Black Paul N, Ahowesso Constance, Montefusco David, Saini Nipun, DiRusso Concetta C
Department of Biochemistry, University of Nebraska, Lincoln, NE.
Medchemcomm. 2016 Apr 1;7(4):612-622. doi: 10.1039/C6MD00043F. Epub 2016 Feb 19.
The fatty acid transport proteins (FATP) are classified as members of the Solute Carrier 27 (Slc27) family of proteins based on their ability to function in the transport of exogenous fatty acids. These proteins, when localized to the plasma membrane or at intracellular membrane junctions with the endoplasmic reticulum, function as a gate in the regulated transport of fatty acids and thus represent a therapeutic target to delimit the acquisition of fatty acids that contribute to disease as in the case of fatty acid overload. To date, FATP1, FATP2, and FATP4 have been used as targets in the selection of small molecule inhibitors with the goal of treating insulin resistance and attenuating dietary absorption of fatty acids. Several studies targeting FATP1 and FATP4 were based on the intrinsic acyl CoA synthetase activity of these proteins and not on transport directly. While several classes of compounds were identified as potential inhibitors of fatty acid transport, studies using a mouse model failed to provide evidence these compounds were effective in blocking or attenuating fatty acid transport. Studies targeting FATP2 employed a naturally occurring splice variant, FATP2b, which lacks intrinsic acyl CoA synthetase due to the deletion of exon 3, yet is fully functional in fatty acid transport. These studies identified two compounds, 5'-bromo-5-phenyl-spiro[3H-1,3,4-thiadiazole-2,3'-indoline]-2'-one), now referred to as Lipofermata, and 2-benzyl-3-(4-chlorophenyl)-5-(4-nitrophenyl)pyrazolo[1,5-a]pyrimidin-7(4H)-one, now called Grassofermata, that are effective fatty acid transport inhibitors both using a series of model cell lines and using a mouse model.
脂肪酸转运蛋白(FATP)基于其在外源脂肪酸转运中的功能,被归类为溶质载体27(Slc27)蛋白家族成员。这些蛋白定位于质膜或与内质网的细胞内膜连接处时,在脂肪酸的调节转运中起闸门作用,因此代表了一个治疗靶点,可限制导致疾病的脂肪酸摄取,如脂肪酸过载的情况。迄今为止,FATP1、FATP2和FATP4已被用作筛选小分子抑制剂的靶点,目的是治疗胰岛素抵抗并减少膳食中脂肪酸的吸收。一些针对FATP1和FATP4的研究基于这些蛋白的内在酰基辅酶A合成酶活性,而非直接基于转运功能。虽然几类化合物被鉴定为脂肪酸转运的潜在抑制剂,但使用小鼠模型的研究未能提供证据证明这些化合物在阻断或减弱脂肪酸转运方面有效。针对FATP2的研究采用了一种天然存在的剪接变体FATP2b,由于外显子3的缺失,它缺乏内在酰基辅酶A合成酶,但在脂肪酸转运中仍具有完全功能。这些研究鉴定出两种化合物,5'-溴-5-苯基-螺[3H-1,3,4-噻二唑-2,3'-吲哚啉]-2'-酮(现称为Lipofermata)和2-苄基-3-(4-氯苯基)-5-(4-硝基苯基)吡唑并[1,5-a]嘧啶-7(4H)-酮(现称为Grassofermata),它们在一系列模型细胞系和小鼠模型中都是有效的脂肪酸转运抑制剂。