Your search keyword '"Chelebieva S"' showing total 6 results

1. Legal data extraction and possible applications

Author

Stoykov, K, primary and Chelebieva, S, additional

Published

2019

2. ПОЛУЧАВАНЕ НА ВИРУЛЕНТНА ВАКСИНА СРЕЩУ ТГЕ ЗА ПЕРОРАЛНО ПРИЛОЖЕНИЕ

Author

Мотовски, Ангел, primary, Челебиева, Снежана, additional, Димитрова, Милена, additional, Габровски, Петър, additional, Караиванов, Веселин, additional, Молнар, Емил, additional, Македонски, Илия, additional, Мотовски, А., additional, Челебиева, С., additional, Димитрова, М., additional, Габровски, П., additional, Караиванов, В., additional, Молнар, Е., additional, Македонски, И., additional, Motovski, A., additional, Chelebieva, S., additional, Dimitrova, M., additional, Gabrovski, P., additional, Karaivanov, V., additional, Molnar, E., additional, and Makedonski, I., additional

Published

1992

3. Structure-Activity Relationship Studies of Antimalarial Plasmodium Proteasome Inhibitors─Part II.

Author

Zhang H, Ginn J, Zhan W, Leung A, Liu YJ, Toita A, Okamoto R, Wong TT, Imaeda T, Hara R, Michino M, Yukawa T, Chelebieva S, Tumwebaze PK, Vendome J, Beuming T, Sato K, Aso K, Rosenthal PJ, Cooper RA, Liverton N, Foley M, Meinke PT, Nathan CF, Kirkman LA, and Lin G

Subjects

Humans, Animals, Mice, Proteasome Endopeptidase Complex metabolism, Structure-Activity Relationship, Plasmodium falciparum metabolism, Proteasome Inhibitors pharmacology, Proteasome Inhibitors chemistry, Antimalarials pharmacology, Antimalarials chemistry, Plasmodium

Abstract

With increasing reports of resistance to artemisinins and artemisinin-combination therapies, targeting the Plasmodium proteasome is a promising strategy for antimalarial development. We recently reported a highly selective Plasmodium falciparum proteasome inhibitor with anti-malarial activity in the humanized mouse model. To balance the permeability of the series of macrocycles with other drug-like properties, we conducted further structure-activity relationship studies on a biphenyl ether-tethered macrocyclic scaffold. Extensive SAR studies around the P1, P3, and P5 groups and peptide backbone identified compound TDI-8414. TDI-8414 showed nanomolar antiparasitic activity, no toxicity to HepG2 cells, high selectivity against the Plasmodium proteasome over the human constitutive proteasome and immunoproteasome, improved solubility and PAMPA permeability, and enhanced metabolic stability in microsomes and plasma of both humans and mice.

Published

2023

4. Susceptibilities of Ugandan Plasmodium falciparum Isolates to Proteasome Inhibitors.

Author

Garg S, Kreutzfeld O, Chelebieva S, Tumwebaze PK, Byaruhanga O, Okitwi M, Orena S, Katairo T, Nsobya SL, Conrad MD, Aydemir O, Legac J, Gould AE, Bayles BR, Bailey JA, Duffey M, Lin G, Kirkman LA, Cooper RA, and Rosenthal PJ

Subjects

Humans, Asparagine, Drug Resistance genetics, Ethylenediamines pharmacology, Malaria, Falciparum drug therapy, Malaria, Falciparum parasitology, Peptides pharmacology, Proteasome Endopeptidase Complex genetics, Uganda, Antimalarials pharmacology, Antimalarials chemistry, Plasmodium falciparum drug effects, Plasmodium falciparum genetics, Proteasome Inhibitors chemistry, Proteasome Inhibitors pharmacology

Abstract

The proteasome is a promising target for antimalarial chemotherapy. We assessed ex vivo susceptibilities of fresh Plasmodium falciparum isolates from eastern Uganda to seven proteasome inhibitors: two asparagine ethylenediamines, two macrocyclic peptides, and three peptide boronates; five had median IC 50 values <100 nM. TDI8304, a macrocylic peptide lead compound with drug-like properties, had a median IC 50 of 16 nM. Sequencing genes encoding the β2 and β5 catalytic proteasome subunits, the predicted targets of the inhibitors, and five additional proteasome subunits, identified two mutations in β2 (I204T, S214F), three mutations in β5 (V2I, A142S, D150E), and three mutations in other subunits. The β2 S214F mutation was associated with decreased susceptibility to two peptide boronates, with IC 50 s of 181 nM and 2635 nM against mutant versus 62 nM and 477 nM against wild type parasites for MMV1579506 and MMV1794229, respectively, although significance could not be formally assessed due to the small number of mutant parasites with available data. The other β2 and β5 mutations and mutations in other subunits were not associated with susceptibility to tested compounds. Against culture-adapted Ugandan isolates, two asparagine ethylenediamines and the peptide proteasome inhibitors WLW-vinyl sulfone and WLL-vinyl sulfone (which were not studied ex vivo ) demonstrated low nM activity, without decreased activity against β2 S214F mutant parasites. Overall, proteasome inhibitors had potent activity against P. falciparum isolates circulating in Uganda, and genetic variation in proteasome targets was uncommon.

