Updates in Kidney Transplantation From the 2022 Banff-Canadian Society of Transplantation Joint Meeting: Conference Report.

Purpose of the Conference: The 2022 Banff-Canadian Society of Transplantation Meeting in Banff, Alberta, brought together transplant professionals to review new developments across various aspects of solid organ transplantation (SOT) in Canada. Sources of Information: Presentations included consensus recommendations from expert-led forums; experiences with new procedures and legislation; reports from public health data repositories; original clinical and laboratory research; and industry updates regarding novel technologies. Speakers referenced articles and reports published in peer-reviewed journals and online, and unpublished data and preliminary findings. Methods: All authors attended presentations in-person or virtually. Recordings of select presentations were available for later review. Summaries emphasize concepts indicated by speakers as new and clinically relevant. Key Findings: The COVID-19 pandemic disproportionately affected solid organ transplant recipients (SOTRs), who experience worse outcomes of COVID-19 infection than the general population. Vaccinations demonstrate an attenuated immunological response in SOTRs yet provide meaningful protection. Monoclonal antibodies are effective for both passive immunization and treatment of COVID-19 in SOTRs. Infection control protocols have driven the development of virtual methods for clinical research, such as using home blood draws and virtual follow-up to evaluate vaccine efficacy in SOTRs; and patient care delivery, such as employing telerehabilitation post transplant. Access to living kidney donation is limited by various disincentives experienced by potential donors, which may be overcome by more efficient evaluations including a One-Day Living Kidney Donor Assessment Clinic. The International Donation and Transplantation Legislative and Policy Forum provided a means of establishing consensus guidance for organ donation and transplantation (ODT) program policy to standardize delivery across jurisdictions. The implementation of a deemed consent model for organ and tissue donation in Nova Scotia may provide insight as to whether this model indeed improves access to organs. Canada's Indigenous population experiences unique barriers to transplantation, prompting efforts for more inclusive ODT policy-making. The Pan-Canadian ODT Data and Performance Reporting System Project has defined performance quality indicators, of which iTransplant and other point-of-care software solutions may facilitate collection; however, these endeavors ultimately require information technology infrastructure that exceeds the capabilities of the existing Canadian Organ Replacement Register and Canadian Transplant Registry. Pig-to-human xenotransplantation requires genetic modification of pigs and xenoantibody testing in recipients but may yet prove viable. Serum cell-free DNA, urine biomarkers, and genetic markers offer an alternative to routine biopsy for identifying subclinical rejection. Modified perfusion temperatures and perfusion solutions with hydrogen sulfide donor compounds may improve organ preservation. Molecular compatibility tools provide another means of improving SOTR outcomes, and the Genome Canada Transplant Consortium has been examining important considerations of their implementation. Limitations: We were unable to capture all presentations and topics at the meeting due to the sizable quantity and variety. Topics ultimately excluded from this summary include those in pathology including Banff Classification updates; those unique to extra-renal SOT; as well as numerous abstract and poster presentations, allied health provider forums, and business meetings. A portion of the material was presented by speakers prior to peer-review or publication. Implications: The various conference presentations summarized in this report identify methods by which individual clinicians and provincial ODT programs may improve access, delivery, and quality of SOT care in Canada, while additionally identifying gaps in the literature that investigators are encouraged to pursue.

