New insights into the pathogenesis of IgA nephropathy: do toll like receptor 9-B cell activation factor-IgA class switching recombination signaling axis induce IgA hyper-production?

IgA nephropathy (IgAN) has become the most common form of primary glomerular disease worldwide. So far, it is still not very clear about the exact pathogenesis of IgAN, thus has no specific therapy. Generally mesangial deposition of IgA, especially polymeric IgA1 (pIgA1), suggests to be the initiating event in the pathogenesis of IgAN. In addition to decreased IgA clearance, IgA over production may also participate in the pathogenesis of IgAN. IgA class switching recombination (CSR) played key role during the process of IgA production. Stimulated with hemolytic streptococcus, tonsillar mononuclear cells (TMCs) of patients with IgAN presented with increased levels of Ia-Ca and activation-induced cytidine deaminase (AID), which are significant for IgA CSR. Human B cells and plasmacytoid dendritic cells express Toll-like receptor (TLR)-9, whose natural ligands are unmethylated cytosine–guanine dinucleotide (CpG) motifs characteristic of bacterial DNA (CpG-DNA). Unmethylated deoxycytidylic-deoxyguanosine oligodeoxynucleotide (CpG-ODN) is able to mimic the immunostimulatory activity of microbial DNA. Study found a significant increase in B cell activation factor (BAFF) production when tonsillar mononuclear cells stimulated with CpG-ODN in patients with IgAN. BAFF can induce germline Cα gene expression, AID expression, and IgA class switching in a CD40-independent manner. Therefore, it could be hypothesized that in IgAN there may exist TLR9-BAFF-IgA CSR axis, which induces excessive IgA production. If the hypothesis is correct, it could be of great significance for pathogenesis of IgAN elucidate and IgAN treatment.     

IgA肾病患者腭扁桃体单个核细胞IgA类别转换基因表达变化

目的 研究脂多糖(LPS)或溶血性链球菌(HS)刺激IgA肾病和非肾脏疾病慢性扁桃体炎患者腭扁桃体单个核细胞Iα-Cα胚系转录本、激活诱导的胞嘧啶脱氨酶(AID)mRNA和蛋白的表达,以探讨IgA肾病腭扁桃体单个核细胞IgA及IgA1产生异常的分子机制.方法 入组2009年1月到2010年2月在我院住院的IgA肾病患者27例,非肾脏疾病慢性扁桃体炎患者27例作为对照.通过单个核细胞分离液和密度梯度离心法分离出腭扁桃体单个核细胞.IgA肾病组及非肾脏疾病慢性扁桃体炎组腭扁桃体单个核细胞分别分为3组:LPS刺激组,HS刺激组和未刺激组.ELISA法检测培养上清中IgA和IgA1的浓度.实时PCR检测Iα-Cα胚系转录本和AID mRNA的表达;Western印迹检测AID蛋白的表达.结果 IgA肾病组腭扁桃体单个核细胞IgA和IgA1的分泌,特别是IgA1/IgA较慢性扁桃体炎组显著增加(P＜0.05),Iα-Cα和AID mRNA和AID蛋白的表达较慢性扁桃体炎组显著增加(均P＜0.05).IgA肾病组腭扁桃体单个核细胞IgA和IgA1的水平在刺激后明显增加(P＜0.05);Iα-Cα和AID mRNA的表达明显上调(均P＜0.05);AID蛋白表达明显增加(LPS刺激组P＜0.05,HS刺激组P＜0.01).结论 LPS和HS均能够诱导IgA肾病患者腭扁桃体单个核细胞IgA和IgA1的分泌、AID和Iα-Cα的表达增加,提示IgA肾病患者腭扁桃体IgA和IgA1的分泌增加可能与IgA类别转换相关基因AID和Iα-Cα高表达有关.     

