Fujiki H, Sugimura T, Moore R E
Environ Health Perspect. 1983 Apr;50:85-90. doi: 10.1289/ehp.835085.
Tumor promoters are known to induce ODC activity in mouse skin and that this induction can be inhibited by the application of 13-cis-retinoic acid. These two properties of tumor promoters were utilized for screening new tumor promoters in our environment. Two new classes of tumor promoters are presented: indole alkaloids (teleocidin and lyngbyatoxin A) and polyacetates (aplysiatoxin and debromoaplysiatoxin). Teleocidin from streptomyces and lyngbyatoxin A, from the blue-green alga, Lyngbya majuscula, were able to induce ODC activity in mouse skin and showed various biological activities similar to those of TPA. Teleocidin and lyngbyatoxin A are indole alkaloids. Their tumor promoting activities became apparent in the mouse skin through a two-stage carcinogenicity test. The tumor incidence of the group treated with DMBA plus teleocidin was 100% at week 30, which was similar to that of the group given DMBA and TPA. The in vivo carcinogenicity test with lyngbyatoxin A is still underway. The tumor incidence of the group treated with DMBA plus lyngbyatoxin A is 80% at week 21. A second new class of tumor promoter is polyacetate. Aplysiatoxin and debromoaplysiatoxin were isolated from another variety of blue-green alga. Aplysiatoxin and debromoaplysiatoxin induce ODC to the same degree of potency. However, aplysiatoxin induced various membrane effects, such as adhesion of cells and turnover of phospholipid with a similar concentration of TPA, teleocidin and lyngbyatoxin A. On the other hand, debromoaplysiatoxin required an amount almost 100 times greater to achieve the same effects. We are convinced of the possibility that various classes of tumor promoters exist in our environment.
已知肿瘤促进剂可诱导小鼠皮肤中的鸟氨酸脱羧酶(ODC)活性,且这种诱导作用可通过涂抹13 - 顺式视黄酸来抑制。肿瘤促进剂的这两种特性被用于筛选我们环境中的新型肿瘤促进剂。本文介绍了两类新型肿瘤促进剂:吲哚生物碱(teleocidin和lyngbyatoxin A)和聚乙酸酯(海兔毒素和脱溴海兔毒素)。来自链霉菌的teleocidin和来自蓝藻Lyngbya majuscula的lyngbyatoxin A能够在小鼠皮肤中诱导ODC活性,并表现出与十四酰佛波醇乙酯(TPA)相似的多种生物学活性。Teleocidin和lyngbyatoxin A是吲哚生物碱。通过两阶段致癌性试验,它们在小鼠皮肤中的肿瘤促进活性变得明显。用二甲基苯并蒽(DMBA)加teleocidin处理的组在第30周时肿瘤发生率为100%,这与给予DMBA和TPA的组相似。用lyngbyatoxin A进行的体内致癌性试验仍在进行中。用DMBA加lyngbyatoxin A处理的组在第21周时肿瘤发生率为80%。另一类新型肿瘤促进剂是聚乙酸酯。海兔毒素和脱溴海兔毒素是从另一种蓝藻中分离出来的。海兔毒素和脱溴海兔毒素诱导ODC的效力相同。然而,海兔毒素在与TPA、teleocidin和lyngbyatoxin A相似的浓度下可诱导多种膜效应,如细胞黏附和磷脂周转。另一方面,脱溴海兔毒素需要几乎100倍的量才能达到相同的效果。我们确信在我们的环境中存在各类肿瘤促进剂的可能性。