Keller J J, Offerhaus G J, Drillenburg P, Caspers E, Musler A, Ristimäki A, Giardiello F M
Department of Pathology, Academic Medical Center, 1100 DD Amsterdam, the Netherlands.
Clin Cancer Res. 2001 Dec;7(12):4000-7.
Sulindac causes the reduction of adenomas in familial adenomatous polyposis (FAP) patients, but complete regression is unusual, and breakthrough of colorectal carcinoma during sulindac treatment has been described. The molecular features related to sulindac resistance are unknown. Therefore, we investigated molecular alterations in adenomas from FAP patients with complete adenoma regression on sulindac (responsive patients) and from FAP patients with sulindac-resistant adenomas (resistant patients).
Fourteen baseline adenomas (removed before sulindac treatment) from six responsive patients were studied. Also, 9 baseline adenomas and 34 resistant adenomas (removed during sulindac treatment) from three resistant patients were analyzed. Using immunohistochemistry, we evaluated the expression of beta-catenin, cyclooxygenase-2 (Cox-2), p53, Bcl-2, and Bax. K-ras codon 12 mutations, loss of heterozygosity at 5q (APC locus), and microsatellite instability were studied with PCR-based techniques.
There were no significant differences between baseline adenomas from sulindac-responsive and -resistant patients (P > 0.05). There was less loss of membranous beta-catenin staining and less nuclear beta-catenin accumulation in resistant adenomas compared with baseline adenomas from the same (sulindac-resistant) patients (P < 0.01) or baseline adenomas from responsive patients (P < 0.01). Epithelial Cox-2 expression was less, though not significant, in resistant adenomas compared with baseline adenomas from resistant patients, but was significantly less in baseline adenomas from responsive patients (P < 0.01). K-ras mutations were found in 8 of 34 resistant adenomas (24%) and in none of the baseline adenomas (P < 0.05). Stromal Cox-2 expression, staining of p53 and Bcl-2, and loss of heterozygosity at 5q were comparable in both groups. Loss of Bax staining and microsatellite instability were not found in any adenoma.
Sulindac-resistant adenomas display less alteration in beta-catenin staining and less epithelial Cox-2 expression when compared with adenomas removed before sulindac treatment. K-ras mutations may contribute to sulindac-resistance. Continued research is needed to investigate molecular alterations related to sulindac resistance.
舒林酸可使家族性腺瘤性息肉病(FAP)患者的腺瘤缩小,但完全消退并不常见,且已有报道在舒林酸治疗期间出现结直肠癌进展的情况。与舒林酸耐药相关的分子特征尚不清楚。因此,我们研究了舒林酸治疗后腺瘤完全消退的FAP患者(反应性患者)和舒林酸耐药腺瘤的FAP患者(耐药患者)腺瘤中的分子改变。
研究了6例反应性患者的14个基线腺瘤(舒林酸治疗前切除)。此外,分析了3例耐药患者的9个基线腺瘤和34个耐药腺瘤(舒林酸治疗期间切除)。使用免疫组织化学方法,我们评估了β-连环蛋白、环氧合酶-2(Cox-2)、p53、Bcl-2和Bax的表达。采用基于PCR的技术研究K-ras密码子12突变、5号染色体(APC位点)杂合性缺失和微卫星不稳定性。
舒林酸反应性和耐药性患者的基线腺瘤之间无显著差异(P>0.05)。与同一(舒林酸耐药)患者的基线腺瘤(P<0.01)或反应性患者的基线腺瘤相比,耐药腺瘤中膜性β-连环蛋白染色缺失和核β-连环蛋白积累较少(P<0.01)。与耐药患者的基线腺瘤相比,耐药腺瘤中上皮Cox-2表达较少,虽不显著,但在反应性患者的基线腺瘤中显著较少(P<0.01)。34个耐药腺瘤中有8个(24%)发现K-ras突变,而基线腺瘤中均未发现(P<0.05)。两组间基质Cox-2表达、p53和Bcl-2染色以及5号染色体杂合性缺失情况相当。任何腺瘤中均未发现Bax染色缺失和微卫星不稳定性。
与舒林酸治疗前切除的腺瘤相比,舒林酸耐药腺瘤的β-连环蛋白染色改变较少,上皮Cox-2表达较少。K-ras突变可能与舒林酸耐药有关。需要继续开展研究以调查与舒林酸耐药相关的分子改变。
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