Mesangial expression of angiotensin II receptor in IgA nephropathy and its regulation by polymeric IgA1

BACKGROUND: Enhanced gene expression for the renin-angiotensin system (RAS) is detected in glomerular mesangial cells in IgA nephropathy (IgAN). Preliminary studies showed a reduced glomerular gene expression of angiotensin II subtype 1 receptor (AT1R), suggesting a regulatory response to high intrarenal angiotensin II (Ang II) concentration in IgAN. METHODS: We examined the effect of polymeric IgA1 (pIgA1) from patients with IgAN on the expression of Ang II receptors in cultured human mesangial cells (HMC). RESULTS: Polymeric IgA1 from patients with IgAN down-regulated the expression of AT1R in HMC in a dose-dependent manner. When similar experiments were conducted with addition of an angiotensin-converting enzyme inhibitor (captopril) or an AT1R antagonist (losartan), there was a significant increase in the expression of AT1R. Blockade of Ang II with captopril or losartan alone resulted in a stepwise increase of AT1R in cultured HMC. Down-regulation of Ang II subtype 2 receptor (AT2R) was not observed in HMC cultured with pIgA1 from patients with IgAN. The acute suppressive effect of pIgA1 from IgAN on the expression of AT1R was confirmed in HMC incubated with IgA isolated from 15 IgAN patients, 15 healthy subjects, and other glomerulonephritides control subjects. Reduced glomerular expression of AT1R (but not AT2R) was also demonstrated in renal biopsies from patients with IgAN. CONCLUSION: Our findings demonstrate an altered AT1R expression in HMC in response to raised intrarenal Ang II in IgAN. Our in vitro studies also support that an imbalance of AT1R and AT2R activity in HMC following exposure to pIgA plays a significant pathogenetic role in the inflammatory injury in IgAN.     

IgA肾病患者扁桃体B1a细胞和IgA1阳性细胞表达及相关因素分析

目的 研究B1a和IgA1阳性细胞在IgA肾病患者扁桃体中的表达及B1a细胞与血尿、蛋白尿和病理Lee分级的关系。 方法 肾活检确诊为原发性IgA肾病及非肾炎慢性扁桃体炎患者各8例为对象,用免疫荧光法和激光共聚焦显微镜对其扁桃体组织进行B1a及IgA1细胞定位和定量计算,并按蛋白尿程度和Lee分级标准与IgA肾病组B1a细胞数量行统计学分析。 结果 B1a细胞主要分布在扁桃体生发中心和小结帽;IgA1细胞主要分布在上皮内、上皮下,以上皮和淋巴组织交界区为多。与慢性扁桃体炎组比较,IgA肾病组两种细胞表达明显增多（P < 0.01）,且呈正相关（r = 0.778,P = 0.023）。在血尿伴蛋白尿和Lee≥Ⅲ级组B1a细胞显著高于单纯血尿和Lee<Ⅲ级组（P < 0.05）。 结论 IgA肾病患者扁桃体中IgA1可能是B1a细胞分泌的。B1a细胞数量随着患者蛋白尿的出现和病理严重程度的加重而增加,可能在疾病发生和进展过程中起着重要的作用。     

Effect of aggregated immunoglobulin A1 from immunoglobulin A nephropathy patients on nephrin expression in podocytes

Aim: Abnormal immunoglobulin (Ig)A1 is considered to play a pivotal role in IgA nephropathy. We used mouse podocytes as the experimental model to investigate the effect of aggregated IgA1 (aIgA1) isolated from IgA nephropathy (IgAN) patients on nephrin expression in podocytes through direct and indirect pathways. Methods: Jacalin affinity chromatography and Sephacryl S‐200 molecular sieve chromatography were used to isolate IgA1 from blood of IgAN patients which was therefore became aIgA1. Podocytes were incubated with aIgA1 or special mesangial medium. Nephrin expression in podocytes was measured by real‐time polymerase chain reaction and western blot analysis. Results: Aggregated IgA1 from IgAN patients and healthy controls reduced nephrin expression in podocytes at mRNA and protein levels when compared with podocytes incubated with control medium (RPMI‐1640 with 0.5% foetal bovine serum) (P < 0.05). While medium from mesangial cells incubated with aIgA1 from IgAN inhibited nephrin expression in podocytes at mRNA and protein levels when compared with podocytes incubated with medium from mesangial cells with aIgA1 from healthy controls (P < 0.05). Conclusion: Our findings implicate that aIgA1 from IgAN patients could inhibit nephrin expression through direct and indirect pathways, although these mechanisms remain to be clarified.     

