The Legacy of Tom Starzl Is Alive and Well in Transplantation Today1

The Legacy of Tom Starzl Is Alive and Well in Transplantation Today1

The Legacy of Tom Starzl Is Alive and Well in Transplantation Today1 JAMES F. MARKMANN Chief, Division of Transplant Surgery Co-Director, Center for Transplantation Sciences Department of Surgery, Massachusetts General Hospital Claude E. Welch Professor, Harvard Medical School Introduction It is an honor to celebrate the life and career of Dr. Thomas Starzl with the American Philosophical Society. As Dr. Clyde Barker so elegantly summarized in his talk, “Tom Starzl and the Evolution of Transplanta- tion,”2 Dr. Starzl was a larger-than-life figure whose allure drew young surgeons to the field of liver transplantation and spurred them to careers as surgeon-scientists. Dr. Starzl’s impact still lives on today through those he inspired and by the influence of his body of work. To illustrate the enduring nature of his scientific contributions, I will review three areas of active transplant research that have the potential to radically advance the field, which connect with foundational work by Dr. Starzl. The compendium of Dr. Starzl’s work, with over 2,200 scientific papers, 300 books and chapters, 1,300 presentations, and hundreds of trainees, far exceeds even the most prolific efforts of other contributors to transplantation; corroborating his preeminence in the field, in 1999 he was identified as the most cited scientist in all of clin- ical medicine.3 It was a relatively simple task to find robust threads of his early investigations in the advances of today because his work permeates nearly every aspect of the field. The areas of work on which I will focus seek to address the two primary challenges facing the field of transplantation—the need for toxic lifelong immunosuppression to prevent allograft rejection, and an inadequate organ supply to treat all those who would benefit from organ replacement. These two problems confer untold morbidity and mortality to those who await lifesaving organs as well as to those who 1 Read 9 November 2017. 2 Dr. Clyde Barker’s paper was presented at the American Philosophical Society General Meeting on 9 November 2017 and is published in this issue as a biographical memoir. 3 Thomas E. Starzl’s UPMC web page, https://www.starzl.pitt.edu/. PROCEEDINGS OF THE AMERICAN PHILOSOPHICAL SOCIETY VOL. 162, NO. 2, JUNE 2018 [ 139 ] 140 james f. markmann receive transplants. Fortunately, innovative treatment approaches that are tantalizingly close at hand will allow transplant without chronic immunosuppression, and novel preservation technology and xenografts modified by powerful new gene editing protocols will dramatically expand the organ supply. Chimerism-Based Transplantation Tolerance Advances in immunosuppression have been integral to improving transplant outcomes as evidenced by a strong correlation over the last three decades among the development of more potent, more specific, and less morbid agents with improved recipient and graft survival (Meier-Kriesche et al. 2004). For example, with modern immunosup- pression regimens, one-year survival for low-risk deceased donor kidney recipients is greater than 97 percent with rejection rates of only about 5 percent. Despite these advances, the current agents still carry risk of significant morbidity and mortality, including increased risk of CV disease, infection, and malignancy. In liver and lung recipients, the most effective antirejection agents of the day, calcineurin inhibitors, manifest significant renal toxicity leading to a 10–20 percent incidence of renal failure requiring dialysis by 10 years post-transplant. Strategies that allow successful transplantation without chronic immunosuppres- sion would represent a tremendous advance for transplant patients. In 1992 Dr. Starzl made the fascinating observation that donor organ–derived cells can be detected in the tissue of recipients for many years after the transplant, a phenomenon termed microchimerism (Starzl et al. 1992; Starzl, Demetris et al. 1993). Dr. Starzl’s revelation that there is a bidirectional interaction between host and donor lymphoid systems provides a powerful conceptual framework for ongoing progress. Moreover, this work is intimately interwoven with the Nobel Prize investigations of Sir Peter Medawar, widely hailed as “the father of transplantation.” Medawar recognized that the accep- tance of skin grafts between fraternal cattle twins was a consequence of hematopoietic chimerism derived in utero from a shared placental circulation unique to cattle twins. In now-classic work, he applied this knowledge to demonstrate that a state of a long-lived lymphoid chime- rism could be achieved by inoculation of neonatal rodents with a foreign strain’s lymphocytes (Billingham, Brent, and Medawar 1953). The resulting donor strain