Tsen Chung, Iltis Mark, Kaur Navneet, Bayer Cynthia, Delcros Jean-Guy, von Kalm Laurence, Phanstiel Otto
Department of Chemistry, University of Central Florida, Orlando, Florida 32816-2366, USA.
J Med Chem. 2008 Jan 24;51(2):324-30. doi: 10.1021/jm701198s. Epub 2007 Dec 29.
Polyamine transport is elevated in many tumor types, suggesting that toxic polyamine-drug conjugates could be targeted to cancer cells via the polyamine transporter (PAT). We have previously reported the use of Chinese hamster ovary (CHO) cells and its PAT-deficient mutant cell line, CHO-MG, to screen anthracene-polyamine conjugates for their PAT-selective targeting ability. We report here a novel Drosophila-based model for screening anthracene-polyamine conjugates in a developing and intact epithelium ( Drosophila imaginal discs), wherein cell-cell adhesion properties are maintained. Data from the Drosophila assay are consistent with previous results in CHO cells, indicating that the Drosophila epithelium has a PAT with vertebrate-like characteristics. This assay will be of use to medicinal chemists interested in screening drugs that use PAT for cellular entry, and it offers the possibility of genetic dissection of the polyamine transport process, including identification of a Drosophila PAT.
多胺转运在许多肿瘤类型中都会增强,这表明有毒的多胺 - 药物偶联物可以通过多胺转运体(PAT)靶向癌细胞。我们之前曾报道过利用中国仓鼠卵巢(CHO)细胞及其缺乏PAT的突变细胞系CHO - MG,来筛选蒽 - 多胺偶联物的PAT选择性靶向能力。我们在此报告一种基于果蝇的新型模型,用于在发育完整的上皮组织(果蝇成虫盘)中筛选蒽 - 多胺偶联物,其中细胞间黏附特性得以维持。果蝇实验的数据与之前在CHO细胞中的结果一致,表明果蝇上皮组织具有类似脊椎动物特征的PAT。该实验对于有兴趣筛选利用PAT进入细胞的药物的药物化学家将有所帮助,并且它为多胺转运过程的基因剖析提供了可能性,包括鉴定果蝇PAT。