B-cell O-galactosyltransferase activity, and expression of O-glycosylation genes in bone marrow in IgA nephropathy

In IgA nephropathy (IgAN), pathogenic IgA1 is likely derived from bone marrow (BM) cells and exhibits reduced O-galactosylation. Defective O-galactosylation may arise from the compromised expression or function of the enzyme beta-galactosyltransferase and/or its molecular chaperone (Cosmc). We measured B-cell O-galactosylation activity and the relative gene expression of beta-galactosyltransferase and Cosmc in peripheral blood and BM taken from patients with IgAN and controls. O-galactosylation activity was measured in peripheral and BM B cells by the incorporation of radiolabeled galactose into an asialo-mucin acceptor. Gene expression of beta-galactosyltransferase and Cosmc was measured by real-time PCR and related to that of the enzyme GalNAc-T2 (UDP-N-acetyl-alpha-D-galactosamine:polypeptide N-acetylgalactosaminyltransferase-2), which synthesizes the core O-glycan. Neither the B-cell O-galactosylation activity nor the gene expression of the enzyme or chaperone was different between patients and controls. However, the relationships between the O-glycosylation of serum IgA1, galactosylation activity, and beta-galactosyltransferase gene expression showed different patterns in IgAN and controls. In IgAN, O-galactosylation activity correlated with beta-galactosyltransferase gene expression, but not with IgA1 O-glycosylation, suggesting that factors other than the availability of beta-galactosyltransferase or Cosmc are responsible for altered IgA1 O-glycosylation.     

T-cell homing receptor expression in IgA nephropathy.

BACKGROUND: IgA nephropathy (IgAN) is characterized by mesangial deposition of polymeric IgA (pIgA). In IgAN, mucosal pIgA production is reduced while systemic production is increased, making the latter the likely source of mesangial pIgA, and suggesting a displacement of pIgA-producing cells from mucosal to systemic sites. Upon activation, lymphocytes migrate through the circulation up-regulating homing receptors (HR) which direct their return to appropriate effector locations. We investigated the HR expression of T-cell subsets in IgAN, healthy adults and membranous nephropathy (MN). METHODS: Peripheral blood cells were labelled for CD3, CD4 and CD8, and for L-selectin (naive cells), integrin alpha4beta1 (systemically homing cells) and integrin alpha4beta7 (mucosally homing cells) and analysed by flow immunocytometry. RESULTS: In IgAN, CD3 T cells displayed reduced L-selectin and increased alpha4beta1hi expression, with no difference in alpha4beta7. No abnormality of T-cell HR expression was found in MN. Both IgAN and healthy adults maintained their patterns of T-cell HR expression when studied again at a later time point, and the changes in IgAN were entirely accounted for by the CD4 T-cell subset with CD8 HR expression being normal. CONCLUSIONS: The consistently reduced L-selectin expression by CD4 T cells indicates increased activation of this subset in IgAN. These activated cells express alpha4beta1 rather than alpha4beta7, and therefore home to systemic effector sites. CD4 T cells regulate antibody production, including IgA. As pIgA is overproduced in systemic sites in IgAN, we hypothesize that these activated systemic homing CD4 T cells may direct the aberrant systemic pIgA production observed in IgAN.     

