Electroporation-mediated HGF gene transfer ameliorated cyclosporine nephrotoxicity

BACKGROUND: The clinical utility of cyclosporine A (CsA) has been limited by its nephrotoxicity, which is characterized by tubular atrophy, interstitial fibrosis, and progressive renal impairment. Hepatocyte growth factor (HGF) has been reported to protect and salvage from renal injury as a renotropic and antifibrotic factor. Here, we investigated protective effects of HGF gene therapy on rat CsA-induced nephrotoxicity using electroporation-mediated gene transfer. METHOD: CsA was subcutaneously administered daily under low sodium diet, and HGF gene was transferred into skeletal muscle by electroporation on days 7 and 14. We also examined the antiapoptotic mechanism of HGF using human proximal tubular epithelial cells. RESULTS: HGF gene transfer rescued CsA-induced initial tubular injury and suppressed interstitial infiltration of ED-1-positive macrophages in CsA-induced nephrotoxicity. In addition, HGF significantly inhibited tubular cell apoptosis, and increased the number of proliferating tubular epithelial cells. In vitro studies suggest that HGF executes the antiapoptotic function by enhancing the phosphorylation of Akt and Bcl-2. Northern blot analysis demonstrated that HGF gene transfer suppressed cortical mRNA levels of transforming growth factor-beta (TGF-beta). Consequently, HGF gene transfer significantly reduced a striped interstitial phenotypic alteration and fibrosis. CONCLUSION: We demonstrated that HGF gene transfer reduced CsA-induced tubular cell apoptosis and interstitial fibrosis. HGF gene transfer could be a potential strategy for preventing renal fibrosis.     

血红蛋白与IgA肾病患者肾小管萎缩/间质纤维化的关系

目的探讨IgA肾病(IgA nephropathy,IgAN)患者血红蛋白(Hb)水平与肾脏病理牛津分级中肾小管萎缩/间质纤维化(T)的关系。方法回顾性分析2010年1月1日至2015年12月31日在深圳市第二人民医院肾活检确诊为IgAN、同时有完整实验室及影像学资料的患者。将所有患者分为贫血组与非贫血组。采用Logistic回归分析确定Hb与肾小管萎缩/间质纤维化的关系;采用平滑曲线拟合分析Hb与肾小管萎缩/间质纤维化可能的曲线关系;采用受试者工作特征曲线(ROC)分析Hb对肾小管萎缩/间质纤维化的诊断价值。结果本研究共纳入IgAN患者630例,贫血组130例(20.63%),非贫血组500例(79.37%);两组间年龄差异无统计学意义,而性别差异有统计学意义(男性35.38%比53.80%,χ2=10.740,P<0.001)。与非贫血组相比,贫血组的患者肾小管萎缩/间质纤维化的比例和24 h尿蛋白量较高(χ2=62.586,P<0.001;Z=-6.082,P<0.001),估算的肾小球滤过率(eGFR)较低(t=7.126,P<0.001)。Logistic回归分析显示,高Hb水平为肾小管萎缩/间质纤维化发生风险减少的独立保护因素(OR=0.973,95%CI 0.958~0.987,P<0.001)。平滑曲线拟合分析显示Hb与肾小管萎缩/间质纤维化呈线性负相关。ROC曲线提示Hb诊断肾小管萎缩/间质纤维化的最佳临界值为120.5 g/L,即提示Hb>120.5 g/L时,肾小管萎缩/间质纤维化的程度可能降低。结论IgAN合并贫血的患者其肾小管萎缩/间质纤维化发生率较高。Hb>120.5 g/L可能减少肾小管萎缩/间质纤维化发生的风险。     

