Salicylaldoxime derivatives as new leads for the development of carbonic anhydrase inhibitors

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GLUT1 and LOX inhibitors as perspective anticancer agents tackling glucose avidity and ECM remodeling in tumors

Introduction Most cancers have large hypoxic regions, which display an increase of the glycolytic metabolism leading to the production of lactate, providing cancer cells with adequate amounts of energy and anabolites. To this end, tumor cells generally overexpress glucose transporters (GLUTs), in particular GLUT1, which results in an increased uptake of glucose to support their less efficient energy production (Warburg effect). Therefore, therapeutic interventions aimed at reducing cancer glycolysis may be implemented by several strategies, including the development of inhibitors of glucose transporters. Furthermore, extracellular matrix (ECM) remodeling is one of the key processes preluding metastatic invasion, and it is promoted by several effectors, such as lysyl oxidase (LOX), an enzyme commonly involved in extracellular matrix maturation. LOX is up-regulated by HIF-1 and plays a critical role in the development of metastasis. Therefore, LOX inhibitors may represent an additional and innovative strategy for the treatment and the prevention of metastatic cancer. Methods We have developed various classes of compounds that are able to interfere with GLUTs (Granchi et al. 2015, Tuccinardi et al. 2013) and LOX (Granchi et al. 2009) by molecular design and chemical synthesis. Their effect on cell proliferation, apoptosis, migration and other key determinants of activity were evaluated by sulforhodamine-B and luciferase assays, FACS, wound-healing assay, and Quantitative PCR. The studies were performed in seven PDAC cells, including five primary-cell-cultures and 3D co-cultures with human stellate cells, in normoxic and hypoxic conditions. Results The IC50s of the tested compounds ranged from 13.9 to 32.0 μM after 72-hour exposure. Notably, these compounds were still active in 3D co-cultures of these tumor cells with pancreatic stellate cells, which showed increased resistance to gemcitabine and are more representative of the dense stromal compartment with core hypoxic areas of this tumor type, as detected by immunohistochemical stainings. Remarkably, one compound (PGL-14) showed a synergistic interaction with gemcitabine, increasing apoptosis induction and accumulation of ROS. Furthermore, the combination of these drugs reduced cell migration and enhanced in vitro sensitivity to anoikis, suggesting the ability of these compounds to inhibit metastasis. Discussion GLUT1 inhibitors were more active in hypoxia, but still active also in normoxia. Conversely, we did not detect cytotoxic effects using the LOX-inhibitors in normoxia (at concentration until 50 μM) since they were designed as bioreductively activated prodrugs, which are therefore activated only under hypoxic conditions. However, at O2 tension of 1%, IC50s were below 10 μM. As reported previously, LOX inhibition was associated with reduction of the mRNA levels of fibronectin, suggesting that it might also have impact on the interaction of tumor cells with the stroma that are mediated by integrins and fibronectin, regulating tissue stiffness (Coppola et al. 2017). Conclusion Interventions aimed at blocking the glycolytic activity or the extracellular matrix remodeling of tumors by means of newly designed molecules proved to exert a synergistic effect with clinically approved drugs, such as gemcitabine. These results seem to support the strategy of the simultaneous GLUT/LOX-inhibition in order to further sensitize hypoxic cancer portions to chemotherapy. Bibliography C. Granchi, et al. ChemMedChem 2009, 4, 1590-1594. C. Granchi, et al. ChemMedChem 2015, 10, 1892-1900. T. Tuccinardi, et al. Bioorg. Med. Chem. Lett. 2013, 23, 6923-6927. Coppola S, et al. Drug Resist Updat. 2017, 31, 43-51

Discovery of monoacylglycerol lipase (MAGL) inhibitors based on a pharmacophore-guided virtual screening study

