Distinct immunophenotypes and prognostic factors in renal cell carcinoma with sarcomatoid differentiation: a systematic study of 19 immunohistochemical markers in 42 cases

The positive expression rates of vimentin were 52% (22/42) in carcinoma cells and 100% (42/42) in sarcomatoid cell (P = 0.000). The main expression panels of vimentin were C+/S+ (22/42) and C−/S+ (20/42). The positive expression rates of CK in carcinoma and sarcomatoid cells were 81% (34/42) and 50% (21/42), respectively (P = 0.005). The main expression panels of CK were C+/S+ (18/42) and C+/S- (16/42). The positive expression rates of EMA were 88% (37/42) and 50% (21/42) in carcinoma and sarcomatoid cells, respectively (P = 0.000). The expression panels of EMA were C+/S+ (21/42) and C+/S- (16/42).

CK7 was expressed in carcinoma cells in 11 of 42 cases (11/42) and sarcomatoid cells in 5 of 42 cases (5/42) (P = 0.164). The expression panels of CK7 were C+/S- (11/42) and C−/S+ (5/42). CK7 was not simultaneously expressed in two types of cells. CK18 was expressed in carcinoma cells in 25 of 42 cases (25/42) and sarcomatoid cells in 19 of 42 cases (19/42) (P = 0.275). The main expression panels of CK18 were C+/S+ (12/42) and C+/S- (13/42). HMW-CK was only expressed in the sarcomatoid cells in 3 of 42 cases (3/42) (P = 0.241).

The positive expression rates of CAIX in carcinoma and sarcomatoid cells were 50% (21/42) and 76% (32/42), respectively (P = 0.023). The major expression panels of CAIXwere C+/S+ (20/42) and C−/S+ (12/42). Among them, CAIX was diffusely strong expressed (3+) in carcinoma cells in 18 of 42 cases and in sarcomatoid cells in 29 of 42 cases. The positive expression rates of CD10 in carcinoma and sarcomatoid cells were 55% (23/42) and 76% (32/42), respectively (P = 0.065). The main expression panels of CD10 were C+/S+ (20/42) and C−/S+ (12/42). PAX8 was expressed in carcinoma cells in 34 of 42 cases (34/42) and sarcomatoid cells in 11 of 42 cases (27/42) (P = 0.141). Notably, among them, 24 cases showed co-expression of PAX8 in two types of cells (24/42). The main expression panels of PAX8 were C+/S+ (24/42), and C+/S- (10/42). The positive expressions of CAIX, CD10, and PAX8 were showed in Fig. 2a, b, and c.

The expression panels of AMACR were C+/S+ (3/42), C+/S- (8/42), and C−/S+ (3/42). The expression patterns showed no difference between carcinoma and sarcomatoid cells (P = 0.277). CD117 were merely expressed in carcinoma cells in 7 of 42 cases and sarcomatoid cells in 3 of 42 cases (P = 0.313). In addition, 3 samples presented CD99 expression in carcinoma cells and 9 cases presented CD99 expression in sarcomatoid cells (P = 0.116).

Ten cases showed p53 expression in carcinoma cells and 20 cases showed p53 expression in sarcomatoid cells (P = 0.04). The main expression panels of p53 were C+/S+ (8/42) and C−/S+ (12/42). The positive expression rates of Bcl-2 in carcinoma and sarcomatoid cells were 60% (25/42) and 21% (9/42), respectively (P = 0.001). The expression panels of Bcl-2 were C+/S+ (9/42) and C+/S- (16/42). The positive expression of p53 were showed in Fig. 2d.

The expressions of CAIX, CD10, vimentin, CK7 and CD117 in the carcinoma component between CCRCC and ChRCC showed significant differences (P < 0.05). However, no significant difference was revealed in the sarcomatoid component between the two tumors (P > 0.05) (Table 2).

Follow-up data were collected for 33 cases with the follow-up time ranged from 1 to 42 months. Among them, 1 patient died from other disease rather than tumor. There were another 24 deaths, including 22 CCRCCs and 2 ChRCCs according to the carcinoma elements which occurred in the 1st ~ 30th month after the surgery for metastasis of tumors to the bone or lung. Other 8 patients are still alive uneventfully after surgery.

The Kaplan-Meier survival curves comparing overall survival according to the expressions of CD10, CAIX, p53 and Bcl-2 were presented in Fig. 3. Univariate analysis showed that the expressions of CAIX (p = 0.000), p53 (p = 0.000) and Bcl-2 (p = 0.001) were all adverse prognostic factors for tumor related survival (Fig. 3). Furthermore, the multiple analyses using the Cox regression model revealed that CAIX, p53 and Bcl-2 were independent predictive factors for prognosis of RCC with sarcomatoid differentiation (P = 0.001, 0.011, 0.013, respectively).

In the present study, sarcomatoid cells in 81% cases expressed at least one epithelial marker. CK and EMA were expressed in approximately 62% cases. Sarcomatoid cells in 19 cases expressed CK18. However, 8 cases presented no expression of any tested epithelial marker. 5 cases showed CK7 positive staining in sarcomatoid cells rather than in clear cell carcinomas. The expressions of epithelial markers in sarcomatoid cells confirmed that sarcomatoid cells resulted from different differentiation orientations at different degrees of epithelial cells. Thus we recommend a series of cytokeratins with different molecular weights to identify the epithelial expression patterns of sarcomatoid cells.