Renal Allograft Fibrosis: Biology and Therapeutic Targets

Renal tubulointerstitial fibrosis is the final common pathway of progressive renal diseases. In allografts, it is assessed with tubular atrophy as interstitial fibrosis/tubular atrophy (IF/TA). IF/TA occurs in about 40% of kidney allografts at 3–6 months after transplantation, increasing to 65% at 2 years. The origin of renal fibrosis in the allograft is complex and includes donor‐related factors, in particular in case of expanded criteria donors, ischemia‐reperfusion injury, immune‐mediated damage, recurrence of underlying diseases, hypertensive damage, nephrotoxicity of immunosuppressants, recurrent graft infections, postrenal obstruction, etc. Based largely on studies in the non‐transplant setting, there is a large body of literature on the role of different cell types, be it intrinsic to the kidney or bone marrow derived, in mediating renal fibrosis, and the number of mediator systems contributing to fibrotic changes is growing steadily. Here we review the most important cellular processes and mediators involved in the progress of renal fibrosis, with a focus on the allograft situation, and discuss some of the challenges in translating experimental insights into clinical trials, in particular fibrosis biomarkers or imaging modalities.     

Chronic cyclosporine nephrotoxicity. A rodent model

The lack of a suitable rodent model has hampered the study of chronic cyclosporine nephrotoxicity. Proximal tubule vacuolization and inclusions are consistently reported in rat studies, but changes associated with chronic CsA nephrotoxicity in humans (interstitial fibrosis, tubular atrophy, arteriolopathy) are difficult to reproduce. Using male Sprague-Dawley (SD) rats we have administered CsA in olive oil (o.o.) at 25 mg/kg/d i.p. for 28 consecutive days. This protocol consistently results in a lesion of patchy interstitial fibrosis, tubular atrophy, interstitial inflammation, and marked juxtaglomerular apparatus (JGA) hypertrophy and hyperplasia. Control animals were pair-fed and received only o.o. i.p. Despite pair feeding, CsA-treated animals gained only 9.4 +/- 12 g, while controls gained 69 +/- 18 g. Minimal JGA hypertrophy was noted in some control animals, but no other significant changes were identified. The protocol was well tolerated and did not result in peritonitis. GFR was significantly depressed in the CsA-treated animals at the end of the 28-day period (0.44 +/- .26 vs. 1.12 +/- .13 ml/min) and BP tended to be lower, but this difference did not achieve statistical significance. We conclude that this model results in a reproducible lesion with many of the features of chronic CsA nephrotoxicity in humans, and that it will permit study of this problem to advance.     

Significance of tubulointerstitial changes in the renal cortex for the excretory function and concentration ability of the kidney: a morphometric contribution

This is an editorial review of investigations into the correlation of structure and function of the kidney in various inflammatory and noninflammatory glomerular diseases and in focal and diffuse interstitial nephritis. In detail these investigations produced the following results: (1) The excretory function of the glomeruli for substances usually eliminated with the urine is, in the case of inflammatory and noninflammatory glomerular diseases, detrimentally affected by tubulointerstitial changes, i.e. by processes accompanied by interstitial fibrosis and tubular atrophy. Likewise primary interstitial renal diseases when accompanied by interstitial fibrosis and tubular atrophy may lead to reduction in GFR. (2) Inflammatory and noninflammatory glomerular diseases, even when very severe, are not accompanied by a measurable reduction in GFR when the renal cortex interstitium shows no changes and the tubules exhibit no pathological findings. (3) The concentration ability of the kidney, too, depends primarily on tubulointerstitial changes and not primarily on a reduction of the glomerular filtration surface area. As interstitial fibrosis and tubular atrophy increase, the maximum concentration ability of the kidney decreases, even when the glomerular structure is preserved. (4) The decrease in GFR in the case of processes in the renal cortex accompanied by severe interstitial fibrosis is the result of the reduction of the number and of the area of the postglomerular vessels, i.e. the result of an impeded outflow from the glomeruli and of a concomitant slower circulation through the glomeruli. (5) In the case of inflammatory and noninflammatory glomerular and extraglomerular renal diseases accompanied by slight interstitial fibrosis and tubular atrophy, the GFR is detrimentally affected via a hormonally controlled self-regulating mechanism (Thurau-mechanism) in the form as modified by Baumbach and Skott and Leyssac. The glomerular function thereby adapts to an insufficient tubular function, without there necessarily being any structural changes in the glomeruli.     

