Malignant Tumors Identified in Adult Polycystic Kidney Disease Can Be Derived from Both Proximal Tubular and Distal Tubular Origins.

Adult polycystic kidney disease (APKD) is a genetic disorder leading to premature renal dysfunction and failure. The prevalence of malignant renal tumors occurring in the APKD setting has been rarely reported. OBJECTIVE: To better characterize malignant renal tumors in nephrectomy specimens of APKD and apply modern pathologic evaluation. METHODS: We reviewed our database of APKD specimens over the past 11 years (from 2012 to 2023) for primary malignant tumors within the kidneys of APKD. RESULTS: Of 48 nephrectomy specimens with APKD evaluated, 10 malignant renal tumors were identified, indicating a prevalence of 20.8 % (10/48). These included three clear cell (cc) renal cell carcinomas (RCC) (ranging from 1 mm to 6.7 cm), three papillary RCCs (2.5, 3.5, and 14 cm with lymph node metastasis), two cases of clear cell papillary (CCP) RCC, one acquired cystic disease (ACD) with associated RCC (4 mm), and one urothelial adenocarcinoma. The urothelial adenocarcinoma was found near a tubulovillous adenoma in a collecting duct and stained positively for GATA3 and Uroplakin-2 but was negative for PAX8 & CDX2. The tumor showed extensive invasion into perirenal fatty tissue and the rectum. Next generating sequencing (NGS) analysis of the tumor showed mutations in TERT, RB1, TP53, ERBB2, and TET1 genes, further supporting its urothelial origin. CONCLUSIONS: We found a prevalence of 20.8%, which was higher than in previous reports of malignant renal tumors in patients who underwent resections for APKD. Renal tumors were mostly from damaged proximal tubular origins (clear cell or papillary RCC), but less commonly were from distal tubular or urothelial cells as well (clear cell papillary RCC and urothelial adenocarcinoma).

Myeloperoxidase Staining Identifies Endothelial Injury of Peritubular Capillaries and Glomeruli in Renal Antibody-Mediated Rejection.

OBJECTIVE: It remains unclear if C4d staining is related to any peritubular and glomerular injury during antibody mediated rejection (ABMR). The goal of this study was to determine if myeloperoxidase (MPO) staining can highlight endothelial injury in peritubular capillaries (PTC) and glomeruli. METHODS: The study included 12 native negative controls, 19 transplant biopsies with borderline changes (BC) as transplant controls, and one group of renal transplant biopsies with ABMR as the study group (acute/chronic, n=22). All three groups were stained for MPO immunohistochemically, and the MPO expressions in the endothelium of PTC and glomeruli were evaluated and correlated with serum creatinine (SCr). In addition, the ultrastructural layers of the PTC (an index for chronic allograft rejection) were correlated with MPO indices in PTC. RESULTS: The negative control group and the transplant controls showed no MPO expression in the endothelium of glomeruli and PTC. However, in the biopsies with ABMR, there were MPO-positive stains in the endothelial cells of glomeruli (15/21 cases, 71.4 %) and PTC (16/22 cases, 72.7 %). There were significant correlations between the peritubular MPO staining versus SCr (r=0.355 and p=0.0106) and glomerular MPO staining versus SCr (r=0.365 and p=0.0092). Furthermore, the layers of PTC by electron microscopy were significantly correlated with MPO scores in PTC (r=0.696, p=0.0001). CONCLUSION: Our data suggest that the MPO-positive endothelial injuries are most likely the cause leading to renal graft dysfunction following ABMR.

Defective CD8 Signaling Pathways Delay Rejection in Older Recipients.

CD8+ T cells play a cardinal feature in response to alloantigens and are able to generate effector/memory T cells independently from CD4+ T cells. To investigate the impact of aging on CD8 T cells, we used a fully mismatched mouse skin transplant model. Our findings showed a prolonged allograft survival in older recipients associated with a significant increase of CD4+ and CD8+ CD44high CD62Llow effector/memory T cells and a reduced systemic IFNγ production. When reconstituting young CBA Rag-1 mice that lack mature T and B cells with old CD8+ T cells expressing clonal anti-H2K T cell receptor (TCR) alloreactive for MHC I, graft survival was significantly prolonged and comparable to those receiving young CD8+ T cells. Moreover, our data showed that reduced systemic IFNγ levels observed in old recipients had been linked to a compromised expression of the IL-2R ß subunit (CD122) by old CD8+ T cells. In addition, we observed an impaired IFNγ production on IL-2 receptor activation. At the same time, gene profiling analysis of old CD8 T cells demonstrated reduced chemokine ligand-3 and CD40L expression that resulted in compromised CD8+ T cell/dendritic cell communication, leading to impaired migratory and phagocytic activity of CD11c cells.Collectively, our study demonstrated that aging delays allograft rejection. CD8 T cells play a critical role in this process linked to a compromised production of IFNγ, in addition to a defective IL-2 receptor signaling machinery and a defective communication between CD8 T cells and dendritic cells.

Animal models of chronic allograft injury: contributions and limitations to understanding the mechanism of long-term graft dysfunction.

Advances in immunosuppression have reduced the incidence of acute graft loss after transplantation, but long-term allograft survival is still hindered by the development of chronic allograft injury, a multifactorial process that involves both immunologic and nonimmunologic components. Because these components become defined in the clinical setting, development of animal models enables exploration into underlying mechanisms leading to long-term graft dysfunction. This review presents animal models that have enabled investigation into chronic allograft injury and discusses pivotal models currently being used. The mechanisms uncovered by these models will ultimately lead to development of new therapeutic options to prevent long-term graft dysfunction.