Your search keyword '"Plasmodium berghei K173"' showing total 7 results

1. Antimalarial activity and sensitization of chrysosplenetin against artemisinin‐resistant genotype Plasmodium bergheiK173 potentially via dual‐mechanism of maintaining host P‐glycoprotein homeostasis mediated by NF‐κB p52 or PXR/CAR signaling pathways and regulating heme/haemozoin metabolism

Author

Wang, Lirong, Ji, Hongyan, Ni, Shanhong, Xu, Jinjing, Zhang, Yuanyuan, Zhao, Xuesong, Wu, Xiuli, Tian, Jingxuan, and Chen, Jing

Abstract

This study investigated antimalarial efficacy and sensitization of chrysosplenetin against artemisinin‐resistant Plasmodium berghei K173 and potential molecular mechanism. Our data indicated a risk of artemisinin resistance because a higher parasitaemia% and lower inhibition% under artemisinin treatment against resistant parasites than those in the sensitive groups were observed. Two non‐antimalarial components, verapamil and chrysosplentin, being P‐gp inhibitors, possessed a strong efficacy against resistant parasites but it was not the case for Bcrp inhibitor novobiocin. Artemisinin‐chrysosplenetin combination improved artemisinin susceptibility of resistant P. berghei. Artemisinin activated intestinal P‐gp and Abcb1/Abcg2 expressions and suppressed Bcrp whereas chrysosplenetin reversed them. Resistant parasite infection led to a decreased haemozoin in organs or an increased heme in peripheral bloods compared with the sensitives; however, that in Abcb1‐deficient knockout (KO)‐resistant mice reversely got increased or decreased versus wild type (WT)‐resistant animals. Chrysosplenetin as well as rifampin (nuclear receptor agonist) increased the transcription levels of PXR/CAR while showed a versatile regulation on hepatic and enternal PXR/CAR in WT‐ or KO‐sensitive or ‐resistant parasites. Oppositely, hepatic and enteric NF‐κB p52 mRNA decreased conformably in WT but increased in KO‐resistant mice. NF‐κB pathway potentially involved in the mechanism of chrysosplenetin on inhibiting P‐gp expressions while PXR/CAR play a more complicated role in this mechanism. [ABSTRACT FROM AUTHOR]

Published

2023

2. Nontargeted metabolomics integrated with 1H NMR and LC–Q‐TOF–MS/MS methods to depict a more comprehensive metabolic profile in response to chrysosplenetin and artemisinin co‐treatment against artemisinin‐sensitive and ‐resistant Plasmodium berghei K173

Author

Wang, Yisen, Tian, Jingxuan, Chen, Jie, Ni, Shanhong, Yao, Ying, Wang, Lirong, Wu, Xiuli, Song, Ruilong, and Chen, Jing

Abstract

Our previous work revealed mutual and specific metabolites/pathways in artemisinin‐sensitive and ‐resistant Plasmodium berghei K173‐infected mice. In this study, we further investigated whether chrysosplenetin, a candidate chemical to prevent artemisinin resistance, can regulate these metabolites/pathways by integrating nontargeted metabolomics with 1H NMR and LC–Q‐TOF–MS/MS spectrum. The nuclear magnetic resonance method generated specifically altered metabolites in response to co‐treatment with chrysosplenetin, including: the products of glycolysis such as glucose, pyruvate, lactate and alanine; taurine, closely associated with liver injury; arginine and proline as essential amino acids for parasites; TMAO, a biomarker for dysbacteriosis and renal function; and tyrosine, which is used to generate levodopa and dopamine and may improve the torpor state of mice. Importantly, we noticed that chrysosplenetin might depress the activated glycolysis induced by sensitive parasites, but oppositely promoted the inhibited glycolysis to generate more lactate, which suppresses the proliferation of resistant parasites. Moreover, chrysosplentin possibly disturbs the heme biosynthetic pathway in mitochondria. The MS method yielded changed coenzyme A, phosphatidylcholine and ceramides, closely related to mitochondria β‐oxidation, cell proliferation, differentiation and apoptosis. These two means shared no overlapped metabolites and formed a more broader metabolic map to study the potential mechanisms of chrysosplenetin as a promising artemisinin resistance inhibitor. [ABSTRACT FROM AUTHOR]