成人微小病变肾病综合征发生急性肾损伤的相关影响因素分析

目的探讨成人微小病变肾病综合征发生急性肾损伤( AKI)的相关影响因素。 方法回顾性分析2002年1月1日至2015年12月31日在解放军总医院病理诊断为微小病变肾病,临床表现为首发肾病综合征的成年患者。记录其横断面临床及病理指标,并将其分为AKI组及非AKI组进行比较。用单因素及多元Logistic回归分析与AKI发生相关的影响因素。并对AKI相关的各影响因素进行交互作用检验。 结果共纳入403例患者,男女比例为1∶1.13,肾活检时平均年龄为(39.5 ± 15.1)岁,其中118(29.3%)例发生了AKI。AKI组与非AKI组相比,年龄、性别、尿蛋白定量、血清白蛋白、血肌酐、血尿素氮、估算的肾小球率过滤、肾小管萎缩、肾间质病变差异均有统计学意义(P<0.05)。单因素Logistic回归分析显示高龄、男性、尿蛋白定量多、肾小管萎缩、肾间质水肿、间质纤维化及炎细胞浸润、高血压是成人微小病变肾病发生AKI的危险因素。交互作用检验表明血清白蛋白对AKI的作用受到肾间质纤维化的显著影响(P＝0.0 050),且在调整年龄分组、性别、高血压、尿蛋白定量、肾小管萎缩、肾间质水肿、肾间质炎细胞浸润混杂因素后,其交互作用仍显著(P＝0.0 263)。从多元Logistic回归分析可见,在无肾间质纤维化的人群中,血清白蛋白水平的升高是AKI的独立保护因素(调整后的OR 0.8,95%CI 0.7～ 0.9,P<0.001)。在有肾间质纤维化人群中,血清白蛋白的升高对AKI肾脏的保护作用不显著(调整后的OR 1.0,95%CI 0.9～1.0,P＝0.0 278)。 结论高龄、男性、尿蛋白定量多、肾小管萎缩、肾间质水肿、间质纤维化及炎细胞浸润、高血压是成人微小病变肾病综合征发生AKI的危险因素。血清白蛋白升高对AKI的保护作用受到肾间质纤维化的影响。     

Expression of apoptosis regulatory genes in chronic cyclosporine nephrotoxicity favors apoptosis

Expression of apoptosis regulatory genes in chronic cyclosporine nephrotoxicity favors apoptosis. BACKGROUND: Chronic cyclosporine (CsA) nephrotoxicity is characterized by interstitial fibrosis, tubular dropout, and loss of cellularity in areas of fibrosis. Apoptosis was found to play a role in CsA-induced fibrosis. We evaluated the role of the death genes p53, Bax, and Fas-L (ligand), survival gene Bcl-2, interleukin-converting enzyme (ICE), and caspase-3. METHODS: Salt-depleted rats were administered CsA 15 mg/kg/day or vehicle (VH) and were sacrificed at 7 or 28 days. Apoptosis was detected by TdT-mediated dUTP-biotin nick end labeling assay. p53 and Bax expressions were evaluated by Northern and Western blot analysis. Fas-L and Bcl-2 expressions were evaluated by immunofluorescence. In addition to ICE mRNA, caspase-3 enzymatic activity was assayed. RESULTS: Although no differences were seen at one week, apoptosis-positive cells increased with CsA at four weeks (P < 0.05) and correlated with tubular atrophy and interstitial fibrosis (r = 0.8, P < 0.05). CsA induced the expression of p53 (P < 0.05) and Bax (P < 0.01) and decreased that of Bcl-2 (P < 0.05). CsA up-regulated Fas-L expression (P < 0.001). ICE mRNA and caspase-3 activity were also increased (P < 0.01). The changes occurred as early as one week and remained statistically significant at four weeks. CONCLUSIONS: Specific apoptotic genes are increased in chronic CsA nephrotoxicity. The balance favors the induction of apoptosis. Increased apoptosis could explain the tubular dropout and loss of cellularity with fibrosis. This then may impair the ability of the tubulointerstitium to remodel. Apoptosis could also contribute to some of CsA immunosuppressive effects on activated lymphocytes.     