Pathogenic role of the IgA molecule in IgA nephropathy

SUMMARY: Deposits of IgA together with complement in different body tissues support the hypothesis that IgA can trigger inflammatory mechanisms. IgA nephropathy (IgAN) is characterized by predominant mesangial IgA₁ deposits of a polymeric nature. So far, the mechanism of polymeric IgA₁ deposition in the kidney mesangium is poorly understood in IgAN. the exact pathophysiological sequel preceding renal fibrosis following the mesangial deposition of IgA immune complexes remains speculative. Recent in vitro studies revealed that binding of IgA to mesangial cells led to increased expression of growth factors, cytokines, and integrins. the release of these proinflammatory factors is likely to enhance inflammatory injury. In addition, the local renin-angiotensin system present in renal tissues also contributes to renal fibrosis through the activation of transforming growth factor-β. the question of whether polymeric IgA isolated from patients with IgAN exerted any upregulatory effect on the synthesis of macrophage migration inhibitory factor (MIF) and components of the renin-angiotensin system in human mesangial cells was explored. the in vitro studies revealed that polymeric IgA from IgAN patients upregulated the gene expression of renin and MIF in human mesangial cells in a dose-dependent manner. These findings further support the notion that glomerular deposition of IgA is not only a pathological epiphenomenon of IgAN, but that polymeric IgA exerts a pathophysiologic effect on the mesangial cells leading to renal fibrosis.     

Differential effects of circulating IgA isolated from patients with IgA nephropathy on superoxide and fibronectin production of mesangial cells.

BACKGROUND: IgA nephropathy (IgAN) is characterized by predominant deposition of IgA in the glomerular mesangium. Serum IgA is often elevated in patients with IgAN, and it has been postulated that it is responsible for the mesangial lesions. However, the direct effect of circulating IgA on mesangial cells is not clear. METHODS: We investigated the effects of sera and IgA which were isolated from patients with IgAN on thymidine uptake, superoxide and fibronectin production and fibronectin mRNA expression of cultured rat mesangial cells, and we compared the findings to the effects of IgA isolated from patients with non-IgA mesangial proliferative glomerulonephritis (MsPGN) and normal controls. IgA was isolated with affinity chromatography using cyanogen bromide activated Sepharose 4B coupled to sheep antihuman IgA antiserum. RESULTS: Our results demonstrated that both sera and IgA from patients with IgAN dose-dependently increased mitogenesis of mesangial cells as measured by (3)H-labeled thymidine uptake. The thymidine uptake by sera and IgA isolated from patients with IgAN was significantly higher than that of sera and IgA isolated from patients with MsPGN and normal controls. Sera and IgA from patients with IgAN significantly enhanced superoxide and fibronectin production and fibronectin mRNA expression of mesangial cells. The superoxide and fibronectin production was also significantly higher as compared with patients with MsPGN and normal controls. CONCLUSIONS: Our results indicate that circulating IgA isolated from patients with IgAN is different from that of patients with MsPGN and normal controls and may potentially induce oxidative injury and production of extracellular matrix of glomerular mesangial cells in IgAN.     

Expression of CD19(+)CD5(+)B cells and IgA1-positive cells in tonsillar tissues of IgA nephropathy patients

The hallmark of IgA nephropathy (IgAN) is the mesangial deposits of polymeric IgA. However, the source of IgA1 and the mechanism of deposition of IgA1 in the mesangium remain unknown. To better understand its pathogenesis, we investigated the expression of CD19(+)CD5(+)B cells and IgA1-positive cells in the tonsils of IgAN patients. Immunofluorescence was used to visualize the locations of CD19(+)CD5(+)B cells and IgA1-positive cells in the tonsils. In this study, it was demonstrated that CD19(+)CD5(+)B cells are usually found in germinal centers and in the capsule covering the upper parts of the nodules of lymphoid tissue (cap of the nodule). The expression of IgA1-positive cells in tonsil tissue can be seen in the cap of the nodule and subepithelial tissue. There is a significant relationship between IgA1 and CD19(+)CD5(+)B cells. The level of CD19(+)CD5(+)B cells is positively correlated to the severity of renal pathological changes. These findings suggest that CD19(+)CD5(+)B cells in the tonsils could have an impact on the pathogenesis of IgAN.     

