Table 1.
mSR-targeting compounds in pre-clinical studies and their correlated effects.
| Compound | Receptor | Profile | Cell Line/Model | Pathway | Effect | Ref. |
|---|---|---|---|---|---|---|
| (−)-Epicatechin | ZIP9 | agonist | PC3 (PC) MDA-MB-468 (BC) |
ERK1/2, JNK and Bax | Proapoptotic action (increased Caspase-3 levels), increased cAMP and intracellular Zn2+ levels | [205] |
| (+)-Catechin | ZIP9 | antagonist | PC3 MDA-MB-468 |
ERK 1/2, JNK and Bax | [205] | |
| Bicalutamide | ZIP9 | antagonist | 93RS2 (non -cancerous testicular cell line) | ERK1/2, CREB and ATF-1 | Reduced claudin-5 and zonula occludens-1 (ZO-1) expression | [206] |
| Nandrolone | OXER1 | antagonist | MCF-7, MDA-MB-231 (BC) | PI3K/Akt/NF-κB and RACK1 | Reduced proliferation and migration | [35] |
| 5-oxo-EPE | OXER1 | agonist | In vitro assay | Increased β-Arrestin recruitment | [207] | |
| S-230 | OXER1 | antagonist | In vivo (monkeys), human neutrophils | Gβγ-mediated signaling | Reduced Gβγ-mediated Ca2+ mobilization | [208,209] |
| S-Y048 | OXER1 | antagonist | In vivo (monkeys), human neutrophils and human eosinophils | Gβγ-mediated signaling | Reduced Gβγ-mediated Ca2+ mobilization, actin polymerization and eosinophil infiltration | [210] |
| S-C025 | OXER1 | antagonist | In vivo (monkeys), human neutrophils | Gβγ-mediated signaling | Reduced Gβγ-mediated Ca2+ mobilization and eosinophil activation | [211] |
| 264 | OXER1 | antagonist | In vivo (monkeys, rats), monkey eosinophils and monkey neutrophils | Gβγ-mediated signaling | Reduced Gβγ-mediated Ca2+ mobilization, actin polymerization and chemotaxis in granulocytes | [212] |
| DJ-V-159 | GPRC6A | agonist | HEK-293 (human embryonic kidney), MIN-6 (mouse pancreatic β-cell) and in vivo (mice) | Gαs-dependent signaling, ERK1/2 | Increased cAMP levels, insulin secretion and decreased serum glucose (in vivo, mouse) | [213] |
| Diltiazem | CaV1.2 | antagonist | In vivo (mice) | CaV1.2-PKC | Inhibition of Ca2+ influx, PLCδ1 | [214] |
| Lercanidipine | CaV1.2 | antagonist | Healthy and pediatric acute myeloid leukemia (AML) mesenchymal stromal cells (MSCs) | Inhibition of Ca2+ influx | [215] | |
| Ketamine | CaV1.2 | antagonist | In vivo (mice), Xenopus laevis oocytes (ex vivo) | Inhibition of CaV1.2 expression; Ca2+ influx; and vascular smooth muscle contraction | [216] | |
| Ritanserin | CaV1.2 | antagonist | Rat vascular myocytes (ex vivo) | Inhibition of Ca2+ influx; in vitro vasodilation; and vascular smooth muscle relaxation | [217] | |
| (R)-Roscovitine | CaV1.2 | antagonist | HEK-293 | Slows activation and enhances inactivation | [218] | |
| Metergoline | NaV1.2 | antagonist | Xenopus laevis oocytes (ex vivo) | Inhibition of Na+ influx | [219] | |
| Ranolazine | NaV1.2 | antagonist | CHO | Inhibition of Na+ influx | [220] | |
| 2,4(5)-diarylimidazoles | NaV1.2 | antagonist | In vitro assay | Inhibition of Na+ influx | [221] | |
| Org OD 02-0 | mPRα | agonist | A549, PC-9 (human lung adenocarcinoma), HBE (human bronchial epithelial) and MCF-7 | PKA/CREB and PKA/β-catenin | Inhibition of cell growth and tumor growth (in vivo) | [222] |
| Ganaxolone | mPRδ | agonist | GT1-7 (rat hypothalamic cells), H19-7 (rat hippocampal neuronal cells) | Gαs-dependent signaling | Reduction of apoptosis and cell death | [223] |
| AG-205 | PGRMC1 | antagonist | CHO-K1, HeLa, COS-7, and H4 glioma Cells | Increased endosome formation | [224] | |
| PaCa-2 cells (pancreatic cancer) | RACK1, alpha-Actinin-1 | Reduced PGRMC1 interactions with the actin cytoskeleton | [225] | |||
| Human granulosa/luteal cell | B-cell lymphoma 2 (BCL2) pathway | Increased PGRMC1 monomeric form, increased proapoptotic Harakiri (Hrk) expression | [226] |