The pathobiology of chronic allograft nephropathy: immune-mediated damage and accelerated aging

Chronic allograft nephropathy includes chronic calcineurin nephrotoxicity, recurrent and de novo glomerulonephritis and a group of disorders with graft dysfunction of unknown etiology designated chronic rejection. Review of risk factors of the latter category show that the chronic rejection lesions emerge in organs that have undergone injury. Despite the relevance of nonalloantigen-dependent progression factors in the tissue injury, alloantigen-dependent factors predominate in the pathogenesis. Lately, B cell responses have received increasing interest in transplant rejection and include responses against both major histocompatibility complex (MHC) and tissue-specific antigens, mainly on the endothelium and in the glomeruli. These humoral responses are thought to be involved in the development of vascular and glomerular lesions. Furthermore, at the tissue level, markers of senescence are found in the tubular epithelium contributing to the lesions of tubular atrophy and interstitial fibrosis.     

Aristolochic acid induces proximal tubule apoptosis and epithelial to mesenchymal transformation

Aristolochic acid contamination in herbal remedies leads to interstitial fibrosis, tubular atrophy, and renal failure in humans. To study the cellular mechanisms contributing to the pathophysiology of this renal disease, we studied Wistar rats treated with aristolochic acid and measured tubular and interstitial cell proliferation, epithelial/mesenchymal cell marker expression, tubular membrane integrity, myofibroblast accumulation, oxidative stress, mitochondrial damage, tubular apoptosis, and fibrosis. Oxidative stress, a loss of cadherin concomitant with vimentin expression, basement membrane denudation with active caspase-3 expression, and mitochondrial injury within tubular cells were evident within 5 days of administration of the toxin. During the chronic phase, interstitial mesenchymal cells accumulated in areas of collagen deposits. Impaired regeneration and apoptosis of proximal tubular cells resulted in tubule atrophy with a near absence of dedifferentiated cell transmembrane migration. We suggest that resident fibroblast activation plays a critical role in the process of renal fibrosis during aristolochic acid toxicity.     

Cyclosporine induces elevated procollagen alpha 1 (I) mRNA levels in the rat renal cortex

Chronic cyclosporine nephrotoxicity is a poorly understood drug side-effect characterized by renal cortical interstitial scarring. To evaluate procollagen mRNA levels as an early factor in the development of this form of renal fibrosis, we measured renal procollagen alpha 1 (I), alpha 1 (III), alpha 1 (IV) and beta-actin mRNA levels in rats treated with cyclosporine (CsA) or the olive oil vehicle (OO) for one or four weeks. Renal morphology was similar without atrophy or fibrosis in one week CsA and OO and four week OO rats. Four week CsA rats had focal cortical interstitial fibrosis and tubular atrophy. Cortical procollagen alpha 1 (I) mRNA levels were increased in CsA versus OO rats at one week (P less than 0.02) and four weeks (P less than 0.02). One week medullary procollagen alpha 1 (I) and all other one week medullary, and one and four week cortical procollagen and beta-actin mRNA levels were no different in CsA versus OO rats. The early increase in renal cortical procollagen alpha 1 (I) mRNA levels precedes renal morphologic abnormalities, and may represent an important step in the pathogenesis of cyclosporine-induced renal cortical fibrosis.     

Direct transfer of hepatocyte growth factor gene into kidney suppresses cyclosporin A nephrotoxicity in rats.

