肾细胞癌的临床病理与免疫表型研究

目的 研究肾细胞癌的临床病理特征、预后及免疫表型特点.方法 复习114例肾细胞癌的临床病理资料、HE切片,按2004年WHO肾肿瘤分类标准重新分类、随访并进行免疫组织化学染色.结果 114例.肾细胞癌包括5个类型,肾透明细胞癌77例(67.5%)、乳头状肾癌11例(9.6%)、肾嫌色细胞癌14例(12.3%)、Xp11.2易位_/TFE3基因融合相关性肾癌10例(8.8%)、未能分类肾肿瘤2例(1.8%).免疫组织化学结果,肾透明细胞癌主要表达CK(93.5%,72/77)、CD10(93.5%,72/77)、波形蛋白(75.3%,58/77),乳头状肾癌主要表达α-甲酰基辅酶A消旋酶(AMACR,11/11),肾嫌色细胞癌主要表达CD117(11/14),Xp11.2易位/TFE3基因融合相关性肾癌TFE3、AMACR、CD10和CK的阳性率分别为10/10、10/10、9/10和7/10.结论 肾癌是一组形态学上各有特征的异质性肿瘤,在形态学基础上,CD10、波形蛋白、CD117、AMACR、CK7、TFE3有助于亚型的诊断.     

肾脏特异性钙黏蛋白在肾上皮性肿瘤的表达及其临床病理意义

目的探讨肾脏特异性钙黏蛋白（Ksp—cadherin）的新抗体在肾细胞癌和肾嗜酸细胞腺瘤中的表达意义。方法收集166例肾脏肿瘤标本,其中肾原发性透明细胞癌120例、乳头状肾细胞癌20例（I型乳头状肾细胞癌15例,Ⅱ型乳头状肾细胞癌5例）、嫌色细胞癌18例、嗜酸细胞腺瘤8例。使用Ksp—cadherin、CD10、波形蛋白、上皮细胞膜抗原（EMA）、CK7进行免疫组织化学（EnVision法）染色。结果Ksp-cadherin的表达率分别是透明细胞癌23％（27／120）,乳头状肾细胞癌20％（4／20）,嫌色细胞癌18／18,嗜酸细胞腺瘤6／8。CD10、波形蛋白在透明细胞癌和乳头状肾细胞癌有高表达,CK7主要表达于嫌色细胞癌和乳头状肾细胞癌,EMA在这4种肿瘤均有高表达。此外,CDl0在肾嫌色细胞癌中也有表达,但其表达于胞质,而在其他肿瘤的表达在细胞膜。Ksp—cadherin在肾透明细胞癌的表达程度与其分期分级呈正相关。结论Ksp—cadherin局限表达于远端肾小管及其起源的肾脏肿瘤。在嫌色细胞癌和嗜酸细胞腺瘤中有高度的特异和敏感性,在透明细胞癌中的表达和分期分级有关,在肾脏常见的上皮性肿瘤中具有鉴别诊断和预后价值。     

肾黏液样小管状和梭形细胞癌伴Xp11.2易位/TFE3基因融合相关性肾癌1例并文献复习

目的探讨肾黏液样小管状和梭形细胞癌(mucinous tubular and spindle cell carcinoma,MTSCC)伴Xp11.2易位/TFE3基因融合相关性肾癌(renal carcinomas associated with Xp11.2 translocations/TFE3 gene fusions,Xp11.2 RCC)的临床病理学特征、诊断及鉴别诊断。方法回顾性分析1例MTSCC伴Xp11.2 RCC的影像学、组织学及免疫表型特点,并复习相关文献。结果患者女性,60岁,增强CT检查示左肾中极见一直径约2.3 cm的圆形低密度区,界淸。镜下见肿瘤呈浸润性生长,由两种不同的形态组成:梭形细胞区和乳头状区。梭形细胞区肿瘤细胞梭形,胞质红染,可见紧密排列的小管结构;乳头状区肿瘤细胞乳头状排列,可见大量透明细胞及砂粒体。免疫表型:两种区域肿瘤细胞均表达vimentin、CK7、CK19、RCC、CD10,乳头状区肿瘤细胞表达TFE3。结论 MTSCC及Xp11.2 RCC均是临床少见的肿瘤,两种肿瘤组成的混合型肾细胞癌罕见。诊断依据组织学形态及免疫表型。     

