Your search keyword '"Gharavi, Ali G"' showing total 15 results

1. Somatic Mutations Modulate Autoantibodies against Galactose-Deficient IgA1 in IgA Nephropathy.

Author

Huang ZQ, Raska M, Stewart TJ, Reily C, King RG, Crossman DK, Crowley MR, Hargett A, Zhang Z, Suzuki H, Hall S, Wyatt RJ, Julian BA, Renfrow MB, Gharavi AG, and Novak J

Subjects

Glomerulonephritis, IGA enzymology, Humans, Autoantibodies genetics, Galactose deficiency, Glomerulonephritis, IGA genetics, Glomerulonephritis, IGA immunology, Immunoglobulin A, Mutation

Abstract

Autoantibodies against galactose-deficient IgA1 drive formation of pathogenic immune complexes in IgA nephropathy. IgG autoantibodies against galactose-deficient IgA1 in patients with IgA nephropathy have a specific amino-acid sequence, Y 1 CS 3 , in the complementarity-determining region 3 of the heavy chain variable region compared with a Y 1 CA 3 sequence in similar isotype-matched IgG from healthy controls. We previously found that the S 3 residue is critical for binding galactose-deficient IgA1. To determine whether this difference is due to a rare germline sequence, we amplified and sequenced the corresponding germline variable region genes from peripheral blood mononuclear cells of seven patients with IgA nephropathy and six healthy controls from whom we had cloned single-cell lines secreting monoclonal IgG specific for galactose-deficient IgA1. Sanger DNA sequencing revealed that complementarity-determining region 3 in the variable region of the germline genes encoded the Y 1 C(A/V) 3 amino-acid sequence. Thus, the A/V>S substitution in the complementarity-determining region 3 of anti-galactose-deficient-IgA1 autoantibodies of the patients with IgA nephropathy is not a rare germline gene variant. Modeling analyses indicated that the S 3 hydroxyl group spans the complementarity-determining region 3 loop stem, stabilizing the adjacent β-sheet and stem structure, important features for effective binding to galactose-deficient IgA1. Understanding processes leading to production of the autoantibodies may offer new approaches to treat IgA nephropathy., (Copyright © 2016 by the American Society of Nephrology.)

Published

2016

2. Cytokines alter IgA1 O-glycosylation by dysregulating C1GalT1 and ST6GalNAc-II enzymes.

Author

Suzuki H, Raska M, Yamada K, Moldoveanu Z, Julian BA, Wyatt RJ, Tomino Y, Gharavi AG, and Novak J

Subjects

Adult, Cell Line, Female, Galactose deficiency, Galactose metabolism, Gene Knockdown Techniques, Glomerulonephritis, IGA enzymology, Glomerulonephritis, IGA pathology, Glycosylation drug effects, Humans, Interleukin-4 pharmacology, Interleukin-6 pharmacology, Male, N-Acetylneuraminic Acid metabolism, Polysaccharides metabolism, RNA, Small Interfering metabolism, Cytokines pharmacology, Galactosyltransferases metabolism, Immunoglobulin A metabolism, Sialyltransferases metabolism

Abstract

IgA nephropathy (IgAN), the most common primary glomerulonephritis, is characterized by renal immunodeposits containing IgA1 with galactose-deficient O-glycans (Gd-IgA1). These immunodeposits originate from circulating immune complexes consisting of anti-glycan antibodies bound to Gd-IgA1. As clinical disease onset and activity of IgAN often coincide with mucosal infections and dysregulation of cytokines, we hypothesized that cytokines may affect IgA1 O-glycosylation. We used IgA1-secreting cells derived from the circulation of IgAN patients and healthy controls and assessed whether IgA1 O-glycosylation is altered by cytokines. Of the eight cytokines tested, only IL-6 and, to a lesser degree, IL-4 significantly increased galactose deficiency of IgA1; changes in IgA1 O-glycosylation were robust for the cells from IgAN patients. These cytokines reduced galactosylation of the O-glycan substrate directly via decreased expression of the galactosyltransferase C1GalT1 and, indirectly, via increased expression of the sialyltransferase ST6GalNAc-II, which prevents galactosylation by C1GalT1. These findings were confirmed by siRNA knockdown of the corresponding genes and by in vitro enzyme reactions. In summary, IL-6 and IL-4 accentuated galactose deficiency of IgA1 via coordinated modulation of key glycosyltransferases. These data provide a mechanism explaining increased immune-complex formation and disease exacerbation during mucosal infections in IgAN patients.

