Genetic Markers Among the Israeli Druze Minority Population With End-Stage Kidney Disease.

RATIONALE & OBJECTIVE: Genetic etiologies have been identified among approximately 10% of adults with chronic kidney disease (CKD). However, data are lacking regarding the prevalence of monogenic etiologies especially among members of minority groups. This study characterized the genetic markers among members of an Israeli minority group with end-stage kidney disease (ESKD). STUDY DESIGN: A national-multicenter cross-sectional study of Israeli Druze patients (an Arabic-speaking Near-Eastern transnational population isolate) who are receiving maintenance dialysis for ESKD. All study participants underwent exome sequencing. SETTING & PARTICIPANTS: We recruited 94 adults with ESKD, comprising 97% of the total 97 Druze individuals throughout Israel being treated with dialysis during the study period. PREDICTORS: Demographics and clinical characteristics of kidney disease. OUTCOME: Genetic markers. ANALYTICAL APPROACH: Whole-exome sequencing and the relationship of markers to clinical phenotypes. RESULTS: We identified genetic etiologies in 17 of 94 participants (18%). None had a previous molecular diagnosis. A novel, population-specific, WDR19 homozygous pathogenic variant (p.Cys293Tyr) was the most common genetic finding. Other monogenic etiologies included PKD1, PKD2, type IV collagen mutations, and monogenic forms of noncommunicable diseases. The pre-exome clinical diagnosis corresponded to the final molecular diagnosis in fewer than half of the participants. LIMITATIONS: This study was limited to Druze individuals, so its generalizability may be limited. CONCLUSIONS: Exome sequencing identified a genetic diagnosis in approximately 18% of Druze individuals with ESKD. These results support conducting genetic analyses in minority populations with high rates of CKD and for whom phenotypic disease specificity may be low. PLAIN-LANGUAGE SUMMARY: Chronic kidney disease (CKD) affects many people worldwide and has multiple genetic causes. However, there is limited information on the prevalence of genetic etiologies, especially among minority populations. Our national-multicenter study focused on Israeli Druze patients. Using exome-sequencing, we identified previously undetected genetic causes in nearly 20% of patients, including a new and population-specific WDR19 homozygous pathogenic variant. This mutation has not been previously described; it is extremely rare globally but is common among the Druze, which highlights the importance of studying minority populations with high rates of CKD. Our findings provide insights into the genetic basis of end-stage kidney disease in the Israeli Druze, expand the WDR19 phenotypic spectrum, and emphasize the potential value of genetic testing in such populations.

Diagnostic Utility of Exome Sequencing Among Israeli Children With Kidney Failure.

Introduction: Genetic etiologies are estimated to account for a large portion of chronic kidney diseases (CKD) in children. However, data are lacking regarding the true prevalence of monogenic etiologies stemming from an unselected population screen of children with advanced CKD. Methods: We conducted a national multicenter prospective study of all Israeli pediatric dialysis units to provide comprehensive "real-world" evidence for the genetic basis of childhood kidney failure in Israel. We performed exome sequencing and assessed the genetic diagnostic yield. Results: Between 2019 and 2022, we recruited approximately 88% (n = 79) of the children on dialysis from all 6 Israeli pediatric dialysis units. We identified genetic etiologies in 36 of 79 (45%) participants. The most common subgroup of diagnostic variants was in congenital anomalies of the kidney and urinary tract causing genes (e.g., EYA1, HNF1B, PAX2, COL4A1, and NFIA) which together explain 28% of all monogenic etiologies. This was followed by mutations in genes causing renal cystic ciliopathies (e.g., NPHP1, NPHP4, PKHD1, and BBS9), steroid-resistant nephrotic syndrome (e.g., LAGE3, NPHS1, NPHS2, LMX1B, and SMARCAL1) and tubulopathies (e.g., CTNS and AQP2). The genetic diagnostic yield was higher among Arabs compared to Jewish individuals (55% vs. 29%) and in children from consanguineous compared to nonconsanguineous families (63% vs. 29%). In 5 participants (14%) with genetic diagnoses, the molecular diagnosis did not correspond with the pre-exome diagnosis. Genetic diagnosis has a potential influence on clinical management in 27 of 36 participants (75%). Conclusion: Exome sequencing in an unbiased Israeli nationwide dialysis-treated kidney failure pediatric cohort resulted in a genetic diagnostic yield of 45% and can often affect clinical decision making.

