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Ann Thorac Surg 1995;59:412-415
© 1995 The Society of Thoracic Surgeons

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Orginal Articles

Expression of Lewis-Related Antigen and Prognosis in Stage I Non–Small Cell Lung Cancer

First Department of Surgery, School of Medicine, Tokai University, Kanagawa, Japan

Accepted for publication September 30, 1994.

Abstract

Immunohistochemical expression of Lewis^y, sialyl Lewis^x, and sialyl Lewis^a were examined in relation to blood vessel invasion and prognosis in 133 patients with stage I non–small cell lung cancer who had a curative resection from 1980 to 1991. Expression of sialyl Lewis^x in adenocarcinomas was higher than in squamous cell and large cell carcinomas, and Lewis^y immunoreactivity was the highest among the three antigens. The frequency of blood vessel invasion was significantly higher in tumors with expression of Lewis^y or sialyl Lewis antigen (sialyl Lewis^x or sialyl Lewis^a), however, Lewis^y expression was even more significant. The postoperative survival was significantly shorter when tumors expressed both the Lewis^y and sialyl Lewis antigen. However, the survival of patients with either Lewis^y or sialyl Lewis antigen expression was similar to that of patients whose tumors did not express either the Lewis^y or sialyl Lewis antigens. These results suggest that Lewis^y and sialyl Lewis antigen may be of prognostic value for metastatic potential but have different functional roles in tumor cells.

About 30% of patients with stage I lung cancer who undergo curative resection die of cancer due to minute metastatic foci, which probably are already present at the time of operation [1]. Although minute metastatic foci cannot be detected by any currently available diagnostic or microscopic techniques, the ability to predict the likelihood of metastasis from the resected specimens could present an important contribution to treatment planning. There are several reports that the expression of Lewis-related carbohydrate antigens is associated with various cancers including the lung [2–4]; however, their functional roles for metastatic potential have not been fully established. We therefore have examined retrospectively the immunohistochemical expression of Lewis-related antigens in relation to prognosis in patients with stage I non–small cell lung cancer who had a curative resection.

Patients and Methods

One hundred thirty-three consecutive patients with stage I non–small cell lung cancer according to the TNM classification [5] who underwent a curative tumor resection and lymph node dissection from 1980 to 1991 were included in this study. The surgical protocols were the same for all the patients and none had received any adjuvant therapy.

A streptavidin-biotinyl peroxidase complex method using antibodies against Lewis^y (BM-1; Japan Immunoresearch Lab, Takasaki, Japan), sialyl Lewis^x (FH6; provided by Otsuka Pharmaceutical, Tokushima, Japan), and sialyl Lewis^a (CA19-9; Centocor, Malvern, PA) antigens was performed on fomaldehyde-fixed tissue sections. Each diluted antibody solution (BM-1, 1:100; FH6, 1:10; CA19-9, 1:1) was overlaid on thin-sliced sections and incubated at room temperature overnight. Subsequently, the sections were incubated with a biotinylated sheep anti-mouse immunoglobulin solution and then covered with a streptavidin-biotinyl peroxidase complex (LSAB kit; DAKO, Carpinteria, CA). The sections then were stained with 0.02% 3,3'-diaminobenzidine and 0.06% sodium azide (Wako Pure Chemical, Osaka, Japan) and counterstained with 0.3% methyl green. Immunohistochemical staining was examined in at least 1000 cells over five high-power fields (magnification, x 1,000).

The mean percentage of the cells with Lewis^y (Le^y), sialyl Lewis^x (SLe^x), and sialyl Lewis^a (SLe^a) staining was 56%, 32%, and 24%, respectively. Of these antigens, positive incidence of Le^y staining was significantly higher than SLe^x and SLe^a. Thus, the grading of the Le^y staining was defined as follows: (+), 50% or more of the cells had membraneous staining; (-), fewer than 50% had staining. The grading of the SLe^x and SLe^a staining were as follows: (+), 30% or more had membraneous staining; (-), fewer than 30% had staining. Negative controls were done by omitting the primary antibodies but using the same method mentioned earlier. The pathologic findings were reviewed separately by two pathologists who had no knowledge of the clinical outcome, and the results were taken into account only if the two pathlogists reached consensus. Blood vessel invasion (BVI) was examined by victoria blue-hematoxylin and eosin staining as previously reported [6] and their frequencies were evaluated by the ² test. Survivals were calculated by the Kaplan-Meier method, and statistical evaluation was done by the log-rank test.