Published

2014

3. The level of galactose-deficient IgA1 in the sera of patients with IgA nephropathy is associated with disease progression.

Author

Zhao N, Hou P, Lv J, Moldoveanu Z, Li Y, Kiryluk K, Gharavi AG, Novak J, and Zhang H

Subjects

Adolescent, Adult, Aged, Biomarkers blood, Case-Control Studies, Chi-Square Distribution, China, Disease Progression, Enzyme-Linked Immunosorbent Assay, Female, Follow-Up Studies, Glomerulonephritis, IGA immunology, Glomerulonephritis, IGA mortality, Glomerulonephritis, IGA therapy, Humans, Kidney Failure, Chronic blood, Kidney Failure, Chronic immunology, Kidney Failure, Chronic mortality, Kidney Failure, Chronic therapy, Male, Middle Aged, Multivariate Analysis, Prognosis, Proportional Hazards Models, Prospective Studies, Renal Insufficiency blood, Renal Insufficiency immunology, Renal Insufficiency mortality, Renal Insufficiency therapy, Risk Assessment, Risk Factors, Time Factors, Up-Regulation, Young Adult, Galactose blood, Galactose deficiency, Glomerulonephritis, IGA blood, Immunoglobulin A blood

Abstract

Although high serum levels of galactose-deficient IgA1 (an important biomarker of IgA nephropathy (IgAN)) are found in most patients with IgAN, their relationship to disease severity and progression remains unclear. To help clarify this we prospectively enrolled 275 patients with IgAN and followed them for a median of 47 months (range 12-96 months). Serum galactose-deficient IgA1 was measured at the time of diagnosis using a lectin-based ELISA, and renal survival was modeled using the Cox proportional hazards method. The serum levels of galactose-deficient IgA1 were higher in patients with IgAN compared to those in healthy controls. Importantly, in adjusted analysis, higher levels of galactose-deficient IgA1 were independently associated with a greater risk of deterioration in renal function with a hazard ratio of 1.44 per standard deviation of the natural log-transformed galactose-deficient IgA1 concentration. In reference to the first quartile, the risk of kidney failure increased such that the hazard ratio for the second quartile was 2.47, 3.86 for the third, and 4.76 for the fourth quartile of the galactose-deficient IgA1 concentration. Hence, elevated serum levels of galactose-deficient IgA1 are associated with a poor prognosis in IgAN.

Published

2012

4. The pathophysiology of IgA nephropathy.

Author

Suzuki H, Kiryluk K, Novak J, Moldoveanu Z, Herr AB, Renfrow MB, Wyatt RJ, Scolari F, Mestecky J, Gharavi AG, and Julian BA

Subjects

Biomarkers blood, Biomarkers urine, Galactose metabolism, Glomerulonephritis, IGA genetics, Glomerulonephritis, IGA metabolism, Glomerulonephritis, IGA physiopathology, Glycosylation, Humans, Immunoglobulin A immunology, Mesangial Cells metabolism, Glomerulonephritis, IGA etiology, Immunoglobulin A metabolism

