Wnt5A Signaling Blocks Progression of Experimental Visceral Leishmaniasis

Visceral Leishmaniasis, caused by L. donovani infection is fatal if left untreated. The intrinsic complexity of visceral leishmaniasis complicated further by the increasing emergence of drug resistant L. donovani strains warrants fresh investigations into host defense schemes that counter infections. Accordingly, using a mouse model of experimental visceral leishmaniasis we explored the utility of host Wnt5A in restraining L. donovani infection, using both antimony sensitive and antimony resistant L. donovani strains. We found that Wnt5A heterozygous (Wnt5A +/-) mice are more susceptible to L. donovani infection than their wild type (Wnt5A +/+) counterparts as depicted by the respective Leishman Donovan Units (LDU) enumerated from the liver and spleen harvested from infected mice. Higher LDU in Wnt5A +/- mice correlated with increased level of plasma gammaglobulin, liver granuloma and disorganization of splenic germinal centers. Progression of infection in mice by both antimony sensitive and antimony resistant strains of L. donovani could be prevented by activation of Wnt5A signaling as evident from the lowered LDU and gammaglobulin level, and intactness of splenic germinal centers through intravenous administration of rWnt5A prior to L. donovani infection. Wnt5A mediated blockade of L. donovani infection correlated with the preservation of splenic macrophages and activated T cells, and a TH1 like cytokine thrust. Taken together our results indicate that depletion of Wnt5A promotes susceptibility to visceral leishmaniasis and revamping Wnt5A signaling in the host is able to curb L. donovani infection irrespective of antimony sensitivity or resistance and mitigate the progression of visceral leishmaniasis.

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SEARCH FOR NEW ANTILEISHMANIAL CHEMOTHERAPEUTICS

International Journal of Pharmacy and Pharmaceutical Sciences ◽

10.22159/ijpps.2018v10i1.20859 ◽

2018 ◽

Vol 10 (1) ◽

pp. 46

Author(s):

Nabanita Kar ◽

Santanu Ghosh ◽

Leena Kumari ◽

Shreyasi Chakraborty ◽

Tanmoy Bera

Keyword(s):

Betulinic Acid ◽

Leishmania Donovani ◽

Antileishmanial Activity ◽

Gas Chromatography Mass Spectrometry ◽

Drug Resistant ◽

Wild Type ◽

Leaf Oil ◽

Resistant Strains ◽

Type Strains

Objective: The objective of this work was to screen a number of compounds for their antileishmanial efficacy and cytotoxicity profiling.Methods: Curry leaf oil, cypress oil and spikenard oil were identified by gas chromatography-mass spectrometry (GC/MS) analysis. Betulinic acid, spikenard oil, cypress oil and curry leaf oil were evaluated for their in vitro antileishmanial activity against Leishmania donovani AG83 wild-type, sodium stibogluconate resistant (SSG-resistant), paromomycin (PMM-resistant) and GE1 field type strains on axenic and cellular amastigote model and compared the results with standard drugs used to treat leishmaniasis.Results: Betulinic acid showed strong antileishmanial activity against wild-type (SI= 192.8), SSG-resistant (SI= 19.3) and GE1 strains (SI= 100), whereas cypress oil has produced highest antileishmanial activity against PMM-resistant strains (SI= 15.09) among all the tested drugs. The data obtained also revealed that cypress oil had the maximum CC50 value of 452.9 μl among all standard and tested drugs.Conclusion: All tested drugs had antileishmanial property but among them, betulinic acid possess strong antileishmanial activity in case of both wild-type and drug-resistant leishmaniasis.