Results

Profiles of Patient Population
The age, histologic types, tumor stage, BVI, and recurrence in the patient population are summarized in Table 1. Of the 41 patients with recurrent tumors, 34 (83%) had blood-borne metastases.

View larger version (16K): [in this window] [in a new window]   Fig 1. . Survival by sialyl Lewisx (SLex), sialyl Lewisa (SLea), and Lewisy (Ley) expression.

View larger version (22K): [in this window] [in a new window]   Fig 2. . Survival by Lewisy (Ley) and sialyl Lewis (SLe) antigen expression. (p < 0.01, Ley(-)SLe(-) versus Ley(+)SLe(+); p < 0.02, Ley(-)SLe(+) versus Ley(+)SLe(+); p < 0.05, Ley(+)SLe(-) versus Ley(+)SLe(+).)

Our present study demonstrates that the expression of Le^y, SLe^x, and SLe^a may be of prognostic value for predicting survival. As shown in Table 4, Le^y, SLe^x, and SLe^a have similar structures with sialic acid or fucose conjugated to their terminal epitope. Although these antigens accumulate in tumor tissues of patients with carcinoma [2–4], their functional roles have remained largely unknown. Recently, both SLe^x and SLe^a have been shown to be ligands for the cell adhesion molecule called ELAM-1 (E-selectin, endothelial leukocyte adhesion molecule-1) [7–10], which is present on cytokine-activated vascular endothelial cells. Thus, SLe^x and SLe^a may contribute to the adhesion of tumor cells to the vascular beds and promote hematogenous metastasis [11]. In addition, others have reported that cells expressing Le^y repel each other [12], and may be correlated with cell motility [13]. Thus, Le^y may influence the invasive potential of tumor cells and, consequently, prognosis [14]. To assess the contribution of these Lewis-related antigens, we selected patients with stage I non–small cell lung cancer and studied their immunohistochemical expression in relation to prognosis.

For a distant metastasis to form, the following steps are thought to be important: individual tumor cells first detach from the primary lesion and then invade the blood vessels. Next, they attach to the vascular beds in the target organs after migration in the blood. They then penetrate the capillary walls and finally proliferate in the extracellular matrix. In fact, patients with BVI(+) tumors (n = 58) had a significantly shorter survival than those with BVI(-) tumors (n = 75) (p < 0.01). In addition, we have reported that the disease-free survival of patients with BVI and SLe^x expression was significantly worse [6]. In the present study, the BVI frequencies were significantly higher when tumors expressed Le^y or SLe and the survival was significantly shorter when tumors expressed both Le^y and SLe. However, Le^y expression was a more significant factor for BVI than SLe. Moreover, the survival of patients whose tumors expressed either Le^y or SLe was as long as that of the patients whose tumors did not express either antigen, although Le^y and SLe were individually significant factors for the survival. These results suggest that Le^y and SLe have a different functional role for distant metastasis. Because SLe is a ligand for the E-selectin receptor, and Le^y may be involved with cell motility, it is likely that SLe plays some role in the adhesion of cancer cells to the vascular beds, whereas Le^y is involved in invasive potential, namely, blood vessel invasion and transmigration from the site of vascular arrest to the extracellular matrix.

In conclusion, the expression of Le^y, SLe^x, and SLe^a antigens may be of prognostic value for predicting prognosis in patients with stage I non–small cell lung cancer, but have different functional roles for metastatic potential, possibly in defining adhesion and the motility of cancer cells.

Footnotes

Address reprint requests to Dr Ogawa, First Department of Surgery, School of Medicine, Tokai University, Bohseidai, Isehara, Kanagawa, 259-11, Japan.

References

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