Cyclin D1与claudin7联合检测在肾上皮性肿瘤鉴别诊断中的价值

目的探讨Cyclin D1和claudin7在常见肾上皮性肿瘤中的表达及鉴别诊断中的价值。方法采用组织芯片技术联合免疫组化染色检测Cyclin D1和claudin7蛋白在309例常见肾上皮性肿瘤及20例正常肾组织中的表达,比较分析两种抗体对肾肿瘤诊断及鉴别诊断的价值。结果 Cyclin D1在肾嗜酸细胞瘤(renal oncocytoma,RO)、嫌色细胞癌(chromophobe renal cell carcinoma,ChRCC)、透明细胞肾细胞癌(clear cell renal cell carcinoma,CCRCC)、乳头状肾癌(papillary renal cell carcinoma,PRCC)、Xp11.2易位/TFE3基因融合相关性肾癌和透明细胞管状乳头状肾癌(clear cell tubulopapillary renal cell carcinoma,CCTPRCC)中的阳性率分别为86.2%(50/58)、8.2%(4/49)、70.0%(98/140)、8.8%(3/34)、42.9%(6/14)和71.4%(10/14)。RO分别与ChRCC、PRCC相比(χ~2=64.72、52.56,P0.000 1),CCRCC与ChRCC(χ~2=55.87,P0.000 1),PRCC与Xp11.2易位性肾细胞癌(χ~2=4.28,P=0.039),CCTPRCC与ChRCC(χ~2=21.69,P0.000 1)各组间比较,差异均具有统计学意义。claudin7在RO、ChRCC、CCRCC、PRCC、Xp11.2易位/TFE3基因融合相关性肾癌和CCTPRCC中的阳性率分别为20.7%(12/58)、87.8%(43/49)、8.6%(12/140)、50%(17/34)、14.3%(2/14)、57.1%(8/14)。RO与ChRCC(χ~2=47.82,P0.000 1)、CCRCC与CCTPRCC(χ~2=26.57,P0.000 1)、PRCC与Xp11.2易位/TFE3基因融合相关性肾癌(χ~2=5.29,P0.05),各组间相比差异均有统计学意义。Cyclin D1阳性/claudin7阴性对于RO的敏感性和特异性分别为69.0%和95.9%,而Cyclin D1阴性/claudin7阳性对ChRCC诊断的敏感性和特异性分别为83.7%和96.6%。Cyclin D1阳性/claudin7阴性对CCRCC的敏感性和特异性分别为65.7%和71.4%,而Cyclin D1阳性/claudin7阳性对CCTPRCC的敏感性和特异性分别为42.9%和95.0%。结论 Cyclin D1和claudin7在不同组织类型肾肿瘤中的表达有差异,联合检测对RO与ChRCC、CCRCC与ChRCC、PRCC与Xp11.2易位性肾细胞癌的鉴别诊断具有重要作用。     

Xp11.2易位/TFE3基因融合相关性肾癌的病理特征与临床分析

目的探讨Xp11．2易位／TFE3基因融合相关性肾癌的临床病理特征、免疫表型、鉴别诊断及预后。方法对11例Xp11．2易位／TFE3基因融合相关性肾癌进行光镜观察和免疫组织化学研究及随访10～112个月,并复习相关文献。结果11例肿瘤中女性7例,男性4例。年龄8～26岁,平均16、3岁。肿块直径2．5～6．0cm。光镜下癌组织呈两种结构,一种为腺管状、乳头状、巢状分布。细胞界限清楚,有大量透明或嗜酸性胞质。泡状染色质、核仁明显,沙砾体多见。另一种结构更加紧密,多见实性巢状结构,癌细胞缺乏大量的胞质,核仁不明显,沙砾体少见。免疫表型：本组11例均TFE3、CD10、a-甲酰基-CoA消旋酶（P504s）弥漫表达,细胞广谱角蛋白（CK—pan）、上皮细胞膜抗原（EMA）、波形蛋白仅部分病例表达,所有病例CK7、肾脏特异性钙黏蛋白（Ksp—cadherin）、CD117阴性表达。结论Xp11．2易位／TFE3基因融合相关性肾癌是一种少见肿瘤,诊断主要依据患者的年龄。病理学形态和免疫组织化学TFE3阳性。     