Characteristics of polymeric lambda-IgA binding to leukocytes in IgA nephropathy

IgA nephropathy (IgAN) is characterized by predominant mesangial polymeric IgA1 (pIgA1) deposits, with increased plasma IgA1 levels. Plasma IgA levels are determined by the rate of IgA production, uptake by leukocytes, and removal by hepatocytes. Fc(alpha) receptor 1 (Fc(alpha)R1) is a candidate molecule for the regulation of IgA levels, but reports of its expression in leukocytes in IgAN are conflicting. Increased binding of endogenous IgA to circulating granulocytes and monocytes in IgAN was demonstrated in this study. Fc(alpha)R1 expression on leukocytes was increased, independently of plasma IgA levels. Fc(alpha)R1 was not saturated in leukocytes, because of internalization of IgA after uptake. Further binding of exogenous IgA isolated from individual subjects was observed with leukocytes from the same subjects. Compared with cells from control subjects, granulocytes but not monocytes from patients with IgAN exhibited a greater binding capacity for exogenous IgA, predominantly pIgA. To circumvent the possibility that endogenous IgA might alter Fc(alpha)R1 expression, granulocytes or monocytes derived from the HL-60 or U937 cell lines were used to explore the nature of IgA binding. A higher affinity for pIgA was demonstrated. Inhibition studies using unlabeled IgA, other serum proteins, or a specific Fc(alpha)R1-blocking antibody suggested binding mechanisms other than Fc(alpha)R1 for pIgA uptake by leukocytes. This study also suggested the migration and/or sequestration of "activated" leukocytes with predominant lambda-IgA in the mononuclear phagocytic system or inflammatory tissues, after the initial binding of lambda-pIgA. These immunologic abnormalities might contribute to the glomerulointerstitial injury in IgAN, in the presence of leukocytic infiltration.     

Abnormalities of IgA1 production in IgA nephropathy

SUMMARY: IgA nephropathy (IgAN) is characterized by the mesangial deposition of polymeric IgA1 (plgA1). the original view that this plgA1 is derived from the mucosal immune system can no longer be sustained. Studies of duodenal mucosa and marrow indicate increased production of plgA1 in the marrow and decreased production in the mucosa. These changes are consistent with immunization studies showing exaggerated and prolonged plgA responses to systemic immunization, and reduced mucosal responses to mucosal neoantigens. However, the IgA1 and IgG systemic responses to mucosal antigen are increased in IgAN, a finding consistent with impairment in oral tolerance, the process by which systemic immune responses, to mucosal antigen challenge are normally suppressed. Both IgA1 production and the induction of oral tolerance are under T-cell control. T-cell populations involved in these processes include γδ T cells, Tr cells and T-helper (Th)3 cells; cytokines with a key role in the control of IgA production include interleukin (IL)-10 and transforming growth factor (TGF)-β. There is evidence of abnormal γδ T-cell V region usage in both mucosa and marrow in IgAN. Increased expression of relevant cytokines has also been reported in circulating T cells in IgAN. the increased O-glycosylation of circulating IgA1 in IgAN may also be further evidence of a shift in the production of mucosal-type plgA1 from the mucosa to marrow. These findings suggest that the specific lymphocyte homing mechanisms that normally maintain oral tolerance and control the site of IgA production require further study in IgAN.     

Novel mechanisms of tubulointerstitial injury in IgA nephropathy: a new therapeutic paradigm in the prevention of progressive renal failure