Published

2023

3. Analysis of spleen histopathology, splenocyte composition and haematological parameters in four strains of mice infected with Plasmodium berghei K173

Author

Huajing Wang, Shuo Li, Zhao Cui, Tingting Qin, Hang Shi, Ji Ma, Lanfang Li, Guihua Yu, Tingliang Jiang, and Canghai Li

Subjects

Malaria, Spleen, Filtration, Splenocyte, Plasmodium berghei K173, Mouse, Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Malaria is a fatal disease that presents clinically as a continuum of symptoms and severity, which are determined by complex host-parasite interactions. Clearance of infection is believed to be accomplished by the spleen and mononuclear phagocytic system (MPS), independent of artemisinin treatment. The spleen filters infected red blood cells (RBCs) from circulation through immune-mediated recognition of the infected RBCs followed by phagocytosis. This study evaluated the tolerance of four different strains of mice to Plasmodium berghei strain K173 (P. berghei K173), and the differences in the role of the spleen in controlling P. berghei K173 infection. Methods Using different strains of mice (C57BL/6, BALB/C, ICR, and KM mice) infected with P. berghei K173, the mechanisms leading to splenomegaly, histopathology, splenocyte activation and proliferation, and their relationship to the control of parasitaemia and host mortality were examined and evaluated. Results Survival time of mice infected with P. berghei K173 varied, although the infection was uniformly lethal. Mice of the C57BL/6 strain were the most resistant, while mice of the strain ICR were the most susceptible. BALB/c and KM mice were intermediate. In the course of P. berghei K173 infection, all infected mice experienced significant splenomegaly. Parasites were observed in the red pulp at 3 days post infection (dpi) in all animals. All spleens retained late trophozoite stages as well as a fraction of earlier ring-stage parasites. The percentages of macrophages in infected C57BL/6 and KM mice were higher than uninfected mice on 8 dpi. Spleens of infected ICR and KM mice exhibited structural disorganization and remodelling. Furthermore, parasitaemia was significantly higher in KM versus C57BL/6 mice at 8 dpi. The percentages of macrophages in ICR infected mice were lower than uninfected mice, and the parasitaemia was higher than other strains. Conclusions The results presented here demonstrate the rate of splenic mechanical filtration and that splenic macrophages are the predominant roles in controlling an individual’s total parasite burden. This can influence the pathogenesis of malaria. Finally, different genetic backgrounds of mice have different splenic mechanisms for controlling malaria infection.

Published

2021

4. Analysis of spleen histopathology, splenocyte composition and haematological parameters in four strains of mice infected with Plasmodium berghei K173.

Author

Wang, Huajing, Li, Shuo, Cui, Zhao, Qin, Tingting, Shi, Hang, Ma, Ji, Li, Lanfang, Yu, Guihua, Jiang, Tingliang, and Li, Canghai

Subjects

PLASMODIUM berghei, SPLEEN, LABORATORY mice, ERYTHROCYTES, MICE, KNOCKOUT mice, INFECTION

Abstract

Background: Malaria is a fatal disease that presents clinically as a continuum of symptoms and severity, which are determined by complex host-parasite interactions. Clearance of infection is believed to be accomplished by the spleen and mononuclear phagocytic system (MPS), independent of artemisinin treatment. The spleen filters infected red blood cells (RBCs) from circulation through immune-mediated recognition of the infected RBCs followed by phagocytosis. This study evaluated the tolerance of four different strains of mice to Plasmodium berghei strain K173 (P. berghei K173), and the differences in the role of the spleen in controlling P. berghei K173 infection. Methods: Using different strains of mice (C57BL/6, BALB/C, ICR, and KM mice) infected with P. berghei K173, the mechanisms leading to splenomegaly, histopathology, splenocyte activation and proliferation, and their relationship to the control of parasitaemia and host mortality were examined and evaluated. Results: Survival time of mice infected with P. berghei K173 varied, although the infection was uniformly lethal. Mice of the C57BL/6 strain were the most resistant, while mice of the strain ICR were the most susceptible. BALB/c and KM mice were intermediate. In the course of P. berghei K173 infection, all infected mice experienced significant splenomegaly. Parasites were observed in the red pulp at 3 days post infection (dpi) in all animals. All spleens retained late trophozoite stages as well as a fraction of earlier ring-stage parasites. The percentages of macrophages in infected C57BL/6 and KM mice were higher than uninfected mice on 8 dpi. Spleens of infected ICR and KM mice exhibited structural disorganization and remodelling. Furthermore, parasitaemia was significantly higher in KM versus C57BL/6 mice at 8 dpi. The percentages of macrophages in ICR infected mice were lower than uninfected mice, and the parasitaemia was higher than other strains. Conclusions: The results presented here demonstrate the rate of splenic mechanical filtration and that splenic macrophages are the predominant roles in controlling an individual's total parasite burden. This can influence the pathogenesis of malaria. Finally, different genetic backgrounds of mice have different splenic mechanisms for controlling malaria infection. [ABSTRACT FROM AUTHOR]