青少年肾细胞癌的临床病理及分子遗传学研究

目的 探讨青少年肾细胞癌的临床病理特征、遗传学改变、鉴别诊断及预后.方法 对46例青少年肾细胞癌进行光镜观察及免疫组织化学染色,随访并复习相关文献.对46例肿瘤进行von Hippel-Lindau(VHL)基因区域杂合性缺失(LOH)及VHL基因突变筛查.结果 共诊断19例Xp11.2易位/TFE3基因融合相关性肾癌(Xp11 RCC)、9例透明细胞癌、17例乳头状肾细胞癌(PRCC)和1例不能分类肾细胞癌.19例Xp11 RCC均TFE3阳性,而TFEB阴性.8例肿瘤具有巢状和乳头状结构形态类似t(X;17)ASPL-TFE3型肾癌,6例肿瘤组织学类似t(X;1)PRCC-TFE3型肾癌,4例肿瘤形态像透明细胞癌,1例肿瘤组织学形态文献中未被检索到,表现为细胞核呈毛玻璃样,核仁不明显,可见核沟,肿瘤间质见大量黏液.LOH及VHL突变检测结果显示,仅1例透明细胞癌和1例2型PRCC存在LOH,并且该2型PRCC的VHL基因的一个剪切位点存在胚系突变,553+5 G→C.其余45例均未检测出VHL突变.统计学分析表明TFE3阳性肾细胞癌比TFE3阴性肾细胞癌更倾向于高病理分期(pT3/pT4),并且预后较差(P=0.035).结论 青少年肾细胞癌表现出不同的组织学形态以及分子遗传学背景.其中Xp11 RCC为最常见的肾癌亚型.TFE3阳性肾细胞癌的预后要差于TFE3阴性肾细胞癌.     

Xp11.2易位/TFE3基因融合相关性肾癌的临床病理学特点

目的 探讨Xp11.2易位/TFE3基因融合相关性肾癌的临床病理学特点.方法 对4例Xp11.2易位/TFE3基因融合相关性肾癌进行临床资料分析、组织学观察和免疫组化研究,并复习相关文献.结果 4例患者年龄自6～20岁,均具有腰痛的症状和较高的临床分期.肿瘤最大径2.5～10 cm,切面灰黄间灰红色.组织学上,肿瘤显示乳头状和腺泡状2种生长方式, 间质可见钙化.肿瘤细胞界限清楚,胞质淡红染至透亮,染色质呈泡状,核仁易见.4例肿瘤均弥漫高表达TFE3和CD10,不同程度表达CK、EMA和vimentin.结论 Xp11.2易位/TFE3基因融合相关性肾癌是最近被定义的一种罕见肿瘤,好发于年轻患者,预后较差.其诊断主要依靠特征性的组织病理学改变和免疫标记TFE3阳性.     

青年与老年肾癌的病理特点分析比较

目的:对比分析青年与老年肾癌患者的病理特点的异同。方法和材料:将我院2005-2009年期间收治的84例符合条件的肾癌病例,按照年龄分为小于等于40岁的青年组(36例)和大于40岁的中老年组(48例),对其病理类型做对比分析。结果:两组病例病理类型均以透明细胞癌为主,所占比例分别是72.22%(26/36)和85.42%(41/48),在青年组发现5例Xp11.2易位/TFE3基因融合相关性肾癌,为老年组所没有的类型。结论:两组的病理类型均以透明细胞癌为主,但在青年组有Xp11.2易位/TFE3基因融合相关性肾癌,这一新的肾癌类型为今后青少年肾癌的研究提供了方向。     

肾脏肿瘤的病理诊断

肾透明细胞癌、肾母细胞瘤是成人及儿童最常见的肿瘤,一直以来,关于这两类肿瘤病理诊断的认识没有很大变化,但近年来随着免疫组织化学及分子遗传生物学技术的发展,许多新的肾脏肿瘤类型已被确认.此外,由于影像学技术的发展,良性病变(良性肿瘤及瘤样病变)的检出率也逐年增加,有些良性病变临床表现及病理形态与肾脏恶性肿瘤相似,如果认识不足可能造成误诊,因此应引起足够的重视.注:Xpll RCC为Xp11.2易位/TFE3基因融合相关性肾癌;KSC为肾脏特异性钙黏蛋白;E-cad为E-钙黏蛋白;EMA为上皮细胞膜抗原;"+"表示阳性;"-":表示阴性;"/"表示"不详"     

Carbonic anhydrase IX expression in renal neoplasms: correlation with tumor type and grade