BACKGROUND: The clinical utility of cyclosporin A (CsA) has been limited by its nephrotoxicity, which is characterized by tubular atrophy, interstitial fibrosis and progressive renal impairment. Hepatocyte growth factor (HGF), which plays diverse roles in the regeneration of the kidney following acute renal failure, has been reported to protect against and salvage renal injury by acting as a renotropic and anti-fibrotic factor. Here, we investigated protective effects of HGF gene therapy on CsA-induced nephrotoxicity by using an electroporation-mediated gene transfer method. METHODS: CsA was orally administered as a daily dose of 30 mg/kg in male Sprague-Dawley rats receiving a low sodium diet (0.03% sodium). Plasmid vector encoding HGF (200 micro g) was transferred into the kidney by electroporation. RESULTS: HGF gene transfer resulted in significant increases in plasma HGF levels. Morphological assessment revealed that HGF gene transfer reduced CsA-induced initial tubular injury and inhibited interstitial infiltration of ED-1-positive macrophages. In addition, northern blot analysis demonstrated that cortical mRNA levels of TGF-beta and type I collagen were suppressed in the HGF group. Finally, HGF gene transfer significantly reduced striped interstitial phenotypic alterations and fibrosis in CsA-treated rats, as assessed by alpha-smooth muscle actin expression and Masson's trichrome staining. CONCLUSIONS: These results suggest that HGF may prevent CsA-induced tubulointerstitial fibrosis, indicating that HGF gene transfer may provide a potential strategy for preventing renal fibrosis.     

OXIDATIVE STRESS-MEDIATED RENAL DYSFUNCTION BY CYCLOSPORINE A IN RATS: ATTENUATION BY TRIMETAZIDINE

Cyclosporine A (CsA) is one of the first line immunosuppressants employed in the management of solid organ transplantation and autoimmune diseases. The clinical utility of CsA is limited by the frequent occurrence of chronic nephrotoxicity, characterized by tubular atrophy, interstitial fibrosis and progressive renal impairment. The pathogenesis of CsA nephrotoxicity is still not well delineated. Recent evidences suggest that reactive oxygen species (ROS) play an important role in CsA nephrotoxicity. The present study was designed to demonstrate the role of oxidative stress, its relation to renal dysfunction and to investigate the effect of trimetazidine (TMZ), an anti-ischemic agent with free radical scavenging property, in CsA-induced nephrotoxicity. TMZ (2.5 mg/kg, p.o., twice a day) was administered 24 h before and 21 days concurrently with CsA (20 mg/kg, s.c.). Tissue lipid peroxidation was measured as thiobarbituric acid reacting substances (TBARS). Renal function was assessed by measuring the plasma and urine creatinine concentrations, blood and urine urea nitrogen levels and the creatinine and urea clearances. Renal morphological alterations were assessed by histopathological examination of Hematoxylin-Eosin, PAS and Masson's trichome stained sections of the kidneys. CsA (20 mg/kg, s.c) administration for 21 days produced elevated levels of TBARS and decreased renal function as assessed by increased plasma creatinine, BUN and decreased creatinine and urea clearances as compared to vehicle treated rats. The kidneys of CsA treated rats showed severe striped interstitial fibrosis, arteriolopathy, glomerular basement thickening, tubular vacuolization and hyaline casts. TMZ (2.5 mg/kg) markedly reduced elevated levels of TBARS, significantly attenuated renal dysfunction and the morphological changes in CsA treated rats. These results clearly demonstrate the pivotal role of reactive oxygen species and their relation to renal dysfunction and point to the therapeutic potential of an anti-ischemic agent, trimetazidine, in CsA-induced nephrotoxicity.     

Oxidative stress-mediated renal dysfunction by cyclosporine A in rats: attenuation by trimetazidine