Objectifs de la conférence: En 2022, le congrès annuel de la Société canadienne de transplantation qui s'est tenu à Banff (Alberta) a réuni des professionnels de la transplantation qui se sont penchés sur les nouveaux développements dans divers aspects de la transplantation d'organes solides (TOS) au Canada. Sources: Les présentations portaient notamment sur : les recommandations consensuelles issues de forums dirigés par des experts; l'expérience avec les nouvelles procédures et lois; des rapports provenant de dépôts de données de santé publique; des recherches cliniques et des recherches de laboratoire originales; et les mises à jour du secteur sur les nouvelles technologies. Les intervenants ont fait référence à des articles et rapports publiés en ligne et dans des revues évaluées par les pairs, ainsi qu'à des données non publiées et des conclusions préliminaires. Méthodologie: Tous les auteurs ont assisté aux présentations en personne ou virtuellement. Les enregistrements de certaines présentations étaient disponibles pour visionnement ultérieur. Les résumés mettent l'accent sur les concepts jugés comme nouveaux et cliniquement pertinents par les intervenants. Principaux résultats: La pandémie de COVID-19 a affecté les receveurs d'une transplantation d'organe solide (RTOS) de manière disproportionnée; ces derniers ayant suivi une évolution plus défavorable que la population générale à la suite d'une infection à la COVID-19. La vaccination, bien qu'elle offre une protection significative, montre une réponse immunologique plus faible chez les RTOS. Les anticorps monoclonaux sont efficaces à la fois pour l'immunization passive et le traitement de la COVID-19 chez les RTOS. Les protocoles de contrôle des infections ont mené au développement de méthodes virtuelles pour la recherche clinique (p. ex. prélèvements sanguins à domicile, suivi virtuel pour évaluer l'efficacité du vaccin chez les RTOS) et la prestation de soins aux patients (p. ex. rééducation à distance) après la transplantation. L'accès au don de rein vivant est limité par divers facteurs dissuasifs pour les donneurs potentiels, mais ces obstacles peuvent être surmontés par des évaluations plus efficaces, notamment par une clinique d'un jour pour évaluer la candidature des donneurs vivants de rein. Le Forum législatif et politique international sur le don et la transplantation a fourni un moyen d'établir des lignes directrices consensuelles pour la politique du program de dons d'organes et de transplantation (DOT), dans l'objectif de normaliser la prestation d'une juridiction à l'autre. La mise en œuvre en Nouvelle-Écosse du consentement présumé pour le don d'organes et de tissus pourrait aider à déterminer si un tel modèle améliore effectivement l'accès aux organes. Les populations autochtones du Canada sont confrontées à des obstacles uniques en matière de transplantation, ce qui encourage les efforts visant l'élaboration de politiques plus inclusives en matière de DOT. Le Projet de système pancanadien de données et de mesure de la performance pour les DOT a défini des indicateurs de performance, dont iTransplant et d'autres solutions logicielles pour les points de soins, qui peuvent faciliter la collecte des données; ces derniers nécessitent toutefois une infrastructure informatique qui dépasse les capacités du Registre canadien des insuffisances et des transplantations d'organes et du Registre canadien de transplantation. La xénogreffe de porc à humain requiert une modification génétique des porcs et le dépistage de xénoanticorps chez les receveurs, mais elle peut encore s'avérer viable. L'ADN acellulaire sérique, les biomarqueurs urinaires et les marqueurs génétiques offrent une alternative à la biopsie de routine pour identifier les rejets subcliniques. Des températures de perfusion modifiées et des solutions de perfusion contenant des composés générateurs de sulfure d'hydrogène peuvent améliorer la conservation des organes. Les outils de compatibilité moléculaire offrent un autre moyen d'améliorer les résultats des RTOS, et le Genome Canada Transplant Consortium a examiné les aspects importants à prendre en considération pour leur mise en œuvre. Limites: Nous n'avons pas été en mesure d'assister à toutes les présentations en raison du grand nombre et de la grande diversité des sujets abordés. Les sujets exclus de ce résumé incluent la pathologie, notamment les mises à jour de la classification Banff; les sujets propres à la TOS extrarénale; ainsi que de nombreux résumés et présentations d'affiches, forums de prestataires de soins de santé alliés et réunions d'affaires. Une partie du matériel présenté l'a été avant l'examen par les pairs ou la publication. Conclusion: Les présentations du congrès qui sont résumées dans le présent rapport identifient les méthodes que les programs provinciaux de DOT et les cliniciens pourraient employer pour améliorer l'accès, la prestation et la qualité des soins en TOS au Canada, et soulignent des lacunes dans la littérature que les chercheurs sont encouragés à creuser.

Multicenter Validation of a Urine CXCL10 Assay for Noninvasive Monitoring of Renal Transplants.