The genetic basis of congenital anomalies of the kidney and urinary tract.

During the past decades, remarkable progress has been made in our understanding of the molecular basis of kidney diseases, as well as in the ability to pinpoint disease-causing genetic changes. Congenital anomalies of the kidney and urinary tract (CAKUT) are remarkably diverse, and may be either isolated to the kidney or involve other systems, and are notorious in their variable genotype-phenotype correlations. Genetic conditions underlying CAKUT are individually rare, but collectively contribute to disease etiology in ~ 16% of children with CAKUT. In this review, we will discuss basic concepts of kidney development and genetics, common causes of monogenic CAKUT, and the approach to diagnosing and managing a patient with suspected monogenic CAKUT. Altogether, the concepts presented herein represent an introduction to the emergence of nephrogenetics, a fast-growing multi-disciplinary field that is focused on deciphering the causes and manifestations of genetic kidney diseases as well as providing the framework for managing patients with genetic forms of CAKUT.

A multidisciplinary nephrogenetic referral clinic for children and adults-diagnostic achievements and insights.

BACKGROUND: Genetic kidney diseases contribute a significant portion of kidney diseases in children and young adults. Nephrogenetics is a rapidly evolving subspecialty; however, in the clinical setting, increased use of genetic testing poses implementation challenges. Consequently, we established a national nephrogenetics clinic to apply a multidisciplinary model. METHODS: Patients were referred from different pediatric or adult nephrology units across the country if their primary nephrologist suspected an undiagnosed genetic kidney disease. We determined the diagnostic rate and observed the effect of diagnosis on medical care. We also discuss the requirements of a nephrogenetics clinic in terms of logistics, recommended indications for referral, and building a multidisciplinary team. RESULTS: Over 24 months, genetic evaluation was completed for a total of 74 unrelated probands, with an age range of 10 days to 72 years. The most common phenotypes included congenital anomalies of the kidneys and urinary tract, nephrotic syndrome or unexplained proteinuria, nephrocalcinosis/nephrolithiasis, tubulopathies, and unexplained kidney failure. Over 80% of patients were referred due to clinical suspicion of an undetermined underlying genetic diagnosis. A molecular diagnosis was reached in 42/74 probands, yielding a diagnostic rate of 57%. Of these, over 71% of diagnoses were made via next generation sequencing (gene panel or exome sequencing). CONCLUSIONS: We identified a substantial fraction of genetic kidney etiologies among previously undiagnosed individuals which influenced subsequent clinical management. Our results support that nephrogenetics, a rapidly evolving field, may benefit from well-defined multidisciplinary co-management administered by a designated team of nephrologist, geneticist, and bioinformatician. A higher resolution version of the Graphical abstract is available as Supplementary information.

Whole-exome sequencing reveals a monogenic cause in 56% of individuals with laterality disorders and associated congenital heart defects.