Cyclosporine A (CsA) is one of the first line immunosuppressants employed in the management of solid organ transplantation and autoimmune diseases. The clinical utility of CsA is limited by the frequent occurrence of chronic nephrotoxicity, characterized by tubular atrophy, interstitial fibrosis and progressive renal impairment. The pathogenesis of CsA nephrotoxicity is still not well delineated. Recent evidences suggest that reactive oxygen species (ROS) play an important role in CsA nephrotoxicity. The present study was designed to demonstrate the role of oxidative stress, its relation to renal dysfunction and to investigate the effect of trimetazidine (TMZ), an anti-ischemic agent with free radical scavenging property, in CsA-induced nephrotoxicity. TMZ (2.5 mg/kg, p.o., twice a day) was administered 24 h before and 21 days concurrently with CsA (20 mg/kg, s.c.). Tissue lipid peroxidation was measured as thiobarbituric acid reacting substances (TBARS). Renal function was assessed by measuring the plasma and urine creatinine concentrations, blood and urine urea nitrogen levels and the creatinine and urea clearances. Renal morphological alterations were assessed by histopathological examination of Hematoxylin-Eosin, PAS and Masson's trichome stained sections of the kidneys. CsA (20 mg/kg, s.c) administration for 21 days produced elevated levels of TBARS and decreased renal function as assessed by increased plasma creatinine, BUN and decreased creatinine and urea clearances as compared to vehicle treated rats. The kidneys of CsA treated rats showed severe striped interstitial fibrosis, arteriolopathy, glomerular basement thickening, tubular vacuolization and hyaline casts. TMZ (2.5 mg/kg) markedly reduced elevated levels of TBARS, significantly attenuated renal dysfunction and the morphological changes in CsA treated rats. These results clearly demonstrate the pivotal role of reactive oxygen species and their relation to renal dysfunction and point to the therapeutic potential of an anti-ischemic agent, trimetazidine, in CsA-induced nephrotoxicity.     

Specific molecular targeting of renal injury in obstructive nephropathy

Progression of most renal disease involves tubulointerstitial injury, characterized by tubular atrophy, inflammatory cell infiltration, and interstitial fibrosis. Transforming growth factor-beta1 is central in this process. As reported by Moon et al., molecular targeting of the transforming growth factor-beta1 signaling pathway can markedly suppress renal injury resulting from unilateral ureteral obstruction, an established model of obstructive nephropathy. Specific kinase inhibitors are promising therapeutic agents to slow or attenuate progressive renal fibrosis.     

Cellular senescence limits regenerative capacity and allograft survival

Long-term graft survival after kidney transplantation remains unsatisfactory and unpredictable. Interstitial fibrosis and tubular atrophy are major contributors to late graft loss; features of tubular cell senescence, such as increased p16(INK4a) expression, associate with these tubulointerstitial changes, but it is unknown whether the relationship is causal. Here, loss of the INK4a locus in mice, which allows escape from p16(INK4a)-dependent senescence, significantly reduced interstitial fibrosis and tubular atrophy and associated with improved renal function, conservation of nephron mass, and transplant survival. Compared with wild-type controls, kidneys from INK4a(-/-) mice developed significantly less interstitial fibrosis and tubular atrophy after ischemia-reperfusion injury. Consistently, mice that received kidney transplants from INK4a/ARF(-/-) donors had significantly better survival 21 days after life-supporting kidney transplantation and developed less tubulointerstitial changes. This correlated with higher proliferative rates of tubular cells and significantly fewer senescent cells. Taken together, these data suggest a pathogenic role of renal cellular senescence in the development of interstitial fibrosis and tubular atrophy and kidney graft deterioration by preventing the recovery from injury. Inhibiting premature senescence could have therapeutic benefit in kidney transplantation but has to be balanced against the risks of suspending antitumor defenses.     

Inhibition of nuclear factor-kappaB activation by pyrrolidine dithiocarbamate prevents chronic FK506 nephropathy