chimerism led to reeducation of the host immune system such that grafts from the same donor strain were then recognized as “self” and accepted indefinitely without any immunosup- pression. These results led Starzl to predict in 1962 that development legacy of tom starzl 141 of lymphoid chimerism would be the key to developing clinical trans- plantation tolerance, a hypothesis not actualized until 40 years later.4 Over the last six decades, a concerted effort has been directed at understanding the processes of tolerance to self-antigens and applying this knowledge to gaining acceptance to foreign cells and grafts. What has been learned is now guiding development of new approaches to secure transplant survival without immunosuppression. One of the most promising lines of experimentation combines a bone marrow transplant with a kidney transplant from the same donor to gain tran- sient or permanent hematopoietic chimerism and secure tolerance to the kidney. The first reported success at intentional clinical chime- rism-induced allogeneic tolerance to solid organs was by the Massa- chusetts General Hospital (MGH) team in 2008 in the New England Journal of Medicine (Kawai et al. 2008). In the published experience to date, this line of study has gained stable transplantation tolerance in 7 of 10 patients treated with the protocol. The MGH protocol entails an intensive conditioning regimen the week prior to transplant to facilitate engraftment of the donor marrow. The dependence on pre-transplant treatment currently limits application of this strategy to live donor kidney transplants. The conditioning consists of agents to deplete B and T lymphocytes and thymus irradiation. Donor bone marrow and the kidney transplant are performed concurrently. The patient then remains on limited conventional immunosuppression for about nine months and is then weaned off over one to two months. The outcome of the first 10 patients (Figure 1) shows kidney func- tion over time (creatinine levels) and the point of immunosuppression discontinuation. That 7 of 10 patients have experienced long-term (more than five years) drug-free survival qualifies this as a powerful, precedent-establishing result. The first patient in this series is a particu- larly compelling case. This patient had a prior kidney transplant as a teenager with conventional immunosuppression treatment. Unfortu- nately, she suffered miserably from complications of the antirejection medications, the most problematic being warts on the bottom of her feet from papilloma virus, induced by immunosuppression. The warts were so severe she could not walk; therefore, in full consultation with her physicians, she elected to discontinue immunosuppression and allow the first transplant to reject, requiring resumption of dialysis. When she heard rumors of the coming MGH tolerance trial, she promptly volunteered to be the inaugural subject. She is now 15 years post her second kidney transplant with normal kidney function despite being off all immunosuppression for more than 14 years. She has 4 Thomas E. Starzl’s UPMC web page, https://www.starzl.pitt.edu/. 142 Serum creatininemg/dl james f. markmann f. james *Time of graft loss Years after transplantation Figure 1. The first successful regimen of clinical transplantation tolerance combining renal transplant with donor bone marrow. Suc- cessful experience with the first 10 combined live donor bone marrow and kidney transplantation at MGH. The graph shows renal function over time by creatinine levels (blue lines) and the immunosuppression duration (triangles). Note that the first patient has now been immunosuppression-free for more than 14 years with normal function. The gray box details aspects of the treatment as well as the cause of graft loss in three patients, and the reason for resumption of immunosuppression late in their course in another three. Data updated from Kawai et al. (2008) and provided with permission. legacy of tom starzl 143 returned to a normal life and is running marathons. She is unencum- bered by daily medications and frequent blood checks, and is a strong advocate for tolerance. As might be expected with the first iteration of any complex and bold innovation, there were unanticipated outcomes, and this was evident in this initial series. One case of antibody-mediated graft injury caused a graft loss, and graft endothelial injury by a poorly understood process termed engraftment syndrome was common in participants and so severe in one patient that the graft was irreversibly injured. Both issues have been addressed by subsequent protocol modifications. Another interesting aspect of this regimen is that the donor cells persist in the circulation for only three to four weeks, yet tolerance was durable, lasting for years. A plausible explanation for this mechanistic

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