BACKGROUND: The molecular basis of heterotaxy and congenital heart malformations associated with disruption of left-right asymmetry is broad and heterogenous, with over 25 genes implicated in its pathogenesis thus far. OBJECTIVE: We sought to elucidate the molecular basis of laterality disorders and associated congenital heart defects in a cohort of 30 unrelated probands of Arab-Muslim descent, using next-generation sequencing techniques. METHODS: Detailed clinical phenotyping followed by whole-exome sequencing (WES) was pursued for each of the probands and their parents (when available). Sanger sequencing was used for segregation analysis of disease-causing mutations in the families. RESULTS: Using WES, we reached a molecular diagnosis for 17 of the 30 probands (56.7%). Genes known to be associated with heterotaxy and/or primary ciliary dyskinesia, in which homozygous pathogenic or likely pathogenic variants were detected, included CFAP53 (CCDC11), CFAP298 (C21orf59), CFAP300, LRRC6, GDF1, DNAAF1, DNAH5, CCDC39, CCDC40, PKD1L1 and TTC25. Additionally, we detected a homozygous disease causing mutation in DAND5, as a novel recessive monogenic cause for heterotaxy in humans. Three additional probands were found to harbour variants of uncertain significance. These included variants in DNAH6, HYDIN, CELSR1 and CFAP46. CONCLUSIONS: Our findings contribute to the current knowledge regarding monogenic causes of heterotaxy and its associated congenital heart defects and underscore the role of next-generation sequencing techniques in the diagnostic workup of such patients, and especially among consanguineous families.

Clinical impact of exome sequencing in the setting of a general pediatric ward for hospitalized children with suspected genetic disorders.

Background: Genetic conditions contribute a significant portion of disease etiologies in children admitted to general pediatric wards worldwide. While exome sequencing (ES) has improved clinical diagnosis and management over a variety of pediatric subspecialties, it is not yet routinely used by general pediatric hospitalists. We aim to investigate the impact of exome sequencing in sequencing-naive children suspected of having monogenic disorders while receiving inpatient care. Methods: We prospectively employed exome sequencing in children admitted to the general pediatric inpatient service at a large tertiary medical center in Israel. Genetic analysis was triggered by general and/or subspecialist pediatricians who were part of the primary inpatient team. We determined the diagnostic yield among children who were referred for exome sequencing and observed the effects of genetic diagnosis on medical care. Results: A total of fifty probands were evaluated and exome sequenced during the study period. The most common phenotypes included were neurodevelopmental (56%), gastrointestinal (34%), and congenital cardiac anomalies (24%). A molecular diagnosis was reached in 38% of patients. Among seven patients (37%), the molecular genetic diagnosis influenced subsequent clinical management already during admission or shortly following discharge. Conclusion: We identified a significant fraction of genetic etiologies among undiagnosed children admitted to the general pediatric ward. Our results support that early application of exome sequencing may be maximized by pediatric hospitalists' high index of suspicion for an underlying genetic etiology, prompting an in-house genetic evaluation. This framework should include a multidisciplinary co-management approach of the primary care team working alongside with subspecialties, geneticists and bioinformaticians.

[THE GENETIC BASIS OF CHRONIC KIDNEY DISEASE IN CHILDREN AND YOUNG ADULTS].

INTRODUCTION: Chronic kidney disease (CKD) in children arises from heterogeneous disease etiologies. A large portion is caused by monogenic diseases, which are also known as single-gene disorders or Mendelian diseases. Understanding the genetic underpinnings of childhood and young adulthood, CKD has increased significantly over the last decade due to increased availability of genetic testing as well as clinician's awareness. This led to the discovery of numerous genes that, if mutated, may lead to early onset CKD. So far, hundreds of CKD-causing genes have been reported, explaining ~30% of cases among children and ~10% in adults. Nonetheless, the genetic diagnostic yield varies markedly across different study cohorts, depending on clinical presentation, geographic region and ethnicity. In clinical practice, the diagnosis of genetic kidney diseases may be challenging due to variable expressivity, incomplete penetrance, low index of suspicion, lack of overt symptoms at early disease stages and insufficient availability of next generation sequencing methods. Detection of monogenic causes of CKD provides definitive diagnosis that might end a long distressing odyssey. It enables personalized surveillance and treatments, spares unnecessary diagnostic procedures such as kidney biopsies, prevents the use of inappropriate therapies, and might also prevent incompatible transplantation from an affected relative. Additionally, it allows family genetic consulting and early diagnosis of asymptomatic family members. The notable progress in the field of genetics in addition to the diagnostic challenges of genetic kidney disease led to the emergence of nephrogenetics - a rapidly evolving subspecialty of nephrology and genetics. Preferably, the management of patients with genetic kidney disease should be multi-disciplinary and include collaboration between nephrologists, geneticists and additional consultants as needed. We anticipate that a routine use of genetic testing for CKD patients, as well as additional advancements in genetic discoveries, will further lead to understanding of genetic CKD patho-mechanisms and to the development of novel gene-based therapies. In this review, we will discuss the genetic basis of CKD in children and young adults. We will also discuss the clinical approach to patients with suspected genetic kidney disease.