BACKGROUND: Chronic tacrolimus (FK506) nephrotoxicity is characterized by renal fibrosis with interstitial inflammation. Since nuclear factor-kappaB (NF-kappaB) plays a key role in chronic inflammatory diseases including renal disease, the present study was conducted to elucidate the role of NF-kappaB in the pathogenesis of chronic FK506-induced nephropathy. METHODS: FK506 (1 mg/kg/day, SC) was administered daily to rats maintained on low sodium diet for 42 days. Some rats were treated with a putative NF-kappaB inhibitor, pyrrolidine dithiocarbamate (PDTC; 100, 200 mg/kg/day, by gavage). The renal function, renal histology, renal NF-kappaB-DNA binding activity and gene expression profile were examined. RESULTS: FK506 caused a decline in glomerular filtration and induced characteristic renal morphologic changes including arteriolopathy, tubular atrophy and interstitial fibrosis. FK506 markedly activated renal cortical NF-kappaB-DNA binding. PDTC administration inhibited NF-kappaB-DNA binding activity in a dose dependent manner. With higher dose, NF-kappaB-DNA binding activity was decreased to a control level. PDTC had little effect on FK506-induced renal dysfunction. Renal cortical monocyte/macrophage infiltration observed in FK506-treated rats was dramatically suppressed by PDTC. FK506 up-regulated renal cortical gene expression of chemoattractant proteins, monocyte chemoattractant protein-1 (MCP-1) and osteopontin. PDTC significantly blocked MCP-1 gene expression but had no effect on osteopontin gene expression. Tubular atrophy and tubulointerstitial fibrosis, but not arteriolopathy, were significantly attenuated by PDTC. FK506 increased renal mRNA expression of fibrogenic molecules and extracellular matrices that also were attenuated by PDTC treatment. CONCLUSIONS: NF-kappaB plays an important role in mediating cortical monocyte/macrophage infiltration and in the pathogenesis of tubular injury and interstitial fibrosis in experimental FK506-induced chronic nephropathy.     

Tubular-interstitial interactions in proteinuric renal diseases

SUMMARY: Progressive chronic renal disease of all types is characterized by a relatively uniform set of tubular (atrophy, hypertrophy, hyperplasia) and interstitial (inflammatory cell infiltration, fibrosis) pathological changes, the severity of which correlates well with the degree of proteinuria and the decline in glomerular filtration. Complex and redundant pathophysiological events underlie the relationship between proteinuria, tubular injury and interstitial damage, forming potential targets for therapy. The outcome of these events is also determined by additional factors not limited to proteinuric diseases, including tissue hypoxia, complement activation and mediators produced in response to glomerular damage. In response to proteinuria and these additional factors, tubular cells are activated to produce a large number of chemoattractants, proinflammatory and profibrotic cytokines and matrix proteins, which cause, at least in part, interstitial inflammation and fibrosis. In turn, soluble products of interstitial inflammatory cells (predominantly T lymphocytes and macrophages), dendritic cells and fibroblasts are at least partially responsible for altering the phenotype of tubular cells. Abnormal tubular‐interstitial interactions may also depend on direct cell contact rather than soluble mediators, as evidenced by up‐regulation of integrins and cell adhesion molecules. Myofibroblasts, a key cell in the production of interstitial fibrosis, may arise in response to the above mediators by trans‐differentiation of fibroblasts, perivascular cells and tubular cells. In addition, tubular cells have been shown to be capable of the induced expression of the signalling molecules necessary for them to behave as antigen‐presenting cells and thereby potentially initiate interstitial inflammation through the classic interactions of cognate immunity. It is probable that several, but not all, of this bewildering number of pathophysiological events are of prime importance to the development of tubulointerstitial damage in proteinuria. The immediate challenge for investigators is to define the relative importance of these events and, thus, the most appropriate targets for new treatments.     

Specificity of histological markers of long-term CNI nephrotoxicity in kidney-transplant recipients under low-dose cyclosporine therapy

The specificity of chronic histological lesions induced by calcineurin inhibitors (CNI) is often questioned, but few studies have directly compared long-term lesions in renal-transplant patients who received this treatment and those who did not. We therefore conducted a retrospective study of 141 kidney-transplant recipients treated with (n = 48) or without (n = 93) cyclosporine (CsA) to compare the histological lesions observed at 3-month, 24-month and 10-year protocol biopsies. All of the chronic elementary lesions (glomerulosclerosis, interstitial fibrosis, tubular atrophy, arteriolar hyalinosis, fibrointimal thickening) progressed in frequency and severity in both groups, although significantly more in the CsA group. Ten-year biopsy results showed that 92% of patients in the CsA-treated group and 65% in the control group had arteriolar hyalinosis lesions. When we focused on muscular arteriolar hyaline deposits more specific to CsA arteriolopathy, we observed these lesions in 68% of CsA patients and 28% of patients who had never received CsA. CsA was not the sole factor involved in the development of arteriolar hyalinosis and was independently associated with an increased risk of graft loss. In summary, we observed that histological lesions commonly attributed to CsA nephrotoxicity were not sufficiently specific to definitively diagnose CNI nephrotoxicity.     

