1. Inhibitors of Trypanosoma cruzi Sir2 related protein 1 as potential drugs against Chagas disease
- Author
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Gaspar, Luís, Coron, Ross P., KongThoo Lin, Paul, Costa, David M., Perez-Cabezas, Begoña, Tavares, Joana, Roura-Ferrer, Meritxell, Ramos, Isbaal, Ronin, Céline, Major, Louise L., Ciesielski, Fabrice, Pemberton, Iain K., MacDougall, Jane, Ciapetti, Paola, Smith, Terry K., Cordeiro-da-Silva, Anabela, Instituto de Investigação e Inovação em Saúde, European Commission, University of St Andrews. School of Biology, and University of St Andrews. Biomedical Sciences Research Complex
- Subjects
Life Cycles ,QH301 Biology ,Antiprotozoal Agents / metabolismo ,Protozoan Proteins ,Protozoology ,Quinolones ,Toxicology ,Pathology and Laboratory Medicine ,Chagas Disease / drug therapy ,Biochemistry ,Mice ,Animal Cells ,Medicine and Health Sciences ,Enzyme Inhibitors ,Protozoans ,Neurons ,lcsh:Public aspects of medicine ,Eukaryota ,Chemistry ,Treatment Outcome ,Epimastigotes ,Physical Sciences ,Trypanosoma cruzi / drug effects ,Protozoan Life Cycles ,Cellular Types ,Research Article ,Amastigotes ,Niacinamide ,RM ,Trypanosoma ,Nicotine ,lcsh:Arctic medicine. Tropical medicine ,lcsh:RC955-962 ,Trypanosoma cruzi ,NDAS ,Antiprotozoal Agents ,Protozoan Proteins / antagonists & inhibitors ,Microbiology ,QH301 ,Alkaloids ,SDG 3 - Good Health and Well-being ,Parasitic Diseases ,Animals ,Chagas Disease ,Enzyme Inhibitors / metabolismo ,Toxicity ,Organisms ,Chemical Compounds ,Biology and Life Sciences ,lcsh:RA1-1270 ,Cell Biology ,Niacinamide / metabolismo ,Spermine / metabolismo ,Parasitic Protozoans ,RM Therapeutics. Pharmacology ,Disease Models, Animal ,Quinolones / metabolismo ,Cellular Neuroscience ,Spermine / analogs & derivatives ,Enzymology ,Chagas Disease / parasitology ,Spermine ,Developmental Biology ,Neuroscience - Abstract
Chagas disease remains one of the most neglected diseases in the world despite being the most important parasitic disease in Latin America. The characteristic chronic manifestation of chagasic cardiomyopathy is the region’s leading cause of heart-related illness, causing significant mortality and morbidity. Due to the limited available therapeutic options, new drugs are urgently needed to control the disease. Sirtuins, also called Silent information regulator 2 (Sir2) proteins have long been suggested as interesting targets to treat different diseases, including parasitic infections. Recent studies on Trypanosoma cruzi sirtuins have hinted at the possibility to exploit these enzymes as a possible drug targets. In the present work, the T. cruzi Sir2 related protein 1 (TcSir2rp1) is genetically validated as a drug target and biochemically characterized for its NAD+-dependent deacetylase activity and its inhibition by the classic sirtuin inhibitor nicotinamide, as well as by bisnaphthalimidopropyl (BNIP) derivatives, a class of parasite sirtuin inhibitors. BNIPs ability to inhibit TcSir2rp1, and anti-parasitic activity against T. cruzi amastigotes in vitro were investigated. The compound BNIP Spermidine (BNIPSpd) (9), was found to be the most potent inhibitor of TcSir2rp1. Moreover, this compound showed altered trypanocidal activity against TcSir2rp1 overexpressing epimastigotes and anti-parasitic activity similar to the reference drug benznidazole against the medically important amastigotes, while having the highest selectivity index amongst the compounds tested. Unfortunately, BNIPSpd failed to treat a mouse model of Chagas disease, possibly due to its pharmacokinetic profile. Medicinal chemistry modifications of the compound, as well as alternative formulations may improve activity and pharmacokinetics in the future. Additionally, an initial TcSIR2rp1 model in complex with p53 peptide substrate was obtained from low resolution X-ray data (3.5 Å) to gain insight into the potential specificity of the interaction with the BNIP compounds. In conclusion, the search for TcSir2rp1 specific inhibitors may represent a valuable strategy for drug discovery against T. cruzi., Author summary Trypanosoma cruzi is a protozoan parasite belonging to the Kinetoplastida class responsible for Chagas disease, a neglected tropical illness that affects an estimated 6 to 8 million people in Latin America and some Southern regions of the USA, with another 25 million at risk of acquiring the disease and a death toll of 12,000 every year. Commonly transmitted from the feces of the kissing bug, the disease is characterized by a nearly asymptomatic acute phase but a problematic chronic phase in which 20–30% of individuals develop serious cardiac and/or intestinal problems. The therapies currently in use were introduced more than forty years ago, and there are important concerns about adverse effects and lower effectiveness with disease progression. There is, therefore, an urgent need to find better alternatives. In this study, we evaluate the potential of a Trypanosoma cruzi sirtuin protein as a novel drug target and its inhibition by novel members of a known class of sirtuin compound inhibitors.
- Published
- 2018