Stephen I-Hong Hsu

The Oxford classification of IgA nephropathy: rationale, clinicopathological correlations, and classification

IgA nephropathy is the most common glomerular disease worldwide, yet there is no international consensus for its pathological or clinical classification. Here a new classification for IgA nephropathy is presented by an international consensus working group. The goal of this new system was to identify specific pathological features that more accurately predict risk of progression of renal disease in IgA nephropathy, thus enabling both clinicians and pathologists to improve individual patient prognostication. In a retrospective analysis, sequential clinical data were obtained on 265 adults and children with IgA nephropathy who were followed for a median of 5 years. Renal biopsies from all patients were scored by pathologists blinded to the clinical data for pathological variables identified as reproducible by an iterative process. Four of these variables: (1) the mesangial hypercellularity score, (2) segmental glomerulosclerosis, (3) endocapillary hypercellularity, and (4) tubular atrophy/interstitial fibrosis were subsequently shown to have independent value in predicting renal outcome. These specific pathological features withstood rigorous statistical analysis even after taking into account all clinical indicators available at the time of biopsy as well as during follow-up. The features have prognostic significance and we recommended they be taken into account for predicting outcome independent of the clinical features both at the time of presentation and during follow-up. The value of crescents was not addressed due to their low prevalence in the enrolled cohort.

The Oxford classification of IgA nephropathy: pathology definitions, correlations, and reproducibility

Pathological classifications in current use for the assessment of glomerular disease have been typically opinion-based and built on the expert assumptions of renal pathologists about lesions historically thought to be relevant to prognosis. Here we develop a unique approach for the pathological classification of a glomerular disease, IgA nephropathy, in which renal pathologists first undertook extensive iterative work to define pathologic variables with acceptable inter-observer reproducibility. Where groups of such features closely correlated, variables were further selected on the basis of least susceptibility to sampling error and ease of scoring in routine practice. This process identified six pathologic variables that could then be used to interrogate prognostic significance independent of the clinical data in IgA nephropathy (described in the accompanying article). These variables were (1) mesangial cellularity score; percentage of glomeruli showing (2) segmental sclerosis, (3) endocapillary hypercellularity, or (4) cellular/fibrocellular crescents; (5) percentage of interstitial fibrosis/tubular atrophy; and finally (6) arteriosclerosis score. Results for interobserver reproducibility of individual pathological features are likely applicable to other glomerulonephritides, but it is not known if the correlations between variables depend on the specific type of glomerular pathobiology. Variables identified in this study withstood rigorous pathology review and statistical testing and we recommend that they become a necessary part of pathology reports for IgA nephropathy. Our methodology, translating a strong evidence-based dataset into a working format, is a model for developing classifications of other types of renal disease.

Risk Factors for Proteinuria in a Large, Multiracial, Southeast Asian Population

The factors associated with proteinuria were examined in a large multiracial Asian population participating in a screening program aimed at the early detection of renal disease. Of 213,873 adults who participated, 189,117 with complete data were included. Malay race, increasing age, both extremes of body mass index (BMI), self-reported family history of kidney disease (FKD), and higher systolic and diastolic BP measurements (even at levels classified as being within the normal range) were independently associated with dipstick-positive proteinuria. The odds ratios (OR) for proteinuria increased progressively with age. There was a J-shaped relationship between BMI and proteinuria (OR of 1.3, 1.00, 1.3, 1.6, and 2.5 for BMI of < or =18.00, 23.00 to 24.99, 25.00 to 27.49, 27.50 to 29.99, and > or =30.00 kg/m(2), respectively, compared with BMI of 18.01 to 22.99 kg/m(2)). OR for proteinuria according to systolic and diastolic BP were significantly increased beginning at levels of 110 and 90 mmHg, respectively. In addition, the Malay race was associated with a significantly higher OR for proteinuria, compared with the Chinese race (OR of 1.3). Finally, FKD was significantly associated with proteinuria (OR of 1.7), whereas a family history of diabetes mellitus and a family history of hypertension were not. When family histories were analyzed by clustering, isolated FKD remained a significant determinant of proteinuria and the magnitude of the effect was not significantly different from that observed in the presence of a coexisting family history of diabetes mellitus or hypertension. This is the first study to evaluate factors associated with proteinuria in an Asian population. The epidemiologic study of renal disease in this population suggests that risk factors for renal disease might differ significantly among racial groups.