Published

2021

5. Antimalarial activity and sensitization of chrysosplenetin against artemisinin-resistant genotype Plasmodium berghei K173 potentially via dual-mechanism of maintaining host P-glycoprotein homeostasis mediated by NF-κB p52 or PXR/CAR signaling pathways and regulating heme/haemozoin metabolism.

Author

Wang L, Ji H, Ni S, Xu J, Zhang Y, Zhao X, Wu X, Tian J, and Chen J

Subjects

Mice, Animals, Plasmodium berghei, NF-kappa B p52 Subunit pharmacology, ATP Binding Cassette Transporter, Subfamily G, Member 2, Neoplasm Proteins, Signal Transduction, ATP Binding Cassette Transporter, Subfamily B genetics, Homeostasis, Heme pharmacology, Antimalarials pharmacology, Artemisinins pharmacology

Abstract

This study investigated antimalarial efficacy and sensitization of chrysosplenetin against artemisinin-resistant Plasmodium berghei K173 and potential molecular mechanism. Our data indicated a risk of artemisinin resistance because a higher parasitaemia% and lower inhibition% under artemisinin treatment against resistant parasites than those in the sensitive groups were observed. Two non-antimalarial components, verapamil and chrysosplentin, being P-gp inhibitors, possessed a strong efficacy against resistant parasites but it was not the case for Bcrp inhibitor novobiocin. Artemisinin-chrysosplenetin combination improved artemisinin susceptibility of resistant P. berghei. Artemisinin activated intestinal P-gp and Abcb1/Abcg2 expressions and suppressed Bcrp whereas chrysosplenetin reversed them. Resistant parasite infection led to a decreased haemozoin in organs or an increased heme in peripheral bloods compared with the sensitives; however, that in Abcb1-deficient knockout (KO)-resistant mice reversely got increased or decreased versus wild type (WT)-resistant animals. Chrysosplenetin as well as rifampin (nuclear receptor agonist) increased the transcription levels of PXR/CAR while showed a versatile regulation on hepatic and enternal PXR/CAR in WT- or KO-sensitive or -resistant parasites. Oppositely, hepatic and enteric NF-κB p52 mRNA decreased conformably in WT but increased in KO-resistant mice. NF-κB pathway potentially involved in the mechanism of chrysosplenetin on inhibiting P-gp expressions while PXR/CAR play a more complicated role in this mechanism., (© 2023 John Wiley & Sons Ltd.)

Published

2023

6. Nontargeted metabolomics integrated with 1 H NMR and LC-Q-TOF-MS/MS methods to depict a more comprehensive metabolic profile in response to chrysosplenetin and artemisinin co-treatment against artemisinin-sensitive and -resistant Plasmodium berghei K173.