Abstract

Here we discuss recent advances in understanding the biochemical, immunologic, and genetic pathogenesis of IgA nephropathy, the most common primary glomerulonephritis. Current data indicate that at least four processes contribute to development of IgA nephropathy. Patients with IgA nephropathy often have a genetically determined increase in circulating levels of IgA1 with galactose-deficient O-glycans in the hinge-region (Hit 1). This glycosylation aberrancy is, however, not sufficient to induce renal injury. Synthesis and binding of antibodies directed against galactose-deficient IgA1 are required for formation of immune complexes that accumulate in the glomerular mesangium (Hits 2 and 3). These immune complexes activate mesangial cells, inducing proliferation and secretion of extracellular matrix, cytokines, and chemokines, which result in renal injury (Hit 4). Recent genome-wide association studies identify five distinct susceptibility loci--in the MHC on chromosome 6p21, the complement factor H locus on chromosome 1q32, and in a cluster of genes on chromosome 22q22--that potentially influence these processes and contain candidate mediators of disease. The significant variation in prevalence of risk alleles among different populations may also explain some of the sizable geographic variation in disease prevalence. Elucidation of the pathogenesis of IgA nephropathy provides an opportunity to develop disease-specific therapies.

Published

2011

5. Oxidative stress and galactose-deficient IgA1 as markers of progression in IgA nephropathy.

Author

Camilla R, Suzuki H, Daprà V, Loiacono E, Peruzzi L, Amore A, Ghiggeri GM, Mazzucco G, Scolari F, Gharavi AG, Appel GB, Troyanov S, Novak J, Julian BA, and Coppo R

Subjects

Adolescent, Biomarkers blood, Case-Control Studies, Disease Progression, Enzyme-Linked Immunosorbent Assay, Female, Galactose deficiency, Glomerulonephritis, IGA blood, Glomerulonephritis, IGA diagnosis, Glycation End Products, Advanced blood, Glycosylation, Humans, Italy, Least-Squares Analysis, Linear Models, Male, Predictive Value of Tests, Serum Albumin analysis, Time Factors, United States, Up-Regulation, Young Adult, Galactose blood, Glomerulonephritis, IGA metabolism, Immunoglobulin A blood, Oxidative Stress

Abstract

Background and Objectives: We assessed the activation of the oxidative stress pathway in patients with IgA nephropathy (IgAN), while evaluating the classic marker of the disease (galactose-deficient serum IgA1)., Design, Setting, Participants, & Measurements: Sera from 292 patients and 69 healthy controls from Italy and the United States were assayed for advanced oxidation protein products (AOPPs), free sulfhydryl groups on albumin (SH-Alb), and IgA1 with galactose-deficient hinge-region O-glycans (Gd-IgA1). Gd-IgA1 was detected by binding to Helix aspersa agglutinin (HAA) and expressed as total Gd-IgA1 or as degree of galactose deficiency relative to a standard Gd-IgA1 myeloma protein (%HAA)., Results: Sera from IgAN patients showed higher levels of Gd-IgA1, %HAA, and AOPPs, but lower levels of SH-Alb in comparison to that from healthy controls. Serum levels of AOPPs significantly correlated with serum Gd-IgA1 and %HAA. The relationship between these biomarkers and clinical features at sampling and during follow-up was assessed in 62 patients with long-term follow-up. AOPPs and %HAA correlated with proteinuria at sampling and independently associated with subsequent proteinuria. Levels of AOPPs correlated with rate of decline in renal function after sampling. The combination of a high level of AOPPs and a high level of %HAA associated with decline in estimated GFR., Conclusions: Serum levels of aberrantly glycosylated IgA1 are elevated and oxidative stress pathways are activated in patients with IgAN; the intensity of the stress correlated with expression and progression of the disease. We speculate that oxidative stress may modulate the nephrotoxicity of aberrantly glycosylated IgA1 in IgAN.