Carbonic anhydrase IX (CAIX), a hypoxia-induced protein, is expressed in some renal tumors. We evaluated its immunohistochemical expression in 317 primary and 42 metastatic renal neoplasms (186 clear cell, 52 papillary, 35 chromophobe, 47 unclassified, and 15 Xp11.2 translocation renal cell carcinomas [RCCs]; 26 oncocytomas; 2 metanephric adenomas; 1 urothelial carcinoma; 1 mixed epithelial and stromal tumor; and 1 angiomyolipoma); 7 neoplasms were unknown as to whether they were primary or metastatic. We also correlated expression with tumor type and grade. Variable staining was seen in clear cell, papillary, unclassified, and Xp11.2 translocation carcinomas. One chromophobe carcinoma had focal expression. No staining was seen with other tumors. An association was found between high expression and clear cell vs non-clear cell carcinomas with all cases (P < .01) and primary (P < .01) cases. An association between CAIX expression and grade (P < .01) in primary clear cell carcinomas was found. CAIX expression is more common in clear cell RCC than other renal tumor types and is associated with grade.     

Kidney-specific cadherin, a specific marker for the distal portion of the nephron and related renal neoplasms.

Renal cell neoplasms are presumably derived from different cell types of the nephron. Clear cell and papillary renal cell carcinoma (RCC) are thought to be of proximal tubular origin, whereas oncocytoma and chromophobe RCC are derived from intercalated cells of distal nephron. A few molecules, such as RCC marker and CD10, have been shown to be markers for clear cell RCC and papillary RCC. Such markers are not yet available for renal tumors presumably of the distal nephron. The expression of kidney-specific (Ksp) cadherin, a recently cloned gene thought to be transcribed exclusively in the kidney, was studied in normal human kidney, as well as in 105 primary renal neoplasms, including 42 clear cell RCC, 30 papillary RCC, 13 chromophobe RCC, and 20 oncocytomas. The expression patterns were compared with those of RCC marker. The Ksp-cadherin expression was noted preferentially in distal convoluted tubules with a basolateral membrane stain in normal kidney. All 13 chromophobe RCC and 19 of 20 oncocytomas showed diffuse and strong immunoreactivity for Ksp-cadherin, while only 14% clear cell RCC and 13% papillary RCC showed focal positivity. The RCC marker expression was detected in 85%, 98%, 15% and 0% of clear cell RCC, papillary RCC, chromophobe RCC, and oncocytoma, respectively. A few clear cell RCC and papillary RCC showed dual expression of both RCC marker and Ksp-cadherin, which appear to have distinct histologic features. These results demonstrated high sensitivity and specificity of Ksp-cadherin for distal convoluted tubules, which can be used as adjunct for diagnosis of chromophobe RCC.     

Expression of kidney-specific cadherin distinguishes chromophobe renal cell carcinoma from renal oncocytoma

Distinguishing renal oncocytoma from chromophobe and other renal carcinomas is essential, considering their differing biological potentials. Although renal oncocytoma is considered a benign tumor, chromophobe renal cell carcinoma has potentially malignant biological behavior. The numerous reported studies on distinguishing these 2 entities have been based on morphological, histochemical, immunohistochemical, ultrastructural, and cytogenetic features. But none of these features has proven to be reliably specific, especially in tumors with overlapping phenotypes. We report a novel immunohistochemical approach based on the expression of a recently described kidney-specific cadherin (Ksp-cadherin) for the differential diagnosis of these 2 tumors. We compared Ksp-cadherin expression in 212 renal tumors, including 102 clear cell renal carcinomas, 46 papillary renal cell carcinomas, 30 chromophobe carcinomas, 3 collecting duct carcinomas, and 31 oncocytomas. In addition, we examined the expression of epithelial membrane antigen, vimentin, CK7, and Hale's colloidal iron staining. We found that chromophobe renal cell carcinomas consistently (96.7% of cases) demonstrated a distinctive membrane pattern of Ksp-cadherin expression, whereas renal oncocytomas (3.2%), clear cell renal cell carcinomas (0%), papillary renal cell carcinomas (2.2%), and collecting duct carcinomas (0%) usually did not express Ksp-cadherin. CK7 expression was found in 90.0%, 6.5%, 7.8%, 76.1%, and 33.3% of these tumor cases, respectively. Whereas CK7 was detected in different types of renal cell carcinomas, Ksp-cadherin was expressed almost exclusively in chromophobe renal cell carcinomas. Immunohistochemical analysis of Ksp-cadherin offers a fast, reliable approach for the distinguishing between renal oncocytoma and chromophobe renal cell carcinoma that is applicable for routine pathology laboratory studies without the need for time-consuming and costly ancillary studies.     

Immunohistochemical detection of P504S in primary and metastatic renal cell carcinomas.

