Takenouchi Osamu, Fukui Shiho, Okamoto Kenji, Kurotani Satoru, Imai Noriyasu, Fujishiro Miyuki, Kyotani Daiki, Kato Yoshinao, Kasahara Toshihiko, Fujita Masaharu, Toyoda Akemi, Sekiya Daisuke, Watanabe Shinichi, Seto Hirokazu, Hirota Morihiko, Ashikaga Takao, Miyazawa Masaaki
Kao Corporation, Ichikai-Machi, Haga-Gun, Tochigi, Japan.
Working Group for In Vitro Skin Sensitization Evaluation in Japan Cosmetic Industry Association.
J Appl Toxicol. 2015 Nov;35(11):1318-32. doi: 10.1002/jat.3127. Epub 2015 Mar 29.
To develop a testing strategy incorporating the human cell line activation test (h-CLAT), direct peptide reactivity assay (DPRA) and DEREK, we created an expanded data set of 139 chemicals (102 sensitizers and 37 non-sensitizers) by combining the existing data set of 101 chemicals through the collaborative projects of Japan Cosmetic Industry Association. Of the additional 38 chemicals, 15 chemicals with relatively low water solubility (log Kow > 3.5) were selected to clarify the limitation of testing strategies regarding the lipophilic chemicals. Predictivities of the h-CLAT, DPRA and DEREK, and the combinations thereof were evaluated by comparison to results of the local lymph node assay. When evaluating 139 chemicals using combinations of three methods based on integrated testing strategy (ITS) concept (ITS-based test battery) and a sequential testing strategy (STS) weighing the predictive performance of the h-CLAT and DPRA, overall similar predictivities were found as before on the 101 chemical data set. An analysis of false negative chemicals suggested a major limitation of our strategies was the testing of low water-soluble chemicals. When excluded the negative results for chemicals with log Kow > 3.5, the sensitivity and accuracy of ITS improved to 97% (91 of 94 chemicals) and 89% (114 of 128). Likewise, the sensitivity and accuracy of STS to 98% (92 of 94) and 85% (111 of 129). Moreover, the ITS and STS also showed good correlation with local lymph node assay on three potency classifications, yielding accuracies of 74% (ITS) and 73% (STS). Thus, the inclusion of log Kow in analysis could give both strategies a higher predictive performance.
为了制定一种结合人类细胞系激活试验(h-CLAT)、直接肽反应性测定(DPRA)和DEREK的测试策略,我们通过日本化妆品工业协会的合作项目,将现有的101种化学品数据集合并,创建了一个包含139种化学品(102种致敏剂和37种非致敏剂)的扩展数据集。在另外38种化学品中,选择了15种水溶性相对较低(log Kow > 3.5)的化学品,以阐明测试策略在亲脂性化学品方面的局限性。通过与局部淋巴结试验结果进行比较,评估了h-CLAT、DPRA和DEREK及其组合的预测能力。当基于综合测试策略(ITS)概念(基于ITS的测试组合)和权衡h-CLAT和DPRA预测性能的序贯测试策略(STS),使用三种方法的组合对139种化学品进行评估时,总体预测能力与之前在101种化学品数据集上的结果相似。对假阴性化学品的分析表明,我们策略的一个主要局限性是对低水溶性化学品的测试。当排除log Kow > 3.5的化学品的阴性结果时,ITS的灵敏度和准确性提高到97%(94种化学品中的91种)和89%(128种中的114种)。同样,STS的灵敏度和准确性分别提高到98%(94种中的92种)和85%(129种中的111种)。此外,ITS和STS在三种效力分类上也与局部淋巴结试验显示出良好的相关性,准确率分别为74%(ITS)和73%(STS)。因此,在分析中纳入log Kow可以使两种策略都具有更高的预测性能。