Published

2011

6. Aberrant glycosylation of IgA1 is inherited in both pediatric IgA nephropathy and Henoch-Schönlein purpura nephritis.

Author

Kiryluk K, Moldoveanu Z, Sanders JT, Eison TM, Suzuki H, Julian BA, Novak J, Gharavi AG, and Wyatt RJ

Subjects

Adolescent, Adult, Aging blood, Aging immunology, Biomarkers blood, Case-Control Studies, Child, Cohort Studies, Female, Glycosylation, Humans, Immunoglobulin A chemistry, Immunoglobulin A genetics, Male, Middle Aged, Models, Genetic, Young Adult, Glomerulonephritis, IGA genetics, Glomerulonephritis, IGA immunology, IgA Vasculitis genetics, IgA Vasculitis immunology, Immunoglobulin A blood, Nephritis, Hereditary genetics, Nephritis, Hereditary immunology

Abstract

Serum galactose-deficient immunoglobulin A1 (Gd-IgA1) is an inherited risk factor for adult IgA nephropathy (IgAN). In this paper, we determined the heritability of serum Gd-IgA1 levels in children with IgAN and Henoch-Schönlein purpura nephritis (HSPN), two disorders with clinical phenotypes sharing common pathogenic mechanisms. Serum Gd-IgA1 concentrations were quantified using a Helix aspersa-lectin-based enzyme-linked immunosorbent assay. As a group, 34 children with either disorder (20 with HSPN and 14 with IgAN) had significantly higher Gd-IgA1 levels compared with 51 age- and ethnicity-matched pediatric controls. Serum levels of Gd-IgA1 were also elevated in a large fraction of 54 first-degree relatives of pediatric IgAN and HSPN patients compared with 141 unrelated healthy adult controls. A unilineal transmission of the trait was found in 17, bilineal transmission in 1, and sporadic occurrence in 5 of 23 families when both parents and the patient were analyzed. There was a significant age-, gender-, and household-adjusted heritability of serum galactose-deficient IgA1 estimated at 76% in pediatric IgAN and at 64% in HSPN patients. Thus, serum galactose-deficient IgA1 levels are highly inherited in pediatric patients with IgAN and HSPN, providing support for another shared pathogenic link between these disorders.

Published

2011

7. Aberrant glycosylation of IgA1 and anti-glycan antibodies in IgA nephropathy: role of mucosal immune system.

Author

Novak J, Moldoveanu Z, Julian BA, Raska M, Wyatt RJ, Suzuki Y, Tomino Y, Gharavi AG, Mestecky J, and Suzuki H

Subjects

Antibodies, Anti-Idiotypic metabolism, Glomerular Mesangium metabolism, Glomerulonephritis, IGA metabolism, Glycosylation, Humans, Immunoglobulin A metabolism, Mesangial Cells immunology, Mesangial Cells metabolism, Mucous Membrane immunology, Mucous Membrane metabolism, Antibodies, Anti-Idiotypic immunology, Antigen-Antibody Complex immunology, Glomerular Mesangium immunology, Glomerulonephritis, IGA immunology, Immunity, Mucosal physiology, Immunoglobulin A immunology, Polysaccharides immunology

Abstract

IgA nephropathy (IgAN), the most common glomerulonephritis, is characterized by mesangial IgA1-containing immunodeposits, proliferation of mesangial cells, and matrix expansion. Clinical onset is frequently heralded by synpharyngitic hematuria, macroscopic hematuria during an upper-respiratory tract infection. Clinical and laboratory data support a postulated extrarenal origin of the glomerular IgA1, likely derived from circulating immune complexes containing polymeric IgA1, deficient in galactose in the hinge-region O-glycans, bound by antiglycan antibodies. This aberrant IgA1 is produced by IgA1-secreting cells with abnormal activities of specific glycosyltransferases. The galactose deficiency affects IgA1 induced by mucosal antigens and elevated circulating levels of this abnormal IgA1 are hereditable, suggesting interactions of genetic and environmental factors. An abnormal mucosal immune response resulting in production of galactose-deficient IgA1 in IgAN patients is supported by several observations: the aberrant glycosylation affects mostly polymeric IgA1 produced by mucosal-associated IgA1-secreting cells (including those from tonsils), the synpharyngitic nature of the macroscopic hematuria, and the association of disease severity with polymorphisms of a pattern-recognition receptor, TLR9. Thus, IgAN is an auto-immune disease, induced by mesangial deposition of circulating complexes containing galactose-deficient IgA1. The aberrant glycosylation of IgA1 may reflect abnormal mucosal immune responses to infections of the upper respiratory tract in genetically predisposed individuals., (Copyright © 2011 S. Karger AG, Basel.)