BACKGROUND: Urine CXCL10 (C-X-C motif chemokine ligand 10, interferon gamma-induced protein 10 [IP10]) outperforms standard-of-care monitoring for detecting subclinical and early clinical T-cell-mediated rejection (TCMR) and may advance TCMR therapy development through biomarker-enriched trials. The goal was to perform an international multicenter validation of a CXCL10 bead-based immunoassay (Luminex) for transplant surveillance and compare with an electrochemiluminescence-based (Meso Scale Discovery [MSD]) assay used in transplant trials. METHODS: Four laboratories participated in the Luminex assay development and evaluation. Urine CXCL10 was measured by Luminex and MSD in 2 independent adult kidney transplant trial cohorts (Basel and TMCT04). In an independent test and validation set, a linear mixed-effects model to predict (log 10 -transformed) MSD CXCL10 from Luminex CXCL10 was developed to determine the conversion between assays. Net reclassification was determined after mathematical conversion. RESULTS: The Luminex assay was precise, with an intra- and interassay coefficient of variation 8.1% and 9.3%; showed modest agreement between 4 laboratories (R 0.96 to 0.99, P < 0.001); and correlated with known CXCL10 in a single- (n = 100 urines, R 0.94 to 0.98, P < 0.001) and multicenter cohort (n = 468 urines, R 0.92, P < 0.001) but the 2 assays were not equivalent by Passing-Bablok regression. Linear mixed-effects modeling demonstrated an intercept of -0.490 and coefficient of 1.028, showing Luminex CXCL10 are slightly higher than MSD CXCL10, but the agreement is close to 1.0. After conversion of the biopsy thresholds, the decision to biopsy would be changed for only 6% (5/85) patients showing acceptable reclassification. CONCLUSIONS: These data demonstrate this urine CXCL10 Luminex immunoassay is robust, reproducible, and accurate, indicating it can be readily translated into clinical HLA laboratories for serial posttransplant surveillance.

Influence of the Novel ATP-Competitive Dual mTORC1/2 Inhibitor AZD2014 on Immune Cell Populations and Heart Allograft Rejection.

BACKGROUND: Little is known about how new-generation adenosine triphosphate-competitive mechanistic target of rapamycin (mTOR) kinase inhibitors affect immunity and allograft rejection. METHODS: mTOR complex (C) 1 and 2 signaling in dendritic cells and T cells was analyzed by Western blotting, whereas immune cell populations in normal and heart allograft recipient mice were analyzed by flow cytometry. Alloreactive T cell proliferation was quantified in mixed leukocyte reaction; intracellular cytokine production and serum antidonor IgG levels were determined by flow analysis and immunofluorescence staining used to detect IgG in allografts. RESULTS: The novel target of rapamycin kinase inhibitor AZD2014 impaired dendritic cell differentiation and T cell proliferation in vitro and depressed immune cells and allospecific T cell responses in vivo. A 9-day course of AZD2014 (10 mg/kg, intraperitoneally, twice daily) or rapamycin (RAPA) (1 mg/kg, intraperitoneally, daily) prolonged median heart allograft survival time significantly (25 days for AZD2014, 100 days for RAPA, 9.5 days for control). Like RAPA, AZD2014 suppressed graft mononuclear cell infiltration, increased regulatory T cell to effector memory T cell ratios and reduced T follicular helper and B cells 7 days posttransplant. By 21 days (10 days after drug withdrawal), however, T follicular helper and B cells and donor-specific IgG1 and IgG2c antibody titers were significantly lower in RAPA-treated compared with AZD2014-treated mice. Elevated regulatory T cell to effector memory T cell ratios were maintained after RAPA, but not AZD2014 withdrawal. CONCLUSIONS: Immunomodulatory effects of AZD2014, unlike those of RAPA, were not sustained after drug withdrawal, possibly reflecting distinct pharmacokinetics or/and inhibitory effects of AZD2014 on mTORC2.

Roles of mTOR complexes in the kidney: implications for renal disease and transplantation.

The mTOR pathway has a central role in the regulation of cell metabolism, growth and proliferation. Studies involving selective gene targeting of mTOR complexes (mTORC1 and mTORC2) in renal cell populations and/or pharmacologic mTOR inhibition have revealed important roles of mTOR in podocyte homeostasis and tubular transport. Important advances have also been made in understanding the role of mTOR in renal injury, polycystic kidney disease and glomerular diseases, including diabetic nephropathy. Novel insights into the roles of mTORC1 and mTORC2 in the regulation of immune cell homeostasis and function are helping to improve understanding of the complex effects of mTOR targeting on immune responses, including those that impact both de novo renal disease and renal allograft outcomes. Extensive experience in clinical renal transplantation has resulted in successful conversion of patients from calcineurin inhibitors to mTOR inhibitors at various times post-transplantation, with excellent long-term graft function. Widespread use of this practice has, however, been limited owing to mTOR-inhibitor- related toxicities. Unique attributes of mTOR inhibitors include reduced rates of squamous cell carcinoma and cytomegalovirus infection compared to other regimens. As understanding of the mechanisms by which mTORC1 and mTORC2 drive the pathogenesis of renal disease progresses, clinical studies of mTOR pathway targeting will enable testing of evolving hypotheses.

