial cells undergoing apoptosis after serum withdrawal as well as after stimulation by vascular endothelial growth factor or tumor necrosis factor. Taken together these observations demonstrate first, that mTOR regulates the phosphorylation and activation of Akt in endothelial cells and, second, that a major effect of mTOR inhibition in endothelial cells is to suppress Akt-inducible pro-survival signals.

Indirect recognition of allopeptides promotes the development of cardiac allograft vasculopathy

Graft loss from chronic rejection has become the major obstacle to the long-term success of whole organ transplantation. In cardiac allografts, chronic rejection is manifested as a diffuse and accelerated form of arteriosclerosis, termed cardiac allograft vasculopathy. It has been suggested that T-cell recognition of processed alloantigens (allopeptides) presented by recipient antigen-presenting cells through the indirect pathway of allorecognition plays a critical role in the development and progression of chronic rejection. However, definitive preclinical evidence to support this hypothesis is lacking. To examine the role of indirect allorecognition in a clinically relevant large animal model of cardiac allograft vasculopathy, we immunized MHC inbred miniature swine with synthetic polymorphic peptides spanning the α1 domain of an allogeneic donor-derived swine leukocyte antigen class I gene. Pigs immunized with swine leukocyte antigen class I allopeptides showed in vitro proliferative responses and in vivo delayed-type hypersensitivity responses to the allogeneic peptides. Donor MHC class I disparate hearts transplanted into peptide-immunized cyclosporine-treated pigs not only rejected faster than unimmunized cyclosporine-treated controls (mean survival time = 5.5 +/−1.7 vs. 54.7 +/−3.8 days, P < 0.001), but they also developed obstructive fibroproliferative coronary artery lesions much earlier than unimmunized controls (<9 vs. >30 days). These results definitively link indirect allorecognition and cardiac allograft vasculopathy.

Cardiac Transplantation Followed by Dose-intensive Melphalan and Autologous Stem-cell Transplantation for Light Chain Amyloidosis and Heart Failure

Background. Patients with light chain (AL) amyloidosis who present with severe heart failure due to cardiac involvement rarely survive more than 6 months. Survival after cardiac transplantation is markedly reduced due to the progression of amyloidosis. Autologous stem-cell transplantation (ASCT) has become a common therapy for AL amyloidosis, but there is an exceedingly high treatment-related mortality in patients with heart failure. Methods. We developed a treatment strategy of cardiac transplant followed by ASCT. Twenty-six patients were evaluated, and of 18 eligible patients, nine patients underwent cardiac transplantation. Eight of these patients subsequently received an ASCT. Results. Six of seven evaluable patients achieved a complete hematologic remission, and one achieved a partial remission. At a median follow-up of 56 months from cardiac transplant, five of seven patients are alive without recurrent amyloidosis. Their survival is comparable with 17,389 patients who received heart transplants for nonamyloid heart disease: 64% in nonamyloid vs. 60% in amyloid patients at 7 years (P=0.83). Seven of eight transplanted patients have had no evidence of amyloid in their cardiac allograft. Conclusions. This demonstrates that cardiac transplantation followed by ASCT is feasible in selected patients with AL amyloidosis and heart failure, and that such a strategy may lead to improved overall survival.