P504S/alpha-methylacryl CoA racemase has been shown to be a relatively sensitive and specific positive marker for prostatic adenocarcinoma. The potential utility of P504S in renal cell neoplasms has not been explored in a large series. We assessed the diagnostic value of P504S in 332 cases of nonprostatic neoplasms using the avidin-biotin-peroxidase complex technique, including 115 renal neoplasms, 28 metastatic renal cell carcinomas (RCCs), and 189 nonrenal neoplasms. The results demonstrated that a granular, cytoplasmic staining pattern for P504S was observed in 48 of 70 (68.6%) conventional (clear cell) RCCs, 15 of 15 (100%) papillary RCCs, 2 of 7 (29%) chromophobe RCCs, and 2 of 8 (25%) oncocytomas. Among the 70 cases of clear cell RCC, positivity of P504S was seen in 40%, 71%, 94%, and 75% of RCCs with Furhman nuclear grade I, II, III, and IV, respectively. Strong immunostaining was present in each case (86/86) in the proximal tubules adjacent to the renal neoplasm. Eighty-two percent of metastatic RCCs (23/28) were positive for P504S. However, only 24 of 189 (13%) nonrenal malignancies were positive. The 24 positive cases included 12 of 13 (92%) colorectal adenocarcinomas, 6 of 30 (20%) ductal carcinomas of the breast, and 4 of 23 (17%) adenocarcinomas of the lung. These findings suggest that P504S is a useful marker in diagnosing primary and metastatic RCCs, although it has little value in differentiating chromophobe RCC from oncocytoma.     

Alpha-methyl CoA racemase expression in renal cell carcinomas

Alpha-methyl CoA racemase (AMACR), a new molecular marker for prostate cancer, has been recently reported to be one of the most highly expressed genes in papillary renal cell carcinomas (RCCs). We tested the diagnostic usefulness of AMACR antibody in a series of 110 renal tumors: 53 papillary RCCs (33 type 1, 20 type 2); 25 conventional RCCs; 6 chromophobe RCCs; 9 oncocytomas; 5 mucinous tubular and spindle tumors; 2 urothelial carcinomas; 7 angiomyolipomas; and 2 Bellini carcinomas. Immunohistochemical staining was performed on formalin-fixed, paraffin-embedded tissue sections, with a primary prediluted rabbit monoclonal anti-AMACR antibody. Both type 1 and type 2 papillary RCCs exhibited cytoplasmic immunoreactivity for AMACR, with diffuse strong granular staining in 96.4% (53/55) of tumors, without correlation with type or nuclear grade. The 5 mucinous, tubular, and spindle cell carcinomas strongly expressed AMACR, and only 5 of 25 clear cell RCCs and 1 of 9 oncocytomas were focally reactive. The remaining 6 chromophobe RCCs, 5 urothelial carcinomas, and Bellini duct carcinomas showed no immunoreactivity for AMACR. Because high expression of AMACR is found in papillary RCCs (type 1 and 2) and in mucinous, tubular, and spindle cell carcinomas of the kidney, immunostaining for AMACR should be used in conjunction with other markers when histological typing of a renal tumor is difficult.     

Expression of CD138 (Syndecan-1) in renal cell carcinoma is reduced with increasing nuclear grade.

CD138/Syndecan-1 is a cell-surface heparan sulfate proteoglycan expressed on most epithelial cells, and decreased CD138 expression is associated with increased invasive and metastatic potential in carcinomas. CD138 expression has not been investigated previously in renal neoplasms. Formalin-fixed, paraffin-embedded tissue sections of 50 renal cell carcinomas (RCCs) (40 clear-cell RCCs of various nuclear grades, 10 of which harbored metastases; 6 papillary RCCs, 4 chromophobe RCCs) and 4 oncocytomas were stained immunohistochemically for CD138 using the monoclonal antibody B-B4 (CD138). Staining intensity and distribution were scored and results related to histologic type, nuclear grade, and local stage (pT). Immunoreactivity was membranous in all clear-cell RCCs, chromophobe RCCs, and oncocytomas and was located at the basal aspect of cytoplasm in papillary RCCs. In clear-cell RCCs, the extent of CD138 immunoreactivity decreased with increasing nuclear grade (P<0.001). No significant correlation was found between CD138 immunoreactivity and histologic type (P=0.2) or local stage (P=0.7). Metastatic foci showed a mild to moderate decrease in intensity compared with primary tumor. Decreased expression of CD138 may have a role in more aggressive behavior of clear-cell RCC.