New perspectives on mTOR inhibitors (rapamycin, rapalogs and TORKinibs) in transplantation.

The macrolide rapamycin and its analogues (rapalogs) constitute the first generation of mammalian target of rapamycin (mTOR) inhibitors. Since the introduction of rapamycin as an immunosuppressant, there has been extensive progress in understanding its complex mechanisms of action. New insights into the function of mTOR in different immune cell types, vascular endothelial cells and neoplastic cells have opened new opportunities and challenges regarding mTOR as a pharmacological target. Currently, the two known mTOR complexes, mTOR complex (mTORC) 1 and mTORC2, are the subject of intense investigation, and the introduction of second-generation dual mTORC kinase inhibitors (TORKinibs) and gene knockout mice is helping to uncover the distinct roles of these complexes in different cell types. While the pharmacological profiling of rapalogs is advanced, much less is known about the properties of TORKinibs. A potential benefit of mTOR inhibition in transplantation is improved protection against transplant-associated viral infections compared with standard calcineurin inhibitor-based immunosuppression. Preclinical and clinical data also underscore the potentially favourable antitumour effects of mTOR inhibitors in regard to transplant-associated malignancies and as a novel treatment option for various other cancers. Many aspects of the mechanisms of action of mTOR inhibitors and their clinical implications remain unknown. In this brief review we discuss new findings and perspectives of mTOR inhibitors in transplantation.

Aortic calcification: Novel insights from familial hypercholesterolemia and potential role for the low-density lipoprotein receptor.

Once thought to be a passive process of calcium accrual in arterial vascular beds, vascular calcification is considered to be a tightly regulated process mediated by osteoblast-like cells under the dys-regulated interplay of shear stress, metabolites, cytokines and transcription factors. Unfortunately, without effective medical interventions to prevent or regress vascular calcification, this process directly contributes to cardiovascular morbidity and mortality. We have previously shown that patients with familial hypercholesterolemia (FH) have severe, premature aortic calcification and calcific aortic stenosis. We showed an age-related gene-dosage effect of deletion of the low-density lipoprotein receptor (LDL-R) gene on aortic calcification in human subjects with FH. The LDL-R deficient mouse and transgenic mice overexpressing the LDL-R degrading protein PCSK9 also exhibit aortic calcification, not fully explained by increased LDL cholesterol levels. Taken together, these data suggests a novel role for the LDL-R in the inhibition of vascular calcification. Understanding the molecular role of the LDL-R and its signaling partners in vascular calcification will be instrumental in identifying novel therapies for a common age-related process associated with a large burden of disease.

Structural basis of ligand recognition by PABC, a highly specific peptide-binding domain found in poly(A)-binding protein and a HECT ubiquitin ligase.

The C-terminal domain of poly(A)-binding protein (PABC) is a peptide-binding domain found in poly(A)-binding proteins (PABPs) and a HECT (homologous to E6-AP C-terminus) family E3 ubiquitin ligase. In protein synthesis, the PABC domain of PABP functions to recruit several translation factors possessing the PABP-interacting motif 2 (PAM2) to the mRNA poly(A) tail. We have determined the solution structure of the human PABC domain in complex with two peptides from PABP-interacting protein-1 (Paip1) and Paip2. The structures show a novel mode of peptide recognition, in which the peptide binds as a pair of beta-turns with extensive hydrophobic, electrostatic and aromatic stacking interactions. Mutagenesis of PABC and peptide residues was used to identify key protein-peptide interactions and quantified by isothermal calorimetry, surface plasmon resonance and GST pull-down assays. The results provide insight into the specificity of PABC in mediating PABP-protein interactions.