Kidney and urinary tract findings among patients with Kabuki (make-up) syndrome.

BACKGROUND: Kabuki syndrome (KS) is a genetic disorder caused mainly by de novo pathogenic variants in KMT2D or KDM6A, characterized by recognizable facial features, intellectual disability, and multi-systemic involvement, including short stature, microcephaly, hearing loss, cardiac defects, and additional congenital anomalies. While congenital anomalies of the kidneys and urinary tract (CAKUT) are known manifestations of this disorder, studies focused solely on kidney involvement are scarce, and its prevalence is most likely underestimated. This study aimed to describe the prevalence and nature of CAKUT and other renal manifestations, in a cohort of KS patients followed at a single tertiary center. METHODS: All patients who were evaluated at the Sheba Medical Center and received a clinical and/or molecular diagnosis of KS, over a 16-year period (2004-2020), were included. Digital medical records, including ultrasound studies, were reviewed by a team of pediatric nephrologists. RESULTS: Thirteen patients were included in the study, at ages ranging from the neonatal period to 20 years. In eight patients, a pathogenic variant in KMT2D was established. CAKUT were detected in 8/13 (61.5%) of patients and varied from hypospadias, hydronephrosis, or double collecting systems to pelvic kidney, kidney asymmetry, horseshoe kidney, or kidney agenesis. One patient experienced kidney failure necessitating transplantation at 20 years of age. CONCLUSIONS: Our findings underscore the high prevalence of CAKUT and genitourinary involvement in patients with KS and suggest that assessment by pediatric nephrology specialists is warranted as part of the routine multidisciplinary evaluation of newly diagnosed patients. A higher resolution version of the Graphical abstract is available as Supplementary information.

PD-L1 EXPRESSION IN NORMAL ENDOCRINE TISSUES IS NOT INCREASED DESPITE HIGH INCIDENCE OF PD-1 INHIBITOR-ASSOCIATED ENDOCRINOPATHIES.

OBJECTIVE: Treatment with immune-checkpoint inhibitors often results in endocrine immune-related adverse events (irAEs), affecting the pituitary, thyroid, adrenal, and parathyroid glands and pancreas. The mechanism underlying the endocrine irAEs has not been fully elucidated, and it remains unclear why endocrine organs are so commonly affected. In the present study, we evaluated immunostaining patterns of programmed death-ligand 1 (PD-L1) in normal endocrine tissues to determine whether increased expression may explain the predilection of endocrinopathies in patients treated with programmed cell death-1 inhibitors. METHODS: Normal formalin-fixed paraffin-embedded endocrine tissues (pituitary, thyroid, adrenal, pancreas, and parathyroid) were collected from our hospital's pathology tissue archive. The tissues were assessed for membranous and cytoplasmic PD-L1 immunostaining using the Dako 22C3 pharmDx assay on an automated staining platform. RESULTS: We examined 49 endocrine tissues, including 12 thyroid, 5 pancreatic, 17 adrenal, 5 parathyroid, and 10 pituitary samples. Samples with less than 1% membranous PD-L1-positive cells were considered negative, while those with more than 1% of PD-L1 membranous staining were considered positive. Immunostaining result of immune-related cells was also evaluated, considering the cytoplasmic PD-L1-positive cells with the same cutoff of 1%. None of the endocrine tissues demonstrated PD-L1 positivity higher than 1% in the relevant cells. CONCLUSION: While our results do not suggest a role of PD-L1 expression in the pathogenesis of endocrine irAEs, they may serve as a basis for future studies further investigating the mechanisms of autoimmune, inflammatory, or malignant endocrine conditions.

