Ranieri E, Gesualdo L, Grandaliano G, Maiorano E, Schena F P
Department of Emergency and Organs Transplantation, University of Bari, Polyclinic, Italy.
J Nephrol. 2001 Jul-Aug;14(4):253-62.
The degree of tubulointerstitial damage can be considered a better indicator of renal function outcome in IgA nephropathy (N) than the extent of glomerular sclerosis.
To investigate the pathogenetic mechanisms of interstitial injury in IgAN, we used immunohistochemistry and in situ hybridization to evaluate the glomerular and tubolointerstitial expression of PDGF-beta receptor (R) and alpha-smooth muscle actin (SMA), two markers of mesenchymal cell activation, and correlated these findings with the histopathologic and clinical features of the disease. We studied 155 IgAN patients, divided into three groups based on the histological findings (mild, moderate and severe histological lesions).
In normal kidneys and in patients with mild histological lesions, the interstitial areas showed scattered peritubular cells positive for PDGF-betaR and alpha-SMA, with a distribution resembling the capillary network. In the glomeruli several cells (mainly in the mesangial area) stained for PDGF-betaR, but only very few cells were positive for alpha-SMA. Alpha-SMA and PDGF-betaR staining, as expected, was also observed in vascular smooth muscle cells. Compared to patients with mild histological lesions, alpha-SMA expression was strikingly increased in patients with moderate to severe lesions, particularly in areas of tubulointerstitial fibrosis. In these patients, PDGF-betaR gene and protein expression, at the tubulointerstitial level, paralleled that in alpha-SMA. Both signals were significantly correlated with the interstitial damage (interstitial infiltrate and fibrosis). Interestingly, these patients showed a different pattern of distribution of alpha-SMA and PDGF-betaR in the glomeruli: PDGF-betaR expression was upregulated, whereas no changes were seen in alpha-SMA staining. In addition, glomerular PDGF-betaR staining was significantly correlated with mesangial cell proliferation, while alpha-SMA was not. Image analysis showed that 40.2+/-10.3/1,000 microm2 of interstitial cells were positive to both PDGF-betaR and alpha-SMA, but only 2.8+/-1.8/1,000 microm of glomerular cells expressed both signals.
Our study supports the hypothesis that interstitial PDGF-betaR and alpha-SMA positive cells may play a key role in the pathogenesis of tubulointerstitial damage.
与肾小球硬化程度相比,肾小管间质损伤程度可被视为IgA肾病(IgAN)肾功能转归的更好指标。
为研究IgAN间质损伤的发病机制,我们采用免疫组化和原位杂交技术评估血小板衍生生长因子β受体(PDGF-βR)和α平滑肌肌动蛋白(α-SMA)这两种间充质细胞活化标志物在肾小球和肾小管间质的表达,并将这些结果与该疾病的组织病理学及临床特征相关联。我们研究了155例IgAN患者,根据组织学结果将其分为三组(轻度、中度和重度组织学病变)。
在正常肾脏及轻度组织学病变患者中,间质区域可见散在的肾小管周围细胞,其PDGF-βR和α-SMA呈阳性,分布类似于毛细血管网。在肾小球中,有几个细胞(主要在系膜区)PDGF-βR染色阳性,但α-SMA阳性细胞极少。正如预期的那样,在血管平滑肌细胞中也观察到α-SMA和PDGF-βR染色。与轻度组织学病变患者相比,中重度病变患者的α-SMA表达显著增加,尤其是在肾小管间质纤维化区域。在这些患者中,肾小管间质水平的PDGF-βR基因和蛋白表达与α-SMA平行。两种信号均与间质损伤(间质浸润和纤维化)显著相关。有趣的是,这些患者肾小球中α-SMA和PDGF-βR的分布模式不同:PDGF-βR表达上调,而α-SMA染色未见变化。此外,肾小球PDGF-βR染色与系膜细胞增殖显著相关,而α-SMA则不然。图像分析显示,每1000平方微米间质中有40.2±10.3个细胞PDGF-βR和α-SMA均呈阳性,但肾小球中每1000平方微米仅有2.8±1.8个细胞表达这两种信号。
我们的研究支持以下假说,即肾小管间质PDGF-βR和α-SMA阳性细胞可能在肾小管间质损伤的发病机制中起关键作用。
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