Published

2011

8. Galactose-deficient IgA1 in African Americans with IgA nephropathy: serum levels and heritability.

Author

Hastings MC, Moldoveanu Z, Julian BA, Novak J, Sanders JT, McGlothan KR, Gharavi AG, and Wyatt RJ

Subjects

Adolescent, Adult, Age Factors, Aged, Aged, 80 and over, Biomarkers blood, Biopsy, Case-Control Studies, Child, Female, Galactose deficiency, Genetic Predisposition to Disease, Glomerulonephritis, IGA blood, Glomerulonephritis, IGA ethnology, Glomerulonephritis, IGA pathology, Glycosylation, Heredity, Humans, Male, Middle Aged, Pedigree, Phenotype, Protein Processing, Post-Translational, Risk Assessment, Risk Factors, Up-Regulation, Young Adult, Black or African American genetics, Galactose blood, Glomerulonephritis, IGA genetics, Immunoglobulin A blood

Abstract

Background and Objectives: Serum levels of galactose-deficient IgA1 (Gd-IgA1) are elevated and heritable in Caucasian and Asian patients with IgA nephropathy (IgAN), but have not been characterized in African Americans (AA). Our objective was to determine whether serum Gd-IgA1 levels are increased in AA patients with IgAN and whether this is a heritable trait in this group., Design, Setting, Participants, & Measurements: Blood and urine samples were obtained from 18 adult and 11 pediatric AA patients with biopsy-proven IgAN and from 34 of their first-degree relatives. Healthy controls included 150 Caucasian adults, 65 AA adults, 45 Caucasian children, and 49 AA children. Serum total IgA and Gd-IgA1 levels were measured in patients and controls. Significant differences between patient and control groups for serum total IgA, Gd-IgA1, and ratio of Gd-IgA1/total IgA were determined by the Mann-Whitney U test. Heritability was calculated using SOLAR., Results: After stratifying by age, 7 of 11 pediatric and 9 of 18 adult AA patients with IgAN had serum Gd-IgA1 levels above the 95th percentile for age-appropriate AA controls. For first-degree relatives, the serum Gd-IgA1 level was >95th percentile for 1 of 8 when the patient's level was <95th percentile and 12 of 26 when the patient's level was >95th percentile (P = 0.116, Fisher exact test). Heritability was 0.74 (P = 0.007)., Conclusions: Serum levels of Gd-IgA1 are often elevated in AA patients with IgAN and their first-degree relatives. Thus, aberrant IgA1 glycosylation is a heritable risk factor for IgAN in African Americans.

Published

2010

9. Aberrant IgA1 glycosylation is inherited in familial and sporadic IgA nephropathy.

Author

Gharavi AG, Moldoveanu Z, Wyatt RJ, Barker CV, Woodford SY, Lifton RP, Mestecky J, Novak J, and Julian BA

Subjects

Adult, Enzyme-Linked Immunosorbent Assay methods, Family Health, Genes, Dominant, Glycosylation, Humans, Immunoglobulin A metabolism, Pedigree, Glomerulonephritis, IGA genetics, Glomerulonephritis, IGA metabolism, Immunoglobulin A genetics