Author

Wang Y, Tian J, Chen J, Ni S, Yao Y, Wang L, Wu X, Song R, and Chen J

Subjects

Mice, Animals, Tandem Mass Spectrometry, Metabolomics methods, Metabolome, Magnetic Resonance Spectroscopy, Plasmodium berghei, Artemisinins pharmacology

Abstract

Our previous work revealed mutual and specific metabolites/pathways in artemisinin-sensitive and -resistant Plasmodium berghei K173-infected mice. In this study, we further investigated whether chrysosplenetin, a candidate chemical to prevent artemisinin resistance, can regulate these metabolites/pathways by integrating nontargeted metabolomics with 1 H NMR and LC-Q-TOF-MS/MS spectrum. The nuclear magnetic resonance method generated specifically altered metabolites in response to co-treatment with chrysosplenetin, including: the products of glycolysis such as glucose, pyruvate, lactate and alanine; taurine, closely associated with liver injury; arginine and proline as essential amino acids for parasites; TMAO, a biomarker for dysbacteriosis and renal function; and tyrosine, which is used to generate levodopa and dopamine and may improve the torpor state of mice. Importantly, we noticed that chrysosplenetin might depress the activated glycolysis induced by sensitive parasites, but oppositely promoted the inhibited glycolysis to generate more lactate, which suppresses the proliferation of resistant parasites. Moreover, chrysosplentin possibly disturbs the heme biosynthetic pathway in mitochondria. The MS method yielded changed coenzyme A, phosphatidylcholine and ceramides, closely related to mitochondria β-oxidation, cell proliferation, differentiation and apoptosis. These two means shared no overlapped metabolites and formed a more broader metabolic map to study the potential mechanisms of chrysosplenetin as a promising artemisinin resistance inhibitor., (© 2022 John Wiley & Sons Ltd.)

Published

2023

7. Substantiation of the ethnopharmacological use of Conyza sumatrensis (Retz.) E.H.Walker in the treatment of malaria through in-vivo evaluation in Plasmodium berghei infected mice

Author

Kamdem Boniface, Pone and Pal, Anirban

Subjects

*DOSAGE forms of drugs, *PHENOL analysis, *ALKALOIDS, *ALTERNATIVE medicine, *ANIMAL experimentation, *ANTIMALARIALS, *BIOPHYSICS, *COMPARATIVE studies, *DOSE-effect relationship in pharmacology, *FLAVONOIDS, *HEMOGLOBINS, *LEAVES, *RESEARCH methodology, *MEDICINAL plants, *MICE, *ORAL drug administration, *SURVIVAL, *TANNINS, *VITAMIN B1, *VITAMIN B2, *PHYTOCHEMICALS, *PLANT extracts, *DESCRIPTIVE statistics, *PARASITEMIA, *PHARMACODYNAMICS

Abstract

Abstract: Ethnopharmacological relevance: Scientific validation of ethnopharmacologically used plants and their utilization for therapeutic interventions can be a source of affordable treatment especially for neglected diseases in endemic areas. Conyza sumatrensis is a plant which finds its use in treating malaria like fevers but lacks proper scientific validation. Our study has tried to address this gap by authenticating its traditional use for the treatment of malaria. Aim of the study: Evaluate the antimalarial activity of extracts derived from Conyza sumatrensis for its ethnopharmacological validation. Materials and methods: Shade dried leaves were extracted with varying concentrations of ethanol and concentrated for bio-evaluation. Swiss albino mice infected with 1×106 parasitized red blood cells, were orally administered with test extracts for 7 days in two sets of experiments. The first set was used to evaluate alcoholic, hydroalcoholic and aqueous extracts while the second set was used to evaluate the dose response of alcoholic extract ranging from 500–1600mg/kg. Mean survival time, parasitaemia and haemoglobin levels were considered to interpret the antimalarial potential. Phytochemical analysis for the presence of flavonoids, alkaloids tannins, total phenolics, riboflavin and thiamine was also carried out. Results: Among the three extracts administered at 1000mg/kg, chemo suppression was significantly (p<0.001) observed in the alcoholic extract (62.59±12.52%) followed by hydroalcoholic (41.81±19.04%, p<0.01) and aqueous (32.04±19.04%, P<0.05) indicating that the active constituents leach out in ethanol. The dose response study involving the ethanol extract concluded the optimum dose to be 1000mg/kg, as also evidenced by the haemoglobin levels. Conclusion: The plant exhibits moderate antimalarial activity which can be further prospected for active fractions or pure molecules for adjunctive therapy. [Copyright &y& Elsevier]

Published

2013