Peritubular capillary rarefaction: a new therapeutic target in chronic kidney disease

Chronic kidney disease (CKD) has reached worldwide epidemic proportions and desperately needs new therapies. Peritubular capillary (PTC) rarefaction, together with interstitial fibrosis and tubular atrophy, is one of the major hallmarks of CKD and predicts renal outcome in patients with CKD. PTC endothelial cells (ECs) undergo apoptosis during CKD, leading to capillary loss, tissue hypoxia, and oxidative stress. Although the mechanisms of PTC rarefaction are not well understood, the process of PTC rarefaction depends on multiple events that occur during CKD. These events, which lead to an antiangiogenic environment, include deprivation of EC survival factors, increased production of vascular growth inhibitors, malfunction of ECs, dysfunction of endothelial progenitor cells, and loss of EC integrity via pericyte detachment from the vasculature. In this review, we focus on major factors regulating angiogenesis and EC survival and describe the roles of these factors in PTC rarefaction during CKD and possible therapeutic applications.     

Proteinuria and tubulointerstitial lesions in lupus nephritis.

BACKGROUND: Response of the renal tubules to proteinuria is implicated in progression of renal disease. Experimentally, proteinuria causes increased tubular synthesis of macrophagic and other chemokines, with increased tubular cellular proliferation and apoptosis, leading to interstitial inflammation and fibrosis. Clinically, diminution of proteinuria leads to the slowing of progression, but whether this leads to reduction in tubular lesions has not been directly demonstrated in humans. METHODS: Initial (Bx1) and systematic six-month biopsies (Bx2) from 71 patients with lupus nephritis were studied, with a subset of 34 biopsies also stained for proliferating cell nuclear antigen (PCNA), the macrophage marker PGM1, and cytokeratins (AE1/AE3), and morphometric cell and tubular profile counts performed. RESULTS: Positive correlations were found between increasing levels of proteinuria and the following light microscopic parameters: tubular epithelial pyknosis, tubular epithelial nuclear "activation," tubular lumenal macrophages, interstitial inflammation and fibrosis, but not with tubulointerstitial immunofluorescence. Significant positive correlations also were found with the following immunohistochemical parameters: PCNA in epithelial cells (r = 0.74) and tubular luminal cells (r = 0.47); tubular lumenal macrophages (r = 0.63) and tubular epithelial cells with acquired PGM1 staining (r = 0.36); and pyknotic tubular epithelial cells (r = 0.47). All showed strong correlations with serum creatinine (S(Cr)) as well. All were reduced at Bx2, generally in parallel to the reduction in proteinuria. Tubulointerstitial immune deposits appear to play only a minor role in the development of tubular epithelial lesions and the progression of renal disease in lupus. They show only limited correlation with SCr and no correlation with proteinuria. By multiple regression, they are not associated with tubular epithelial lesions, interstitial inflammation or interstitial fibrosis at either biopsy, whereas tubular epithelial lesions are strongly associated with interstitial inflammation at Bx1 and with interstitial fibrosis at Bx2. Cytokeratin correlated strongly with S(Cr) (r = 0.53, P = 0.002) but not with proteinuria (r = 0.27, NS), and was the sole immunohistochemical parameter to increase at Bx2. It appears to be a sensitive marker for tubular atrophy. CONCLUSIONS: In this study both proteinuria and SCr showed a hierarchy of correlations with morphologic variables: Tubular epithelial cell changes> tubular macrophages> interstitial inflammation> interstitial fibrosis, corresponding to current experimental models, but not previously demonstrated in humans.