Abstract

IgA nephropathy (IgAN) is a complex trait determined by genetic and environmental factors. Most IgAN patients exhibit a characteristic undergalactosylation of the O-glycans of the IgA1 hinge region, which promotes formation and glomerular deposition of immune complexes. It is not known whether this aberrant glycosylation is the result of an acquired or inherited defect, or whether the presence of aberrant IgA1 glycoforms alone can produce IgAN. A newly validated lectin enzyme-linked immunosorbent assay (ELISA) was used to determine the serum level of galactose-deficient IgA1 (Gd-IgA1) in a cohort of 89 IgAN patients and 266 of their relatives. High Gd-IgA1 levels (> or =95th percentile for controls) were observed in all 5 available patients with familial IgAN, in 21 of 45 (47%) of their at-risk relatives (assuming autosomal dominant inheritance), and in only 1 of 19 (5%) of unrelated individuals who married into the family. This provides evidence that abnormal IgA1 glycosylation is an inherited rather than acquired trait. Similarly, Gd-IgA1 levels were high in 65 of 84 (78%) patients with sporadic IgAN and in 50 of 202 (25%) blood relatives. Heritability of Gd-IgA1 was estimated at 0.54 (P = 0.0001), and segregation analysis suggested the presence of a major dominant gene on a polygenic background. Because most relatives with abnormal IgA1 glycoforms were asymptomatic, additional cofactors must be required for IgAN to develop. The fact that abnormal IgA1 glycosylation clusters in most but not all families suggests that measuring Gd-IgA1 may help distinguish patients with different pathogenic mechanisms of disease.

Published

2008

10. Genetic studies of IgA nephropathy: past, present, and future

Author

Kiryluk, Krzysztof, Julian, Bruce A., Wyatt, Robert J., Scolari, Francesco, Zhang, Hong, Novak, Jan, and Gharavi, Ali G.

Subjects

Genomics, Genetic research, Genes, Immunoglobulin A, Kidney diseases, Health

Abstract

Immunoglobulin A nephropathy (IgAN) is the most common form of primary glomerulonephritis worldwide and an important cause of kidney disease in young adults. Highly variable clinical presentation and outcome of IgAN suggest that this diagnosis may encompass multiple subsets of disease that are not distinguishable by currently available clinical tools. Marked differences in disease prevalence between individuals of European, Asian, and African ancestry suggest the existence of susceptibility genes that are present at variable frequencies in these populations. Familial forms of IgAN have also been reported throughout the world but are probably underrecognized because associated urinary abnormalities are often intermittent in affected family members. Of the many pathogenic mechanisms reported, defects in IgA1 glycosylation that lead to formation of immune complexes have been consistently demonstrated. Recent data indicates that these IgA1 glycosylation defects are inherited and constitute a heritable risk factor for IgAN. Because of the complex genetic architecture of IgAN, the efforts to map disease susceptibility genes have been difficult, and no causative mutations have yet been identified. Linkage-based approaches have been hindered by disease heterogeneity and lack of a reliable noninvasive diagnostic test for screening family members at risk of IgAN. Many candidate-gene association studies have been published, but most suffer from small sample size and methodological problems, and none of the results have been convincingly validated. New genomic approaches, including genome-wide association studies currently under way, offer promising tools for elucidating the genetic basis of IgAN. Keywords IgA nephropathy * Genetics * Hereditary disease * IgA1 glycosylation * Genome-wide association study, Introduction Primary immunoglobulin A nephropathy (IgAN) is a complex trait [1] and a significant cause of renal insufficiency in young adults [2-5]. Complex diseases refer to disorders with a genetic [...]