Monoacylglycerol lipase (MAGL) is an important enzyme of the endocannabinoid system that catalyzes the degradation of the major endocannabinoid 2-arachidonoylglycerol (2-AG). MAGL is associated with pathological conditions such as pain, inflammation and neurodegenerative diseases like Parkinson's and Alzheimer's disease. Furthermore, elevated levels of MAGL have been found in aggressive breast, ovarian and melanoma cancer cells. Due to its different potential therapeutic implications, MAGL is considered as a promising target for drug design and the discovery of novel small-molecule MAGL inhibitors is of great interest in the medicinal chemistry field. In this context, we developed a pharmacophore-based virtual screening protocol combined with molecular docking and molecular dynamics simulations, which showed a final hit rate of 50% validating the reliability of the in silico workflow and led to the identification of two promising and structurally different reversible MAGL inhibitors, VS1 and VS2. These ligands represent a valuable starting point for structure-based hit-optimization studies aimed at identifying new potent MAGL inhibitors

Ipsographing the Dubject; or, The Contradictions of Twitter

Precise control of self-renewal and differentiation of progenitor cells into the cranial neural crest (CNC) pool ensures proper head development, guided by signaling pathways such as BMPs, FGFs, Shh and Notch. Here, we show that murine Sox2 plays an essential role in controlling progenitor cell behavior during craniofacial development. A "Conditional by Inversion" Sox2 allele (Sox2(COIN) ) has been employed to generate an epiblast ablation of Sox2 function (Sox2(EpINV) ). Sox2 (EpINV/+(H)) haploinsufficient and conditional (Sox2(EpINV/mosaic) ) mutant embryos proceed beyond gastrulation and die around E11. These mutant embryos exhibit severe anterior malformations, with hydrocephaly and frontonasal truncations, which could be attributed to the deregulation of CNC progenitor cells during their epithelial to mesenchymal transition. This irregularity results in an exacerbated and aberrant migration of Sox10(+) NCC in the branchial arches and frontonasal process of the Sox2 mutant embryos. These results suggest a novel role for Sox2 as a regulator of the epithelial to mesenchymal transitions (EMT) that are important for the cell flow in the developing head

Stard3: A prospective target for cancer therapy

Cancer is one of the major causes of death in developed countries and current therapies are based on surgery, chemotherapeutic agents, and radiation. To overcome side effects induced by chemo-and radiotherapy, in recent decades, targeted therapies have been proposed in second and even first lines. Targeted drugs act on the essential pathways involved in tumor induction, progression, and metastasis, basically all the hallmark of cancers. Among emerging pathways, the cholesterol metabolic pathway is a strong candidate for this purpose. Cancer cells have an accelerated metabolic rate and require a continuous supply of cholesterol for cell division and membrane renewal. Steroidogenic acute regulatory related lipid transfer (START) proteins are a family of proteins involved in the transfer of lipids and some of them are important in non-vesicular cholesterol transportation within the cell. The alteration of their expression levels is implicated in several diseases, including cancers. In this review, we report the latest discoveries on StAR-related lipid transfer protein domain 3 (STARD3), a member of the START family, which has a potential role in cancer, focusing on the structural and biochemical characteristics and mechanisms that regulate its activity. The role of the STARD3 protein as a molecular target for the development of cancer therapies is also discussed. As STARD3 is a key protein in the cholesterol movement in cancer cells, it is of interest to identify inhibitors able to block its activity

New Synthetic Analogues of Natural Polyphenols as Sirtuin 1-Activating Compounds

NAD+-dependent deacetylase SIRT1 regulates many different biological processes, thus being involved in pathogenic conditions such as metabolic diseases, neurogenerative disorders and cancer. Notably, experimental evidence underlined that the activation of SIRT1 had promising cardioprotective effects. Consequently, many efforts have been so far devoted to finding new SIRT1 activators, both derived from natural sources or prepared by synthetic procedures. Herein, we discovered new SIRT1-activating derivatives, characterized by phenolic rings spaced by sulfur, nitrogen or oxygen-based central linkers. The newly synthesized derivatives were analyzed in enzymatic assays to determine their ability to activate SIRT1, as compared with that of resveratrol. Among the tested molecules, bisarylaniline compound 10 proved to be the most efficient SIRT1 activator. An evaluation of the effects caused by focused structural variations revealed that its para-hydroxy-substituted diphenyl moiety of 10 was the fundamental structural requirement for achieving good SIRT1 activation. Compound 10 was further investigated in ex vivo studies in isolated and perfused rat hearts submitted to ischemia/reperfusion (I/R), where it showed significant protection of the myocardium against I/R injury. Molecular modeling studies suggest the binding mode of 10 within SIRT1 in the presence of the p53-AMC peptide. Our findings reveal that this chemical scaffold may be used as the starting point to develop a new class of more potent SIRT1 activators as cardioprotective agents

