Genomic Mismatch at <i>LIMS1</i> Locus and Kidney Allograft Rejection

Steers, Nicholas J.; Li, Yifu; Drace, Zahida; D'Addario, Justin A.; Fischman, Clara; Liu, Lili; Xu, Katherine; Na, Young Ji Y.; Neugut, Dana; Zhang, Jun Y.; Sterken, Roel; Balderes, Olivia; Bradbury, Drew; Öztürk, Nilgün; Ozay, Fatih; Goswami, Sanya; Mehl, Karla; Wold, Jaclyn; Jelloul, Fatima Zahra; Rohanizadegan, Mersedeh; Gillies, Christopher E.; Vasilescu, Elena R.; Vlad, George; Ko, Yi An; Mohan, Sumit; Radhakrishnan, Jai; Cohen, David J.; Ratner, Lloyd E.; Scolari, Francesco; Suszták, Katalin; Sampson, Matthew G.; Deaglio, Silvia; Çalışkan, Yaşar; Barasch, Jonathan; Courtney, Aisling E.; Maxwell, Alexander P.; McKnight, Amy Jayne; Ionita‐Laza, Iuliana; Bakker, Stephan J. L.; Snieder, Harold; Borst, Martin H. de; D’Agati, Vivette D.; Amoroso, Antonio; Gharavi, Ali G.; Kiryluk, Krzysztof

doi:10.1056/nejmoa1803731

Cited by 82 publications

(115 citation statements)

References 38 publications

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“…However, recent findings opened up a new prospect in this field; the genomic collision may be a relevant underlying mechanism to consider in such cases. 15 Infection rate was 42% in the present study. Hwang et al also reported high rate of infection complications in ABOi kidney transplantation recipients (66%).…”

Section: Discussionsupporting

confidence: 48%

ABO-incompatible living donor kidney transplantation in Portugal

Ribeiro¹,

Silva²,

Malheiro³

et al. 2020

pjnh

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Introduction: ABO incompatibility was considered a barrier to kidney transplant. However, the shortage of available organs for transplantation and the excellent long-term results further establish ABO-incompatible (ABOi) as a safe and effective therapeutic strategy. The aim of the present study was to evaluate the outcomes of ABOi transplantation in terms of graft survival and function, rejection episodes and infections complications. Methods: The authors present a single-center retrospective observational study in a unit with approximately 370 living donor kidney transplants registered. This study includes the analysis of 12 patients who underwent ABOi living donor kidney transplantation between November 2014 and July 2019. Desensitization protocol consisted of intravenous Rituximab 375mg/m 2 single dose administration 2 weeks pretransplant. Tacrolimus and Mycophenolate Mofetil were started before transplantation one week and 48 hours respectively. Plasmapheresis was performed to remove anti-A or B antibodies until their titers were <1:8 during the first post-operative week and <1:16 at the second. All kidney recipients of both ABOi grafts received Basiliximab (20mg on days 0 and 4) as antibody induction therapy. Maintenance immunosuppression consisted of Tacrolimus, Mycophenolate Mofetil and corticosteroid. Results: A total of 12 patients were included in the study, 75% male; 43 years (IQR 31-50). The most common blood group mismatch was A to O (n=4; 33%). In the first year, 2 of patients (25%) developed acute rejection. The follow-up time was 17 months (IQR 7-36). Five patients (42%) developed infectious complications. None patients developed cytomegalovirus or BK polyomavirus infections. At the end graft and patient survival were 100%. Conclusion: ABOi kidney transplantation has become a routine procedure. With this approach, about 30% of living donors who were refused in the past can now donate their kidneys and thereby significantly expand the living donor pool. The immunosuppressive protocol of this unit can be considered safe.

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Section: Discussionsupporting

confidence: 48%

ABO-incompatible living donor kidney transplantation in Portugal

Ribeiro¹,

Silva²,

Malheiro³

et al. 2020

pjnh

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“…22 Both IFNɣ and TNFα accentuate antibody-mediated injury in AMR. [23][24][25] Moreover, tubular proteins can be targeted by non-HLA antibodies, 22,26 which reinforces the rationale for studying AMR in the tubulointerstitium.…”

Section: Introductionmentioning

confidence: 70%

Proteomics Reveals Extracellular Matrix Injury in the Glomeruli and Tubulointerstitium of Kidney Allografts with Early Antibody-Mediated Rejection