Published

2010

11. Predicting Progression of IgA Nephropathy: New Clinical Progression Risk Score.

Author

Jingyuan Xie, Kiryluk, Krzysztof, Weiming Wang, Zhaohui Wang, Shanmai Guo, Pingyan Shen, Hong Ren, Xiaoxia Pan, Xiaonong Chen, Wen Zhang, Xiao Li, Hao Shi, Yifu Li, Gharavi, Ali G., and Nan Chen

Subjects

CHRONIC kidney failure, KIDNEY diseases, IGA glomerulonephritis, IMMUNOGLOBULIN A, HEMOGLOBIN polymorphisms, BLOOD pigments, HEMOPROTEINS

Abstract

IgA nephropathy (IgAN) is a common cause of end-stage renal disease (ESRD) in Asia. In this study, based on a large cohort of Chinese patients with IgAN, we aim to identify independent predictive factors associated with disease progression to ESRD. We collected retrospective clinical data and renal outcomes on 619 biopsy-diagnosed IgAN patients with a mean follow-up time of 41.3 months. In total, 67 individuals reached the study endpoint defined by occurrence of ESRD necessitating renal replacement therapy. In the fully adjusted Cox proportional hazards model, there were four baseline variables with a significant independent effect on the risk of ESRD. These included: eGFR [HR = 0.96(0.95-0.97)], serum albumin [HR = 0.47(0.32-0.68)], hemoglobin [HR = 0.79(0.72-0.88)], and SBP [HR = 1.02(1.00-1.03)]. Based on these observations, we developed a 4-variable equation of a clinical risk score for disease progression. Our risk score explained nearly 22% of the total variance in the primary outcome. Survival ROC curves revealed that the risk score provided improved prediction of ESRD at 24th, 60th and 120th month of follow-up compared to the three previously proposed risk scores. In summary, our data indicate that IgAN patients with higher systolic blood pressure, lower eGFR, hemoglobin, and albumin levels at baseline are at a greatest risk of progression to ESRD. The new progression risk score calculated based on these four baseline variables offers a simple clinical tool for risk stratification. [ABSTRACT FROM AUTHOR]

Published

2012

12. Angiotensin-converting enzyme genotype and outcome in pediatric IgA nephropathy.

Author

Santos, Delos M., Ault, Bettina H., Gharavi, Ali G., Kritchevsky, Stephen B., Quasney, Michael W., Jackson, Elizabeth C., Fisher, Kimberly A., Woodford, Susan Y., Mitchell, Bonnie L., Gaber, Lillian W., Arheart, Kristopher L., and Wyatt, Robert J.

Subjects

ANGIOTENSIN converting enzyme, IMMUNOGLOBULIN A, KIDNEY diseases

Abstract

Angiotensin-converting enzyme (ACE) I/D polymorphism has been implicated as a genetic marker for progression of glomerular disease. Studies of ACE genotypes in adults with IgA nephropathy (IgAN) have yielded conflicting results. We performed ACE genotyping on 79 patients with IgAN diagnosed prior to age 18 years who had either progressed to end-stage renal disease (ESRD) or are now more than 5 years post biopsy. Mean follow-up was 14.8 years for those with normal renal function. Forty-three (54.4%) subjects had normal renal function and a normal urinalysis at last evaluation. Sixteen (20%) progressed to ESRD and 1 has chronic renal insufficiency. Kaplan-Meier survival curves for progression to ESRD did not differ significantly for the ACE DD, ID, and II genotype groups (P=0.095, log-rank test). By univariate analysis, presence of hypertension and degree of proteinuria at diagnosis, and unfavorable histology but not ACE genotype, was significantly associated with progression to ESRD. In the Cox proportional hazards model that included grade of proteinuria, the ACE D allele was a significant independent predictor of outcome with a hazard ratio of 2.37 (P=0.031). Our data, while inconclusive, suggest that the ACE D allele may associate with poor outcome in pediatric IgAN. [ABSTRACT FROM AUTHOR]

Published

2002

13. IgA nephropathy—the case for a genetic basis becomes stronger.

Author

Kiryluk, Krzysztof, Gharavi, Ali G., Izzi, Claudia, and Scolari, Francesco

Subjects

*IGA glomerulonephritis, *IMMUNOGLOBULIN A, *KIDNEY diseases, *DISEASE susceptibility, *MEDICAL genetics, *GENETICS

Abstract

The article discusses the genetic aspects of primary immunoglobulin A nephropathy (IgAN). Both ethnic differencs in disease susceptibility to IgAN and inter-individual variation in the disease course and prognosis emphasize the role of genetics in its pathogenesis. The creation of an IgAN biomarket would allow diagnosis without the need for kidney biopsy and conduct family medical screening in linkage research.

