Outcomes from the International Society of Nephrology Hemolytic Uremic Syndromes International Forum

Expanding the spectrum of genetic causes of DNA-specific exonucleaseTREX1 variants in thrombotic microangiopathy

INTRODUCTION

Thrombotic microangiopathy (TMA) is a complex condition involving endothelial damage and microvascular thrombi. The International Society of Nephrology's HUS International Forum identified genetic variants as crucial for tailored therapies like plasma exchange and anti-complement therapy. Recent studies suggested that new pathogenic genes beyond complement, and coagulation pathways contribute to TMA including TREX1 variants. The protein TREX1, a DNA-specific exonuclease, maintains genome integrity and regulates immune responses by degrading damaged cytosolic DNA. Variants disrupting TREX1's endoplasmic reticulum anchoring can lead to vasculopathy.

METHODS

We conducted retrospective in silico studies involving 53 patients with TMA, 94 with IgA nephropathy with microangiopathic lesions, 25 with C3G glomerulopathy and 20 with ANCA-associated vasculitis.

RESULTS

Pathogenic variants of TREX1 were found in 5.7% of patients with TMA and 3.2% of patients with IgA nephropathy with microangiopathic lesions, but none in C3 glomerulopathy or ANCA-associated vasculitis.

CONCLUSIONS

Our study highlights the importance of TREX1 variants in microvascular diseases, particularly in thrombotic microangiopathy and IgA nephropathy. TREX1's critical role in genome integrity and immune regulation may offer new therapeutic avenues for treatment.

Post-transplant Thrombotic Microangiopathy

Thrombotic microangiopathy (TMA) is a challenging and serious complication of kidney transplantation that significantly affects graft and patient survival, occurring in 0.8%-15% of transplant recipients. TMA is characterized by microangiopathic hemolytic anemia, thrombocytopenia, and organ injury due to endothelial damage and microthrombi formation in small vessels. However, clinical features can range from a renal-limited form, diagnosed only on a kidney biopsy, to full-blown systemic manifestations, which include neurologic, gastrointestinal, and cardiovascular injury. TMA can arise because of genetic or acquired defects such as in complement-mediated TMA or can occur in the context of other conditions like infections, autoimmune diseases, or immunosuppressive drugs, where complement activation may also play a role. Recurrent TMA after kidney transplant is almost always complement-mediated, although complement overactivation may also play a role in de novo post-transplant TMAs associated with ischemia-reperfusion injury, immunosuppressive drugs, antibody-mediated rejection, viral infections, and relapse of autoimmune diseases, such as antiphospholipid antibody syndrome. Differentiating between a complement-mediated process and one triggered by other factors is often challenging but critical to minimize allograft damage because the former is nonresponsive to supportive therapy, needs long-term anticomplement therapy, and has a high risk of recurrence. Given the central role of complement and effect of genetic defects on the risk of recurrence in many forms of post-transplant TMA, genetic testing for complement disorders is key for proper diagnosis and management. Given that complement activation may also play a role in a subset of TMAs associated with other conditions, prompt recognition and timely initiation of anticomplement therapy is equally important. In addition, TMA associated with noncomplement genes, often part of a broader syndromic process with distinct clinical features, has also been described. Early identification and treatment are essential to prevent graft failure and other severe complications. This review explores the pathophysiologic mechanisms underlying various post-transplant TMAs.

Calcineurin Inhibitor Associated Nephrotoxicity in Kidney Transplantation-A Transplant Nephrologist's Perspective

AIM

Calcineurin inhibitors (CNIs) have revolutionized transplant medicine, improving allograft survival but posing challenges like calcineurin inhibitor-induced nephrotoxicity (CNT). Acute CNT, often dose-dependent, leads to vasoconstriction and acute kidney injury, with treatment focusing on CNI exposure reduction. Chronic CNT manifests as progressive allograft function decline, with challenges in distinguishing it from nonspecific allograft nephropathy.