IgA nephropathy (IgAN) runs a highly variable clinical course with frequent involvement of tubulointerstitial damage. Notably, renal progression correlates more closely with the severity of tubulointerstitial lesions than with the degree of glomerular lesions In IgAN. Mesangial IgA deposition induces local release of cytokines, complement, and angiotensin II leading to glomerular inflammation. It remains unclear how mesangial IgA deposition leads to tubulointerstitial injury in IgAN. Moreover, IgA deposits are rarely detected in renal interstitium in IgAN. We hypothesize that mediators released from mesangial cells triggered by IgA deposition leads to activation of proximal tubular epithelial cells. Our preliminary findings implicate a glomerulotubular cross talk with mediators released from the mesangium contributing to the pathogenesis of tubulointerstitial damage in IgAN. We have also found the expression of angiotensin II subtype-1 receptor or angiotensin II subtype-2 receptor in proximal tubular epithelial cells differs from that of mesangial cells. One potential therapeutic approach is to counterbalance the growth-stimulatory effects of angiotensin II through subtype-1 receptor in tubular epithelial cells by subtype-2 receptor-mediated apoptosis and growth inhibition. These novel findings may provide clinicians new therapeutic approach for selective blockade of the RAS in IgAN.     

Tubular expression of angiotensin II receptors and their regulation in IgA nephropathy

Enhanced renal expression for the renin-angiotensin system (RAS) is detected in IgA nephropathy (IgAN). Previous data showed an altered glomerular expression of angiotensin II type 1 receptor (AT1R), suggesting a regulatory response to high intrarenal angiotensin II (Ang II) concentration in IgAN. In this study, the expression and regulation of Ang II receptors were examined in human proximal tubular epithelial cells (PTEC) in IgAN. Tubular expression of AT1R and Ang II type 2 receptor (AT2R) was increased in IgAN. In vitro culture experiment showed that the upregulation of Ang II receptors was not due to the direct effect of IgA but the indirect effect after IgA deposition on human mesangial cell. When PTEC were cultured with conditioned culture medium from human mesangial cells activated with IgA, Ang II production was upregulated, leading to inflammation and apoptosis via the AT1R and AT2R, respectively. Sequential expression of Ang II receptors determined the injury of PTEC induced by mediators in the conditioned medium. The initial interaction between Ang II and AT1R activated both protein kinase C and mitogen-activated protein kinase pathways, leading to inflammatory responses. This early AT1R-dependent event was followed by upregulation of AT2R expression and continued Ang II release. The interaction between Ang II and AT2R subsequently led to expression of cleaved poly[ADP-ribose] polymerase through downregulation of the mitogen-activated protein kinase pathway. The data suggest that appropriate control of Ang II receptor activities in PTEC may ameliorate tubulointerstitial injury in IgAN.     

IgA肾病患者血清IgA1与系膜细胞共培养上清诱导足细胞凋亡

目的 探讨IgA肾病(IgAN)患者血清IgA1与系膜细胞共培养上清对足细胞凋亡的影响。 方法 用Jacalin 亲和层析柱和Sephacryl S-200 分子筛纯化蛋白。单体IgA1（mIgA1）热聚合为聚合体IgA1（aIgA1）。实验分为患者上清组、健康上清组和对照组，系膜细胞分别与IgAN患者的aIgA1、健康对照的aIgA1和5%胎牛血清共培养，收集上清，与同步化的足细胞作用。流式细胞仪检测细胞凋亡情况。实时定量PCR 检测凋亡相关基因Bcl-2、Bax、Fas和Fas-L表达情况。 结果 患者上清可诱导足细胞凋亡，其凋亡率显著高于健康上清组和对照组[（28.5±5.9）%比（22.5±5.8）%、（20.5±4.5）%， 均P < 0.05]。患者上清可诱导足细胞Fas mRNA 升高，为对照组的1.89倍（P < 0.05）， 而Bcl-2 mRNA下调为对照组的72%（P < 0.05）。患者上清组的AngⅡ和TGF-β1水平均高于健康上清组[（13.2±3.4） ng/L比（8.2±2.3） ng/L，P < 0.05；（15.4±3.4） ng/L比（10.8±3.2） ng/L，P < 0.05]。 结论 IgAN患者血清IgA1与系膜细胞共培养上清可诱导足细胞凋亡，可能参与IgAN的进展。     

Activation of tubular epithelial cells by mesangial-derived TNF-alpha: glomerulotubular communication in IgA nephropathy