The Oxford IgA nephropathy clinicopathological classification is valid for children as well as adults

To study the predictive value of biopsy lesions in IgA nephropathy in a range of patient ages we retrospectively analyzed the cohort that was used to derive a new classification system for IgA nephropathy. A total of 206 adults and 59 children with proteinuria over 0.5 g/24 h/1.73 m(2) and an eGFR of stage-3 or better were followed for a median of 69 months. At the time of biopsy, compared with adults children had a more frequent history of macroscopic hematuria, lower adjusted blood pressure, and higher eGFR but similar proteinuria. Although their outcome was similar to that of adults, children had received more immunosuppressants and achieved a lower follow-up proteinuria. Renal biopsies were scored for variables identified by an iterative process as reproducible and independent of other lesions. Compared with adults, children had significantly more mesangial and endocapillary hypercellularity, and less segmental glomerulosclerosis and tubulointerstitial damage, the four variables previously identified to predict outcome independent of clinical assessment. Despite these differences, our study found that the cross-sectional correlation between pathology and proteinuria was similar in adults and children. The predictive value of each specific lesion on the rate of decline of renal function or renal survival in IgA nephropathy was not different between children and adults.

TRIP-Br: a novel family of PHD zinc finger- and bromodomain-interacting proteins that regulate the transcriptional activity of E2F-1/DP-1

We report the isolation of TRIP‐Br1, a transcriptional regulator that interacts with the PHD‐bromodomain of co‐repressors of Krüppel‐associated box (KRAB)‐mediated repression, KRIP‐1(TIF1β) and TIF1α, as well as the co‐activator/adaptor p300/CBP. TRIP‐Br1 and the related protein TRIP‐Br2 possess transactivation domains. Like MDM2, which has a homologous transactivation domain, TRIP‐Br proteins functionally contact DP‐1, stimulating E2F‐1/DP‐1 transcriptional activity. KRIP‐1 potentiates TRIP‐Br protein co‐activation of E2F‐1/DP‐1. TRIP‐Br1 is a component of a multiprotein complex containing E2F‐1 and DP‐1. Co‐expression of the retinoblastoma gene product (RB) abolishes baseline E2F‐1/DP‐1 transcriptional activity as well as TRIP‐Br/KRIP‐1 co‐activation, both of which are restored by the adenovirus E1A oncoprotein. These features suggest that TRIP‐Br proteins function at E2F‐responsive promoters to integrate signals provided by PHD‐ and/or bromodomain‐ containing transcription factors. TRIP‐Br1 is identical to the cyclin‐dependent kinase 4 (cdk4)‐binding protein p34SEI‐1, which renders the activity of cyclin D/cdk4 resistant to the inhibitory effect of p16INK4a during late G1. TRIP‐Br1(p34SEI‐1) is differentially overexpressed during the G1 and S phases of the cell cycle, consistent with a dual role for TRIP‐Br1(p34SEI‐1) in the regulation of cell cycle progression through sequential effects on the transcriptional activity of E2F‐responsive promoters during G1 and S phases.

Chronic Progression of Tubulointerstitial Damage in Proteinuric Renal Disease Is Mediated by Complement Activation: A Therapeutic Role for Complement Inhibitors?

The mechanisms by which increased urinary protein concentrations lead to nephrotoxic injury are certain to be multifactorial and involve complex interactions between numerous pathways of cellular damage mediated by both cellular and humoral pathways. These may include a major role for the podocyte in glomerular diseases leading to chronic renal failure, the loss of microvascular endothelium, the albumin-induced upregulation of renal cytokines and growth factors that promote tubulointerstitial injury by inflammation and fibrogenesis, and the role of complement-mediated tubulointerstitial injury due to proteinuria. This review will focus on the last mechanism, and emphasize recent studies implicating a primary role for activation of complement in proteinuric urine as the principal mediator of tubulointerstitial damage and progressive renal disease in various experimental animal models of nephrosis. It will be our contention that intraluminal activation of the terminal complement cascade leading to the formation of the C5b-9 membrane attack complex is the principal mediator of chronic progressive interstitial damage and progressive renal failure irrespective of the type of primary glomerular injury. This paradigm has important implications for the potential therapeutic role of complement inhibitors that are currently being developed.

Ablation of TRIP-Br2, a regulator of fat lipolysis, thermogenesis and oxidative metabolism, prevents diet-induced obesity and insulin resistance

Obesity develops as a result of altered energy homeostasis favoring fat storage. Here we describe a new transcription co-regulator for adiposity and energy metabolism, SERTA domain containing 2 (TRIP-Br2, also called SERTAD2). TRIP-Br2–null mice are resistant to obesity and obesity-related insulin resistance. Adipocytes of these knockout mice showed greater stimulated lipolysis secondary to enhanced expression of hormone sensitive lipase (HSL) and β3-adrenergic (Adrb3) receptors. The knockout mice also have higher energy expenditure because of increased adipocyte thermogenesis and oxidative metabolism caused by upregulating key enzymes in their respective processes. Our data show that a cell-cycle transcriptional co-regulator, TRIP-Br2, modulates fat storage through simultaneous regulation of lipolysis, thermogenesis and oxidative metabolism. These data, together with the observation that TRIP-Br2 expression is selectively elevated in visceral fat in obese humans, suggests that this transcriptional co-regulator is a new therapeutic target for counteracting the development of obesity, insulin resistance and hyperlipidemia.