METHODS

This narrative review provides a concise overview of the clinical management of CNT, covering acute and chronic CNT. We reviewed original articles, landmark papers, and meta-analyses on CNT mitigation strategies, including CNI-sparing approaches.

RESULTS

Preventive measures include co-medications, CNI exposure monitoring, and CNI sparing strategies, such as reducing target trough levels and converting to mTOR inhibitors (mTORi) or belatacept. Despite improvements in graft function, challenges persist in demonstrating significant differences in allograft survival with CNI-sparing regimens. The paradigm shift from chronic CNT as the main cause of chronic allograft nephropathy toward rather immunologic triggered injuries and/or comorbidities as relevant contributors to allograft deterioration over time must be kept in mind.

CONCLUSION

CNIs have significantly improved kidney transplant outcomes, but their associated nephrotoxicity necessitates mitigation strategies. The decision to implement such regimens is always an individual choice balancing against the risk of immunologic injuries. Further long-term studies are needed to optimize immunosuppressive approaches and refine CNT management.

Multidisciplinary consensus on the diagnosis and management of patients with atypical Hemolytic Uremic Syndrome (complement-mediated TMA): Recommendations from Italian scientific societies, patient associations and regulators

Atypical Hemolytic Uremic Syndrome (aHUS) is a severe, systemic, rare disease (RD) that can occur in people of all ages, and is associated with high rates of morbidity and mortality. Because the management of patients with aHUS can be difficult, more effective strategies should be implemented. Faculty members from several Italian Scientific Societies, Patient Associations and Regional Institutional Experts on RDs met to discuss aHUS management within a multidisciplinary team (MDT), using a Delphi process to develop consensus recommendations. Consensus (≥70 % agreement by faculty members) was reached on 51 statements with the aim of improving patient management and outcomes. These statements provide a unified framework for the differential diagnosis of aHUS, prompt recognition of the pathology, referral to RD reference centers, selecting between treatment relapse prevention measures options, patient management by a MDT and improving the overall awareness of aHUS. Despite the broad scope of the consensus statements, several unmet needs in the management of patients with aHUS were identified, including diagnostic suspicion, rapid genetic investigations, regular review of the centers of expertise (considering the number of treated patients), permanent clinical referral in treatment centers and widespread expertise among adult and pediatric specialists. We hope that this standardized framework will form the basis of the "digital ecosystem" concept and development of possible information technology solutions to assist the MDT involved in the management of patients with aHUS.

Ten tips for managing complement-mediated thrombotic microangiopathies (formerly atypical hemolytic uremic syndrome): narrative review

Complement-mediated thrombotic microangiopathies (CM-TMA) are rare and life-threatening disorders characterized by microangiopathic hemolytic anemia, thrombocytopenia, and organ damage. These conditions result from dysregulation of the alternative complement pathway, often due to genetic variants or autoantibodies. The clinical spectrum is broad, comprising varied presentations and triggers, including infections, malignancies, and pregnancy-related complications. Advances in understanding the genetic and immunological basis of CM-TMA have improved diagnosis and treatment. Diagnosis requires exclusion of other thrombotic microangiopathies like thrombotic thrombocytopenic purpura and secondary causes, with genetic testing recommended to identify underlying susceptibilities. The introduction of C5 inhibitors has transformed the management of CM-TMA, significantly improving outcomes compared to the pre-2011 era when therapeutic plasma exchange was the primary therapy. Despite these advances, challenges remain in determining the optimal duration of therapy. Prophylactic measures against infections, particularly meningococcal disease, are mandatory for patients receiving C5 inhibitors. This article underscores the need for a personalized, multidisciplinary approach in the diagnosis and management of CM-TMA. Advances in genetics and complement biology have led to improved therapeutic strategies, however ongoing research is essential to address unanswered questions regarding relapse risk, treatment duration, and long-term outcomes.