Clotet-Freixas

McEvoy

Batruch

et al. 2020

Preprint

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Antibody-mediated rejection (AMR) accounts for >50% of kidney allograft losses. AMR is caused by donor-specific antibodies (DSA) against HLA and non-HLA antigens in the glomeruli and the tubulointerstitium, which together with inflammatory cytokines such as tumor necrosis factor alpha (TNFα) and interferon gamma (IFNɣ), trigger graft injury. Unfortunately, the mechanisms governing cell-specific injury in AMR remain unclear. We studied 30 for-cause kidney biopsies with early AMR, acute cellular rejection or acute tubular necrosis ('non-AMR').We laser-captured and microdissected glomeruli and tubulointerstitium, and subjected them to unbiased proteome analysis. 120/2026 glomerular and 180/2399 tubulointerstitial proteins were significantly differentially expressed in AMR vs. non-AMR biopsies (P<0.05). Basement membrane and extracellular matrix (ECM) proteins were significantly decreased in both AMR compartments. We verified decreased glomerular and tubulointerstitial LAMC1 expression, and decreased glomerular NPHS1 and PTPRO expression in AMR. Cathepsin-V (CTSV) was predicted to cleave ECM-proteins in the AMR glomeruli, and CTSL, CTSS and LGMN in the tubulointerstitium. We identified galectin-1, an immunomodulatory protein upregulated in the AMR glomeruli and linked to the ECM. Anti-HLA class-I antibodies significantly increased CTSV expression, and galectin-1 expression and secretion, in human glomerular endothelial cells.Glutathione S-transferase omega-1 (GSTO1), an ECM-modifying enzyme, was significantly increased in the AMR tubulointerstitium, and in TNFα-treated proximal tubular epithelial cells.IFNɣ and TNFα significantly increased CTSS and LGMN expression in these cells. Basement membranes are often remodeled in chronic AMR, and we demonstrated that this remodeling begins early in glomeruli and tubulointerstitium. Targeting ECM-remodeling in AMR may represent a new therapeutic opportunity. 3 SIGNIFICANCE STATEMENTAntibody-mediated rejection (AMR) accounts for >50% of kidney allograft loss, and is caused by donor-specific antibodies against HLA antigens, which induce maladaptive responses in the kidney glomeruli and tubulointerstitium. This is the first unbiased proteomics analysis of lasercaptured/microdissected glomeruli and tubulointerstitium from 30 indication kidney biopsies with early AMR, acute cellular rejection or acute tubular necrosis. >2,000 proteins were quantified in each compartment. We discovered that basement membrane and extracellular matrix (ECM) proteins were significantly decreased in both AMR compartments. Two ECM-modifying proteins,LGALS1 and GSTO1, were significantly increased in glomeruli and tubulointerstitium, respectively. LGALS1 and GSTO1 were upregulated by anti-HLA antibodies or AMR-related cytokines in primary kidney cells, and may represent therapeutic targets to ameliorate ECMremodeling in AMR.with gene expression alterations. 27 However, compartment-specific molecular alterations, or changes in proteome composition/expression are unknown. To address this gap, we conducted a ...

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“…We also found an anti-LIM zinc finger domain containing 1 (LMS1) autoAb among INSIP-associated natural autoAbs. Recently, a genomic mismatch in the LIMS1 gene was identified as a cause of previously unpredictable rejection [44]. In this previous study, production of IgG2-and IgG3-types of anti-LIMS autoAbs was associated with allograft rejection.…”

Section: Intracellular Antigens Extracellular or Membrane Antigensmentioning

confidence: 82%

“…LOXL2 [42,43], LIMS1 [44], NINJ2 [41], HVCN1 [45,46], TMEM79 [47], VSTM2A [48], FNDC4 [49] Interestingly, especially among antigens recognized by INSIP patient sera, there are many extracellular or membrane proteins, which are accessible by antibodies even under normal conditions. This suggests that the antigen-antibody interactions may be implicated in the pathogenesis or clinical course of disease.…”

Section: Intracellular Antigens Extracellular or Membrane Antigensmentioning

confidence: 99%

Natural Autoantibodies in Chronic Pulmonary Diseases

Fukushima

Tsujino

Futami

et al. 2020

IJMS

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In autoantibody-mediated autoimmune diseases, pathogenic autoantibodies generated by a failure of central or peripheral tolerance, have different effects mediated by a variety of mechanisms. Interestingly, even non-autoimmune chronic diseases have a set of disease-specific natural autoantibodies that are maintained for a long time. Because most of these natural autoantibodies target intracellular proteins or long non-coding RNAs, they are speculated to be non-pathological and have some important as yet unrecognized physiological functions such as debris clearance. Recently, we revealed a set of disease-specific natural autoantibodies of chronic pulmonary diseases with unknown etiology by protein arrays that enable detection of specific autoantibodies against >8000 targets. Surprisingly, some of the targeted antigens of disease-specific autoantibodies were subsequently reported by other laboratories as strongly associated with the disease, suggesting that these antigens reflect the pathology of each disease. Furthermore, some of these autoantibodies that target extracellular antigens might modify the original course of each disease. Here, we review the disease-specific natural autoantibodies of chronic pulmonary diseases, including chronic fibrosing idiopathic interstitial pneumonias, sarcoidosis, and autoimmune pulmonary alveolar proteinosis, and discuss their utility and effects.

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Genomic Mismatch at LIMS1 Locus and Kidney Allograft Rejection

Cited by 82 publications

References 38 publications

ABO-incompatible living donor kidney transplantation in Portugal

ABO-incompatible living donor kidney transplantation in Portugal

Proteomics Reveals Extracellular Matrix Injury in the Glomeruli and Tubulointerstitium of Kidney Allografts with Early Antibody-Mediated Rejection

Natural Autoantibodies in Chronic Pulmonary Diseases

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