Cardiovascular outcomes following percutaneous coronary intervention with drug-eluting balloons in chronic kidney disease: a retrospective analysis.

BACKGROUND: Chronic kidney disease (CKD) is associated with poorer outcomes following percutaneous coronary intervention (PCI) with drug-eluting stents. Drug-eluting balloons are used for in-stent restenosis and selected cases of de-novo coronary lesions. Little is known regarding the outcomes of individuals with CKD who undergo PCI with drug-eluting balloons. The goal of this study was to assess outcomes of PCI with drug-eluting balloons in individuals with CKD. METHODS: In a retrospective analysis, outcomes of PCI with drug-eluting balloons were compared between 101 patients with CKD and 261 without CKD. CKD was defined as estimated glomerular filtration rate < 60 ml/min/1.73m2. We compared demographics, procedure data and clinical outcomes in the first and second years following the procedure. RESULTS: Rates of major adverse cardiac events (MACE) and myocardial infarction were higher in patients with than without CKD: 23.8% vs. 13.8%, P < 0.005 and 15.9% vs. 3.8%, P < 0.001, respectively. Rates of target lesion revascularization were similar, 14.9 and 11.5%, respectively, P = 0.4. Shorter duration of dual anti-platelet therapy was observed among patients with than without CKD (10.0 + 3.4 vs. 10.9 + 3.7 months, P < 0.05). First-year hemorrhage episodes were similar in the two groups (0.08 ± 0.4 and 0.03 ± 0.2, respectively, P = 0.2). In a multivariate regression analysis, CKD was associated with increased risks of first year MACE (OR 2.1; 95% confidence interval 1.0-4.3, P < 0.001). CONCLUSIONS: PCI with drug-eluting balloons was associated with increased cardiovascular morbidity and mortality in patients with than without CKD. However, rates of target lesion revascularization were similar in the two groups. Shorter duration of dual anti-platelet therapy was observed in the CKD group.

BASELINE TSH LEVEL IS ASSOCIATED WITH RISK OF ANTI-PD-1-INDUCED THYROID DYSFUNCTION.

Objective: To characterize anti-programmed cell death 1 (PD-1)-induced thyroid immune-related adverse events (irAEs) in metastatic melanoma patients treated at our institution and to identify risk factors associated with their development. Methods: We reviewed the files of 154 patients with metastatic melanoma treated with PD-1 inhibitors at a single institution from November 1, 2011, to February 28, 2017. The association of thyroid irAEs within 120 days posttreatment initiation with age, gender, melanoma characteristics, treatment protocol, and baseline thyroid-stimulating hormone (TSH) was examined. Results: Overall, 42.4% developed thyroid dysfunction following treatment, including 20.2% (20/99) subclinical thyroid dysfunction, 13.1% (13/99) overt hypothyroidism, and 9.1% (9/99) overt hyperthyroidism. Of those that developed overt hyperthyroidism, 8 progressed to overt hypothyroidism, consistent with thyroiditis. Age, gender, melanoma characteristics, or treatment protocol did not modify the risk of developing thyroid irAEs. Higher baseline TSH was observed in patients who developed overt hypothyroidism versus hyperthyroidism versus those who remained euthyroid (P = .05). A pretreatment TSH >2.19 mIU/mL was associated with an increased risk of overt thyroid dysfunction (odds ratio, 3.46; 95% confidence interval, 1.2 to 9.8). Conclusion: Thyroid dysfunction following treatment with PD-1 inhibitors is common, and patients with a higher baseline TSH appear to be at increased risk. Such patients may benefit from closer monitoring of their thyroid function following initiation of anti PD-1 agents. Abbreviations: CTLA-4 = cytotoxic T-lymphocyte antigen 4; FT3 = free triiodothyronine; FT4 = free thyroxine; irAE = immune-related adverse event; PD-1 = programmed cell death 1; TFT = thyroid function test; TPO = thyroid peroxidase; TSH = thyroid-stimulating hormone.