BACKGROUND: IgA nephropathy (IgAN), characterized by mesangial IgA deposition, runs a variable clinical course with tubulointerstitial damage and renal failure in no less than 30% of patients. Histologically, IgA is rarely detected in renal tubules. The direct toxicity by IgA on renal tubules remains uncertain. We hypothesize that mediators released from human mesangial cells (HMC) triggered by IgA deposition may lead to activation of proximal tubular epithelial cells (PTEC). METHODS: The binding of IgA to PTEC or HMC was assessed by flow cytometry. IgA-HMC medium was prepared by collecting the spent medium in which growth arrested HMC were incubated with IgA isolated from patients with IgAN, healthy control subjects, or other nephritic control patients. PTEC was cultured with the IgA-HMC medium in the presence or absence of neutralizing antibodies to TNF-alpha, IL-1beta, TGF-beta, or PDGF. Gene expression and protein synthesis of TNF-alpha, MIF, or ICAM-1 by PTEC were determined by RT-PCR and ELISA, respectively. RESULTS: The binding of IgA isolated from patients with IgAN to PTEC was increased when compared to binding of IgA from healthy control subjects (P < 0.005). However, the binding to PTEC was less than one tenth that of HMC in IgAN. The binding to PTEC was not mediated through known IgA receptors, as shown by competitive binding assays and gene expression of the receptors. Despite the in vitro binding, PTEC cultured with isolated IgA exhibited no increased cell proliferation or enhanced synthesis of TNF-alpha, MIF, or sICAM-1. However, when PTEC were cultured with IgA-HMC medium prepared from IgAN patients, there was enhanced proliferation of PTEC (P < 0.001) and increased synthesis of TNF-alpha, MIF, and sICAM-1 when compared with PTEC cultured with IgA-HMC medium from control subjects (P < 0.001). The synthesis of MIF and sICAM-1 by PTEC cultured with IgA-HMC medium was reduced by neutralizing antibodies to TNF-alpha (P < 0.001) but not by neutralizing antibodies to IL-1beta, TGF-beta, or PDGF. CONCLUSION: Our finding implicates that TNF-alpha released from the mesangium after IgA deposition activates renal tubular cells. The glomerulotubular communication could play an important role in the pathogenesis of tubulointerstitial damage in IgAN.     

IgA1 glycosylation in IgA nephropathy: as sweet as it can be

Abnormally O-glycosylated IgA1 is likely to be involved in the pathogenesis of IgA nephropathy (IgAN). Buck et al. show that the enzyme activity and gene expression of specific glycosyltransferases, in purified B cells isolated from peripheral blood and bone marrow, is not reduced in IgAN patients. As only a small fraction of IgA in IgAN patients is abnormally glycosylated, it is probable that a more detailed molecular analysis at the single cell level is required to unravel the cause of this abnormality.     

调节性及辅助性T细胞在人类IgA肾病中的表达及意义

目的 探讨CD4+CD25high调节性T细胞（Treg）及辅助性T细胞亚群（Th1、Th2）比例失衡在IgA肾病（IgAN）免疫发病机制中的作用。 方法 用流式细胞仪检测IgAN患者外周血Treg及Th1、Th2的比例。以胞内染色技术检测叉头框蛋白3（FOXP3）的表达。Treg及Th1、Th2的比例与IgAN各项临床病理指标的相关性分析采用Spearman或Pearson相关分析法。 结果 IgAN患者外周血中Treg比例明显高于健康人[（2.14±0.82）％比（1.59±0.53）％，P ＜ 0.05]，与血IgA水平呈正相关（r = 0.397，P ＜ 0.05），与eGFR呈负相关（r = -0.376，P ＜ 0.05）。IgAN患者外周血中Th2细胞比例显著高于健康对照组[（2.57±0.72）％比（1.81±1.10）％，P ＜ 0.05]，与血IgA水平呈正相关（r = 0.468，P ＜ 0.05）。IgAN患者Th1/Th2比值显著低于健康对照组（5.75±1.89比12.73±9.79，P ＜ 0.05），但与临床各指标间没有相关性。 结论 IgAN患者体内存在T细胞亚群表达紊乱。Treg在外周血中的增多以及以Th2为优势的Th1/Th2失衡可能在IgAN的发病中起重要作用。     