Genome sequence of Rhizomucor pusillus FCH 5.7, a thermophilic zygomycete involved in plant biomass degradation harbouring putative GH9 endoglucanases

We report here the annotated draft genome sequence of the thermophilic zygomycete Rhizomucor pusillus strain FCH 5.7, isolated from compost soil in Vietnam. The genome assembly contains 25.59 Mb with an overall GC content of 44.95%, and comprises 10,898 protein coding genes. Genes encoding putative cellulose-, xylan- and chitin-degrading proteins were identified, including two putative endoglucanases (EC 3.2.1.4) from glycoside hydrolase family 9, which have so far been mostly assigned to bacteria and plants

Isometry of medial collateral ligament reconstruction

The purpose of this study was to determine the femoral and tibial fixation sites that would result in the most isometric MCL reconstruction technique. Seven cadaveric knees were used in this study. A navigation system was utilized to determine graft isometry continuously from 0º to 90º. Five points on the medial side of the femur and four on the tibia were tested. A graft positioned in the center of the MCL femoral attachment (FC) and attached in the center of the superficial MCL attachment on the tibia led to the best isometry (2.7 ± 1.1 mm). Movement of the origin superiorly only 4 mm (FS) led to graft excursion of greater than 10 mm (P < 0.01). MCL reconstruction performed with the origin of the MCL within the femoral footprint and the insertion in tibial footprint of the superficial MCL results in the least graft excursion when the knee is cycled between 0º and 90º. Although the MCL often heals without surgical intervention, surgical reconstruction is occasionally in Grade III MCL and combined ligamentous injuries to the knee. This study demonstrates the optimal position of the MCL reconstruction to reproduce the kinematics of the native knee

Impact of hypoxia on chemoresistance of mesothelioma mediated by the proton-coupled folate transporter, and preclinical activity of new anti-LDH-A compounds

Background: Expression of proton-coupled folate transporter (PCFT) is associated with survival of mesothelioma patients treated with pemetrexed, and is reduced by hypoxia, prompting studies to elucidate their correlation. Methods: Modulation of glycolytic gene expression was evaluated by PCR arrays in tumour cells and primary cultures growing under hypoxia, in spheroids and after PCFT silencing. Inhibitors of lactate dehydrogenase (LDH-A) were tested in vitro and in vivo. LDH-A expression was determined in tissue microarrays of radically resected malignant pleural mesothelioma (MPM, N = 33) and diffuse peritoneal mesothelioma (DMPM, N = 56) patients. Results: Overexpression of hypoxia marker CAIX was associated with low PCFT expression and decreased MPM cell growth inhibition by pemetrexed. Through integration of PCR arrays in hypoxic cells and spheroids and following PCFT silencing, we identified the upregulation of LDH-A, which correlated with shorter survival of MPM and DMPM patients. Novel LDH-A inhibitors enhanced spheroid disintegration and displayed synergistic effects with pemetrexed in MPM and gemcitabine in DMPM cells. Studies with bioluminescent hypoxic orthotopic and subcutaneous DMPM athymic-mice models revealed the marked antitumour activity of the LDH-A inhibitor NHI-Glc-2, alone or combined with gemcitabine. Conclusions: This study provides novel insights into hypoxia/PCFT-dependent chemoresistance, unravelling the potential prognostic value of LDH-A, and demonstrating the preclinical activity of LDH-A inhibitors