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Mechanism of inactivation of influenza viruses by immobilized hydrophobic polycations

Proceedings of the National Academy of Sciences ◽

10.1073/pnas.1017012108 ◽

2010 ◽

Vol 108 (1) ◽

pp. 61-66 ◽

Cited By ~ 39

Author(s):

Bryan B. Hsu ◽

Sze Yinn Wong ◽

Paula T. Hammond ◽

Jianzhu Chen ◽

Alexander M. Klibanov

Keyword(s):

Electron Microscopy ◽

Scanning Electron Microscopy ◽

Structural Damage ◽

Influenza Viruses ◽

Solid Surfaces ◽

Drug Resistant ◽

Wild Type ◽

Resistant Strains ◽

Drug Resistant Strains ◽

Scanning Electron

N,N-Dodecyl,methyl-polyethylenimine coatings applied to solid surfaces have been shown by us to disinfect aqueous solutions of influenza viruses. Herein we elucidate the mechanism of this phenomenon. Infectivity-, protein-, RNA-, and scanning electron microscopy-based experiments reveal that, upon contact with the hydrophobic polycationic coating, influenza viruses (including pathogenic human and avian, both wild-type and drug-resistant, strains) irreversibly adhere to it, followed by structural damage and inactivation; subsequently, viral RNA is released into solution, while proteins remain adsorbed.

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Altered tubulin dynamics, localization and post-translational modifications in sodium arsenite resistant Leishmania donovani in response to paclitaxel, trifluralin and a combination of both and induction of apoptosis-like cell death

Parasitology ◽

10.1017/s0031182005007687 ◽

2005 ◽

Vol 131 (2) ◽

pp. 215-230 ◽

Cited By ~ 10

Author(s):

K. G. JAYANARAYAN ◽

C. S. DEY

Keyword(s):

Sodium Arsenite ◽

Leishmania Donovani ◽

Tubulin Polymerization ◽

Drug Resistant ◽

Wild Type ◽

Post Translational Modifications ◽

Dna Analyses ◽

Resistant Strains ◽

Induction Of Apoptosis ◽

Further Development

In this study the anti-leishmanial activity and anti-microtubule effects of paclitaxel, trifluralin and a combination of paclitaxel and trifluralin have been tested in a wild type and sodium arsenite-resistant strain of Leishmania donovani. Both paclitaxel and trifluralin have been shown to be effective in limiting parasite growth. Specific alterations in morphology, tubulin polymerization dynamics, post-translational modifications and cellular distribution of the tubulins have been confirmed to be a part of the intracellular anti-microtubule-events that occur in arsenite-resistant L. donovani in response to these agents, ultimately leading to death of the parasite. DNA analyses of the drug-treated wild type and arsenite-resistant strains revealed an apoptosis-like death in response to paclitaxel and the combination but not to trifluralin. Data provide valuable information for further development of chemotherapeutic strategies based on anti-microtubule agents against drug resistant Leishmania parasites.

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Potent anti-murine cytomegalovirus activity and reduced nephrotoxicity of ganciclovir cyclic phosphonate.

Antimicrobial Agents and Chemotherapy ◽

10.1128/aac.40.8.1964 ◽

1996 ◽

Vol 40 (8) ◽

pp. 1964-1966 ◽

Cited By ~ 5

Author(s):

D F Smee ◽

E J Reist

Keyword(s):

Body Weight ◽

Therapeutic Index ◽

Murine Cytomegalovirus ◽

Renal Tubules ◽

Drug Resistant ◽

Wild Type ◽

Cytomegalovirus Disease ◽

Immunodeficient Mice ◽

Resistant Strains ◽

Drug Resistant Strains

Ganciclovir cyclic phosphonate (SR3775) is a derivative of the R enantiomer (SR3773) of ganciclovir phosphonate (9-[((+/-)-1-hydroxymethyl-3-phosphono)propyloxymethyl]guanine), both of which are potent inhibitors of human ctyomegalovirus and murine cytomegalovirus (MCMV). Against wild-type and four drug-resistant strains of MCMV, SR3773 was 2.3- to 3-fold more potent than SR3775. SR3775 was about half as active as SR3773 against MCMV infections in severe combined immunodeficient mice. However, whereas SR3773 caused 20 to 30% destruction of renal tubules at 50 mg/kg of body weight per day (but exerted no toxicity at 25 mg/kg/day), SR3775 showed no deleterious renal effects at 600 mg/kg/day over 14 days. SR3775 has a therapeutic index at least 12 times higher than SR3773 in mice, making it a candidate for the treatment of human cytomegalovirus disease.