As reported in the literature most sarcomatoid cells expressed vimentin with the positive rates of 56%–100% [5], few cases expressed actin and S100 [6]. In the present study, all 42 cases showed strong positive expression of vimentin in sarcomatoid cells. Among them, 30 cases expressed epithelial markers, 8 cases expressed SMA, but none of them expressed S100. Statistical analysis revealed the expression of vimentin in carcinoma and sarcomatoid cells was significantly different, which might be due to the lack of vimentin expression in 4 ChRCCs. Notably, vimentin was expressed in the sarcomatoid cells of CCRCC, which is different from that of ChRCC.

CAIX is a valuable marker indicating low endogenous oxygen level, which catalyzes the formation of carbonic acid from carbon dioxide and adjusts the pH value in tumor cells to adapt to the surrounding microenvironment and facilitate tumor proliferation. CAIX is now considered as a highly sensitive and specific marker for clear cell renal cell carcinoma [7]. Immunohistochemical study on CAIX in RCC with sarcomatoid differentiation has been rarely reported up till now. We revealed a high frequency of expression of CAIX in sarcomatoid cells (90%) with extensive and strong staining. Moreover, strong CAIX staining in sarcomatoid cells had been observed regardless the negative expression of CAIX in carcinoma cells (5 CCRCCs, 6 ChRCCs), indicating its involvement in proliferation of sarcomatoid cells and the transformation of carcinoma to sarcomatoid cells. It is known that CD10 could be used as a supplementary diagnostic marker for renal cell carcinoma. 32 cases showed strong CD10 expression in sarcomatoid cells. Among them, CD10 was expressed in both carcinoma and sarcomatoid cells in 20 cases, whereas 12 cases presented CD10 expression only in sarcomatoid cells. PAX8 belongs to PAX gene family, which is an important transcription factor in renal organogenesis and a reliable marker for primary kidney cancer [7]. Chang et al. [8] had reported that the expression rates of PAX8 were 69% and 18% in sarcomatoid cells of RCC with sarcomatoid differentiation and sarcomatoid urothelial carcinoma, respectively. However, it was rarely expressed in renal epithelioid angiomyolipoma and leiomyosarcoma, suggesting that it could be used as a good diagnostic marker for RCC with sarcomatoid differentiation. The present study revealed that PAX8 was expressed in carcinoma cells of 34 cases and sarcomatoid cells of 27 cases. Among them, 24 cases showed extensive expression in both two components, which leads to an idea that PAX8 could be used as a useful diagnostic marker for identifying the RCC with sarcomatoid differentiation in fine needle aspiration cases and in metastatic RCC with sarcomatoid differentiation. AMACR was rarely expressed in sarcomatoid cells, and only 6 cases showed strong AMACR expression in our study.

CAIX, one of the most important tumor-associated carbonic anhydrases (CAs), is strongly induced by hypoxia in renal carcinoma cells, which could promote the growth of tumor cells. However, few research endeavors have been devoted to studying its role in predicting the outcome of RCC with sarcomatoid differentiation. Tickoo et al. [9] reported that over expression of CAIX showed no association with survival in 22 clear cell RCCs and 12 nonclear cell RCCs with sarcomatoid differentiation. Whereas, the results of the present study indicated that positive expression of CAIX was related to the adverse prognosis of 42 cases of RCCs with sarcomatoid differentiation. Therefore, more cases are needed for further identifying the predictive function of CAIX for the prognosis of RCCs with sarcomatoid differentiation.

P53 is a tumor suppressor gene, which plays a key role in carcinogenesis. Our study demonstrated that the expression rate of p53 was 48% in sarcomatoid cells, which is higher than that in carcinoma cells, suggesting that p53 might be involved in triggering the development of high malignant sarcomatoid tumors from renal cell carcinoma. Furthermore, p53 could be a reliable marker for predicting the prognosis or treatment outcome of RCC with sarcomatoid differentiation.

Bcl-2 is an apoptosis suppressor gene; therefore its overexpression is a hallmark of cell proliferation and suppression of cell apoptosis. Our result showed a significant difference of Bcl-2 expressions between carcinoma cells and sarcomatoid cells, suggesting that Bcl-2 might facilitate the aberrant growth of carcinoma cells and the transformation of carcinoma cells to high malignant sarcomatoid differentiation via suppression of apoptosis. In addition, the expression of Bcl-2 was associated with the adverse outcome of RCC with sarcomatoid differentiation and Bcl-2 could be an important prognostic factor for the overall survival in RCC with sarcomatoid differentiation.

Additionally, Castillo et al. [10] had reported that sarcomatoid cells in 94.7% of RCC with sarcomatoid differentiation overexpressed CD117, suggesting the idea that tyrosine kinase inhibitor could be used for the therapy of CD117 positive RCC with sarcomatoid components patients. Wang et al. [11] did not find any CD117 expression in sarcomatoid urothelial carcinoma of the upper urinary tract. Our results showed CD117 only expressed in sarcomatoid cells of 3 cases of RCC and carcinoma cells of 7 ChRCCs with sarcomatoid differentiation. More studies are needed to discover the possible therapeutic use of tyrosine kinase inhibitor for RCC with sarcomatoid differentiation.

Due to the rarity of RCCs with sarcomatoid differentiation, more cases are needed to further confirm the specific features of the expression panels of these 19 immunomarkers, especially the prognostic values of CAIX, p53 and Bcl-2 playing in RCCs with sarcomatoid differentiation.