Published

2010

14. Cytokines Alter IgA1 O-Glycosylation by Dysregulating C1GalT1 and ST6GalNAc-II Enzymes.

Author

Hitoshi Suzuki, Raska, Milan, Koshi Yamada, Moldoveanu, Zina, Julian, Bruce A., Wyatt, Robert J., Yasuhiko Tomino, Gharavi, Ali G., and Novak, Jan

Subjects

*IMMUNOGLOBULIN A, *GLOMERULONEPHRITIS, *GALACTOSE, *CYTOKINES, *INTERLEUKIN-6

Abstract

IgA ephropathy (IgAN), the most common primary glomerulonephritis, is characterized by renal immuno deposits containing IgA1 with galactose-deficient O-glycans (Gd-IgA1). These immuno deposits originate from circulating immune complexes consisting of anti-glycan antibodies bound to Gd-IgA1.As clinical disease onset and activity of IgAN often coincide with mucosal infections and dysregulation of cytokines, we hypothesized that cytokines may affect IgA1 O-glycosylation. We used IgA1-secreting cells derived fromthe circulation of IgANpatients and healthy controls and assessed whether IgA1O-glycosylation is altered by cytokines. Of the eight cytokines tested, only IL-6 and, to a lesser degree, IL-4 significantly increased galactose deficiency of IgA1; changes in IgA1O-glycosylation were robust for the cells from IgAN patients. These cytokines reduced galactosylation of the -glycan substrate directly via decreased expression of the galactosyl transferase C1GalT1 and, indirectly, via increased expression of the sialyltransferase ST6GalNAc-II, which prevents galactosylation by C1GalT1. These findings were confirmed by siRNA knockdown of the corresponding genes and by in vitro enzyme reactions. In summary, IL-6 and IL-4 accentuated galactose deficiency of IgA1 via coordinated modulation of key glycosyltransferases. These data provide a mechanism explaining increased immune-complex formation and disease exacerbation during mucosal infections in IgAN patients. [ABSTRACT FROM AUTHOR]

Published

2014

15. The genetics of IgA nephropathy.

Author

Beerman, Isabel, Novak, Jan, Wyatt, Robert J., Julian, Bruce A., and Gharavi, Ali G.

Subjects

*IMMUNOGLOBULIN A, *GLOMERULONEPHRITIS, *GLYCOSYLATION, *IMMUNE response, *FAMILIAL diseases

Abstract

IgA nephropathy is the most common form of primary glomerulonephritis. Variations in clinical manifestations indicate that a diagnosis of IgA nephropathy encompasses multiple disease subsets that cannot be distinguished on the basis of renal pathology or clinical variables alone. Familial forms of the disease have been reported throughout the world, but are probably under-recognized because associated urinary abnormalities are often intermittent in affected family members. IgA nephropathy has complex determination, with different genes probably causing disease in different patient subgroups. Of the many pathogenic mechanisms reported, defects in IgA1 glycosylation that lead to formation of immune complexes have been consistently implicated. Here, we present the evidence for genetic contributions to the disease, review clinical patterns of familial disease, and summarize some of the most promising genetic studies conducted to date. Linkage-based approaches to the study of familial forms of the disease have identified significant or suggestive loci on chromosomes 6q22-23, 2q36, 4q26-31, 17q12-22 and 3p24-23, but no causal gene has yet been identified. Many interesting, but poorly replicated, genetic association studies have also been reported. We discuss recent developments in analytic tools that should enable genetic studies of sporadic forms of disease by the genome-wide association approach. [ABSTRACT FROM AUTHOR]

Published

2007