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Antiviral activities of nucleosides and nucleotides against wild-type and drug-resistant strains of murine cytomegalovirus

Antiviral Research ◽

10.1016/0166-3542(94)00061-c ◽

1995 ◽

Vol 26 (1) ◽

pp. 1-9 ◽

Cited By ~ 25

Author(s):

Donald F. Smee ◽

Bill B. Barnett ◽

Robert W. Sidwell ◽

Elmer J. Reist ◽

Antonin Holy

Keyword(s):

Murine Cytomegalovirus ◽

Drug Resistant ◽

Wild Type ◽

Antiviral Activities ◽

Resistant Strains ◽

Drug Resistant Strains

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Peptide/β-Peptoid Hybrids with Ultrashort PEG-Like Moieties: Effects on Hydrophobicity, Antibacterial Activity and Hemolytic Properties

International Journal of Molecular Sciences ◽

10.3390/ijms22137041 ◽

2021 ◽

Vol 22 (13) ◽

pp. 7041

Author(s):

Nicki Frederiksen ◽

Stavroula Louka ◽

Chirag Mudaliar ◽

Ilona Domraceva ◽

Agrita Kreicberga ◽

...

Keyword(s):

Antibacterial Activity ◽

Hemolytic Activity ◽

Mammalian Cells ◽

Drug Resistant ◽

Wild Type ◽

Reverse Phase Hplc ◽

Reverse Phase ◽

Ic50 Values ◽

Resistant Strains ◽

Drug Resistant Strains

PEGylation of antimicrobial peptides as a shielding tool that increases stability toward proteolytic degradation typically leads to concomitant loss of activity, whereas incorporation of ultrashort PEG-like amino acids (sPEGs) remains essentially unexplored. Here, modification of a peptide/β-peptoid hybrid with sPEGs was examined with respect to influence on hydrophobicity, antibacterial activity and effect on viability of mammalian cells for a set of 18 oligomers. Intriguingly, the degree of sPEG modification did not significantly affect hydrophobicity as measured by retention in reverse-phase HPLC. Antibacterial activity against both wild-type and drug-resistant strains of Escherichia coli and Acinetobacter baumannii (both Gram-negative pathogens) was retained or slightly improved (MICs in the range 2–16 µg/mL equal to 0.7–5.2 µM). All compounds in the series exhibited less than 10% hemolysis at 400 µg/mL. While the number of sPEG moieties appeared not to be clearly correlated with hemolytic activity, a trend toward slightly increased hemolytic activity was observed for analogues displaying the longest sPEGs. In contrast, within a subseries the viability of HepG2 liver cells was least affected by analogues displaying the longer sPEGs (with IC50 values of ~1280 µg/mL) as compared to most other analogues and the parent peptidomimetic (IC50 values in the range 330–800 µg/mL).

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Drug-resistant Tuberculosis

The American Biology Teacher ◽

10.1525/abt.2014.76.6.6 ◽

2014 ◽

Vol 76 (6) ◽

pp. 386-394 ◽

Cited By ~ 3

Author(s):

Jessica M. Taylor ◽

Rebecca M. Davidson ◽

Michael Strong

Keyword(s):

Undergraduate Students ◽

Scientific Explanation ◽

Drug Resistant ◽

Nucleotide Polymorphisms ◽

Wild Type ◽

Single Nucleotide ◽

Antibiotic Resistant ◽

Resistant Tuberculosis ◽

Resistant Strains ◽

Global Health Problem

Tuberculosis (TB) continues to be a serious global health problem, resulting in >1.4 million deaths each year. Of increasing concern is the evolution of antibiotic-resistant strains of the bacterium that causes TB. Using this real-world scenario, we created a 90-minute activity for high school or undergraduate students to use online bioinformatics tools to detect single-nucleotide polymorphisms (SNPs) between a wild-type and a variant Mycobacterium tuberculosis gene that could confer resistance to a commonly used TB antibiotic, rifampin. Students write a scientific explanation, providing evidence and reasoning, to support their claim of antibiotic resistance or susceptibility. The entire lesson can be found online at http://www.stronglab.org/taylor.

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