Published

2022

5. Drug susceptibility of Plasmodium falciparum in eastern Uganda: a longitudinal phenotypic and genotypic study.

Author

Tumwebaze PK, Katairo T, Okitwi M, Byaruhanga O, Orena S, Asua V, Duvalsaint M, Legac J, Chelebieva S, Ceja FG, Rasmussen SA, Conrad MD, Nsobya SL, Aydemir O, Bailey JA, Bayles BR, Rosenthal PJ, and Cooper RA

Subjects

Chloroquine pharmacology, Genotype, Humans, Longitudinal Studies, Lumefantrine therapeutic use, Phenotype, Plasmodium falciparum genetics, Prospective Studies, Uganda epidemiology, Antimalarials pharmacology, Malaria, Falciparum drug therapy

Abstract

Background: Treatment and control of malaria depends on artemisinin-based combination therapies (ACTs) and is challenged by drug resistance, but thus far resistance to artemisinins and partner drugs has primarily occurred in southeast Asia. The aim of this study was to characterise antimalarial drug susceptibility of Plasmodium falciparum isolates from Tororo and Busia districts in Uganda., Methods: In this prospective longitudinal study, P falciparum isolates were collected from patients aged 6 months or older presenting at the Tororo District Hospital (Tororo district, a site with relatively low malaria incidence) or Masafu General Hospital (Busia district, a high-incidence site) in eastern Uganda with clinical symptoms of malaria, a positive Giemsa-stained blood film for P falciparum , and no signs of severe disease. Ex-vivo susceptibilities to ten antimalarial drugs were measured using a 72-h microplate growth inhibition assay with SYBR Green detection. Relevant P falciparum genetic polymorphisms were characterised by molecular methods. We compared results with those from earlier studies in this region and searched for associations between drug susceptibility and parasite genotypes., Findings: From June 10, 2016, to July 29, 2019, 361 P falciparum isolates were collected in the Busia district and 79 in the Tororo district from 440 participants. Of 440 total isolates, 392 (89%) successfully grew in culture and showed excellent drug susceptibility for chloroquine (median half-maximal inhibitory concentration [IC 50 ] 20·0 nM [IQR 12·0-26·0]), monodesethylamodiaquine (7·1 nM [4·3-8·9]), pyronaridine (1·1 nM [0·7-2·3]), piperaquine (5·6 nM [3·3-8·6]), ferroquine (1·8 nM [1·5-3·3]), AQ-13 (24·0 nM [17·0-32·0]), lumefantrine (5·1 nM [3·2-7·7]), mefloquine (9·5 nM [6·6-13·0]), dihydroartemisinin (1·5 nM [1·0-2·0]), and atovaquone (0·3 nM [0·2-0·4]). Compared with results from our study in 2010-13, significant improvements in susceptibility were seen for chloroquine (median IC 50 288·0 nM [IQR 122·0-607·0]; p<0·0001), monodesethylamodiaquine (76·0 nM [44·0-137]; p<0·0001), and piperaquine (21·0 nM [7·6-43·0]; p<0·0001), a small but significant decrease in susceptibility was seen for lumefantrine (3·0 nM [1·1-7·6]; p<0·0001), and no change in susceptibility was seen with dihydroartemisinin (1·3 nM [0·8-2·5]; p=0·64). Chloroquine resistance (IC 50 >100 nM) was more common in isolates from the Tororo district (11 [15%] of 71), compared with those from the Busia district (12 [4%] of 320; p=0·0017). We showed significant increases between 2010-12 and 2016-19 in the prevalences of wild-type P falciparum multidrug resistance protein 1 (PfMDR1) Asn86Tyr from 60% (391 of 653) to 99% (418 of 422; p<0·0001), PfMDR1 Asp1246Tyr from 60% (390 of 650) to 90% (371 of 419; p<0·0001), and P falciparum chloroquine resistance transporter (PfCRT) Lys76Thr from 7% (44 of 675) to 87% (364 of 417; p<0·0001)., Interpretation: Our results show marked changes in P falciparum drug susceptibility phenotypes and genotypes in Uganda during the past decade. These results suggest that additional changes will be seen over time and continued surveillance of susceptibility to key ACT components is warranted., Funding: National Institutes of Health and Medicines for Malaria Venture., Competing Interests: Declaration of interests We declare no competing interests.

Published

2021

6. Development of a Highly Selective Plasmodium falciparum Proteasome Inhibitor with Anti-malaria Activity in Humanized Mice.

Author

Zhan W, Zhang H, Ginn J, Leung A, Liu YJ, Michino M, Toita A, Okamoto R, Wong TT, Imaeda T, Hara R, Yukawa T, Chelebieva S, Tumwebaze PK, Lafuente-Monasterio MJ, Martinez-Martinez MS, Vendome J, Beuming T, Sato K, Aso K, Rosenthal PJ, Cooper RA, Meinke PT, Nathan CF, Kirkman LA, and Lin G

Subjects

Animals, Antimalarials chemical synthesis, Antimalarials chemistry, Malaria, Falciparum metabolism, Mice, Models, Molecular, Molecular Conformation, Parasitic Sensitivity Tests, Plasmodium falciparum enzymology, Proteasome Inhibitors chemical synthesis, Proteasome Inhibitors chemistry, Antimalarials pharmacology, Drug Development, Malaria, Falciparum drug therapy, Plasmodium falciparum drug effects, Proteasome Endopeptidase Complex metabolism, Proteasome Inhibitors pharmacology

Abstract

Plasmodium falciparum proteasome (Pf20S) inhibitors are active against Plasmodium at multiple stages-erythrocytic, gametocyte, liver, and gamete activation stages-indicating that selective Pf20S inhibitors possess the potential to be therapeutic, prophylactic, and transmission-blocking antimalarials. Starting from a reported compound, we developed a noncovalent, macrocyclic peptide inhibitor of the malarial proteasome with high species selectivity and improved pharmacokinetic properties. The compound demonstrates specific, time-dependent inhibition of the β5 subunit of the Pf20S, kills artemisinin-sensitive and artemisinin-resistant P. falciparum isolates in vitro and reduces parasitemia in humanized, P. falciparum-infected mice., (© 2021 Wiley-VCH GmbH.)

Published

2021