Downregulation of Bcl-2 by Podocytes Is Associated with Progressive Glomerular Injury and Clinical Indices of Poor Renal Prognosis in Human IgA Nephropathy

Bcl-2 defines a new class of proto-oncogenes that block cell death without promoting cell proliferation. To elucidate the role of Bcl-2 in the development of glomerular lesions in human IgA nephropathy (IgAN), we applied immunohistochemistry coupled with in situ hybridization to detect the expression of Bcl-2 products and their association with Bax, p27(kip1), and p57(kip2) in modulating the apoptotic, proliferative, and sclerotic events in progressive glomerular injury. Glomerular cell apoptosis was examined by TdT-mediated dUTP-biotin nick-end labeling (TUNEL) staining. A total of 51 IgAN cases were categorized into four subgroups (A to D) according to the severity of their histopathological lesions. Creatinine levels, creatinine clearance, and magnitude of proteinuria based on 24-h urine collections at the time of diagnostic renal biopsy were available for the majority of subjects. Bcl-2 expression was observed predominantly in podocytes in IgAN. Podocyte expression of Bcl-2 was found to be upregulated in early-stage disease and downregulated in late-stage disease. Bcl-2 downregulation in progressive IgAN was associated with an increased Bax/Bcl-2 ratio in glomerular epithelial cells and correlated with the downregulation of high endogenous podocyte p27(kip1) and p57(kip2) expression. Bax/Bcl-2 ratios positively correlated with glomerular cell apoptosis and the degree of glomerulosclerosis, whereas p27(kip1) and p57(kip2) expression levels were inversely correlated with mesangial hypercellularity and glomerulosclerosis. Clinicopathologic correlations demonstrated that downregulation of Bcl-2 protein expression was associated with indices of poor renal prognosis in human IgAN. The results suggest that Bcl-2 expression by podocytes may exert modulatory effects on cellular processes that contribute to progressive glomerular injury and play an important role in determining renal outcome in human IgA nephropathy.

TRIP-Br Links E2F to Novel Functions in the Regulation of Cyclin E Expression During Cell Cycle Progression and in the Maintenance of Genomic Stability

The TRIP-Br family of transcriptional regulators (TRIP-Br1 and TRIP-Br2)has been proposed to function at E2F-responsive promoters to integrate regulatorysignals provided by PHD zinc finger- and/or bromodomain-containing transcriptionfactors. To characterize the TRIP-Br “integrator” function(s), we have employeddecoy peptides (*Br1 and *Br2) to antagonize the interaction between TRIP-Br1 orTRIP-Br2 and the PHD zinc finger and/or bromodomain of other transcriptionfactors. Antagonism of the TRIP-Br integrator function elicits anti-proliferativeeffects through the transcriptional downregulation of a subset of E2F-responsive genesin vivo, and induces aberrant cyclin E accumulation, leading to Geminin deregulationand caspase-3-independent cellular sub-diploidization. The observed cyclin Ederegulation is attributed to the downregulation of Fbxw7, which encodes the Fbw7receptor subunit of the SCFFBW7 ubiquitin ligase (E3) responsible for targeting cyclinE for proteolysis. Fbxw7 is identified herein as an E2F-responsive and TRIP-Br coregulatedgene. Our results demonstrate a physiologic role for TRIP-Br in couplingE2F to novel functions in the regulation of cyclin E expression during cell cycleprogression to ensure the proper execution of DNA replication and the maintenance ofgenomic stability.

Coupled Induction of iNOS and p53 Upregulation in Renal Resident Cells May Be Linked with Apoptotic Activity in the Pathogenesis of Progressive IgA Nephropathy

In situ hybridization, immunohistochemistry, and TUNEL staining were applied to renal biopsy specimens of immunoglobulin A nephropathy (IgAN) patients to determine the expression of nitric oxide synthase (iNOS) (mRNA and protein), p53, and their potential roles in renal cell apoptosis in relation to the development of pathologic lesions. Fifty-one cases were categorized into four subgroups (A-D) according to the presence of progressive histopathological features. A cell type-specific and differential overexpression of iNOS mRNA and protein was demonstrated in glomerular cells in subgroups (A-C) and was found to correlate well with the upregulation of p53 protein by glomerular endothelium and epithelium in early- and advanced-stage disease. In the tubulointerstitium, induction of iNOS products was evident in damaged tubules in late-stage disease, in parallel with the upregulation of p53 protein levels in these tubules. Increased TUNEL staining observed in glomeruli with progressive lesions and tubules with degenerative changes positively correlated with the expression levels of iNOS and p53 in glomerular endothelium, epithelium, and their overexpression in damaged tubules. Clinicopathologic correlations demonstrated that induction of iNOS products in renal cells was associated with indices of poor renal prognosis in human IgAN. The coupled induction of iNOS and p53 upregulation in intrinsic renal cells of IgAN may be linked with both pro- and anti-apoptotic activities, thus playing an important role in mediating progressive renal injury and determining renal outcome in human IgAN.