TNF-α-mediated podocyte injury via the apoptotic death receptor pathway in a mouse model of IgA nephropathy

BackgroundIgA nephropathy (IgAN) is the most common primary glomerular disease worldwide and it is characterized by mesangial IgA deposits. Proteinuria is a common clinical feature of IgAN, which has a critical connection to podocyte injury and has been used as a clinical prognostic factor for IgAN. Evidence has shown that TNF-α released from mesangial cells may lead to podocyte apoptosis.MethodsForty male BALB/c mouse were randomly divided into the control group and IgAN group. A mice model of IgAN was developed by oral administration of bovine serum albumin (BSA) combined with Staphylococcus Enterotoxin B (SEB) tail vein injection. Urinary protein concentrations, renal function, renal morphological, IgA deposition, apoptosis situation, and the mRNA and protein expression of nephrin, podocin, TNF-α, TNFR1, caspase-8 and caspase-3, were detected after 12 weeks.ResultsBSA and SEB can successfully establish an IgAN mouse model, and the main pathological changes are the IgA immune complex deposition in the mesangial area. The gene and protein expression levels of nephrin and podocin were found to be downregulated, and death receptor pathway-related indicators were upregulated, and they were involved in TNF-α-activated podocyte injury and apoptosis in IgAN mice.ConclusionTNF-α may play an important role in the pathogenesis of podocyte apoptosis in IgAN, and its effects may be mediated through the apoptotic death receptor pathway.     

Anti-macrophage migration inhibitory factor reduces transforming growth factor-beta 1 expression in experimental IgA nephropathy.

BACKGROUND: In human glomerulonephritis, including immunoglobulin-A nephropathy (IgAN), glomerular expression of macrophage migration inhibitory factor (MIF) is found to correlate with progressive renal injury. We have shown previously that polymeric IgA is capable of inducing MIF production in cultured human mesangial cells, suggesting a role in inducing inflammatory injury in IgAN. Herein, we examined whether IgA deposition and the subsequent renal injury can be ameliorated with anti-MIF treatment in an experimental murine model of IgAN. METHODS: Glomerular IgA deposition was induced in 4-week-old BALB/c mice by intravenous injection of immune complexes consisting of dinitrophenyl-conjugated bovine serum albumin (DNP-BSA) and IgA MOPC-315 myeloma anti-DNP antibodies. To determine the therapeutic effect of anti-MIF, mice were given anti-MIF (5 mg/kg) or isotypic control antibody intravenously 2 h before the immune complexes administration. The mice were sacrificed 48 h after injection of DNP-IgA. Proteinuria and haematuria were determined and the kidneys were removed for histopathology, immunostaining and immunoblotting. The effect of exogenous MIF on production of TGF-beta 1 by cultured mesangial cells was also examined. RESULTS: IgA deposits were detected in glomeruli of all mice receiving the immune complexes while no glomerular deposit was detected in the control mice. Microscopic haematuria and mesangial hypercellularity were present in mice of the three experimental groups and were absent in the control group. Proteinuria was absent in all groups. Anti-MIF treatment also resulted in decreased renal expression of TGF-beta 1. Moreover, the reduction in TGF-beta 1 expression was confined mainly to glomerular mesangium. An in vitro culture experiment demonstrated that MIF increased TGF-beta 1 production in a time- and dose-dependent fashion. MIF-induced TGF-beta 1 synthesis was abolished by incubating cells with neutralizing antibody against MIF. CONCLUSIONS: Our finding shows that anti-MIF treatment can ameliorate kidney injury and reduce glomerular TGF-beta 1 expression in an experimental model of IgAN.