Pati Maria Laura, Groza Diana, Riganti Chiara, Kopecka Joanna, Niso Mauro, Berardi Francesco, Hager Sonja, Heffeter Petra, Hirai Miwa, Tsugawa Hitoshi, Kabe Yasuaki, Suematsu Makoto, Abate Carmen
Dipartimento di Farmacia-Scienze del Farmaco, Università degli Studi di Bari ALDO MORO, Via Orabona 4, I-70125 Bari, Italy.
Department of Medicine I, Institute of Cancer Research and Comprehensive Cancer Center of the Medical University, Medical University of Vienna, Borschkegasse 8a, A-1090 Vienna, Austria.
Pharmacol Res. 2017 Mar;117:67-74. doi: 10.1016/j.phrs.2016.12.023. Epub 2016 Dec 19.
A controversial relationship between sigma-2 and progesterone receptor membrane component 1 (PGRMC1) proteins, both representing promising targets for the therapy and diagnosis of tumors, exists since 2011, when the sigma-2 receptor was reported to be identical to PGRMC1. Because a misidentification of these proteins will lead to biased future research hampering the possible diagnostic and therapeutic exploitation of the two targets, there is the need to solve the debate on their identity. With this aim, we have herein investigated uptake and distribution of structurally different fluorescent sigma-2 receptor ligands by flow cytometry and confocal microscopy in MCF7 cells, where together with intrinsic sigma-2 receptors, PGRMC1 was constitutively present or alternatively silenced or overexpressed. HCT116 cells, with constitutive or silenced PGRMC1, were also studied. These experiments showed that the fluorescent sigma-2 ligands bind to their receptor irrespective of PGRMC1 expression. Furthermore, isothermal titration calorimetry was conducted to examine if DTG and PB28, two structurally distinct nanomolar affinity sigma-2 ligands, bind to purified PGRMC1 proteins that have recently been revealed to form both apo-monomeric and heme-mediated dimeric forms. While no binding to apo-PGRMC1 monomer was detected, a micromolar affinity to heme-mediated dimerized PGRMC1 was demonstrated in DTG but not in PB28. The current data provide evidence that sigma-2 receptor and PGRMC1 are not identical, paving the pathway for future unbiased research in which these two attractive targets are treated as different proteins while the identification of the true sigma-2 protein further needs to be pursued.
自2011年以来,σ-2与孕激素受体膜成分1(PGRMC1)蛋白之间就存在着一种有争议的关系,这两种蛋白都是肿瘤治疗和诊断的潜在靶点,当时据报道σ-2受体与PGRMC1相同。由于对这些蛋白的错误识别将导致未来研究出现偏差,阻碍对这两个靶点进行可能的诊断和治疗开发,因此有必要解决关于它们身份的争论。出于这个目的,我们在此通过流式细胞术和共聚焦显微镜研究了结构不同的荧光σ-2受体配体在MCF7细胞中的摄取和分布,在该细胞中,除了内源性σ-2受体外,PGRMC1要么组成性存在,要么被沉默或过表达。还研究了组成性或沉默PGRMC1的HCT116细胞。这些实验表明,荧光σ-2配体与其受体结合,而与PGRMC1的表达无关。此外,进行了等温滴定量热法,以检测两种结构不同的纳摩尔亲和力σ-2配体DTG和PB28是否与最近被揭示可形成脱辅基单体和血红素介导的二聚体形式的纯化PGRMC1蛋白结合。虽然未检测到与脱辅基PGRMC1单体的结合,但在DTG中证明了对血红素介导的二聚化PGRMC1具有微摩尔亲和力,而在PB28中未检测到。目前的数据提供了证据表明σ-2受体和PGRMC1并不相同,为未来无偏差研究铺平了道路,在该研究中这两个有吸引力的靶点被视为不同的蛋白质,但仍需要进一步寻找真正的σ-2蛋白。
