Literature DB >> 27815736

Magnetic nanoparticles are highly toxic to chloroquine-resistant Plasmodium falciparum, dengue virus (DEN-2), and their mosquito vectors.

Kadarkarai Murugan1, Jiang Wei2, Mohamad Saleh Alsalhi3, Marcello Nicoletti4, Manickam Paulpandi1, Christina Mary Samidoss1, Devakumar Dinesh1, Balamurugan Chandramohan1, Chellasamy Paneerselvam5, Jayapal Subramaniam1, Chithravel Vadivalagan1, Hui Wei6, Pandiyan Amuthavalli1, Anitha Jaganathan1, Sandhanasamy Devanesan3, Akon Higuchi7, Suresh Kumar8, Al Thabiani Aziz5, Devaraj Nataraj9, Baskaralingam Vaseeharan10, Angelo Canale11, Giovanni Benelli12.   

Abstract

A main challenge in parasitology is the development of reliable tools to prevent or treat mosquito-borne diseases. We investigated the toxicity of magnetic nanoparticles (MNP) produced by Magnetospirillum gryphiswaldense (strain MSR-1) on chloroquine-resistant (CQ-r) and sensitive (CQ-s) Plasmodium falciparum, dengue virus (DEN-2), and two of their main vectors, Anopheles stephensi and Aedes aegypti, respectively. MNP were studied by Fourier-transform infrared spectroscopy and transmission electron microscopy. They were toxic to larvae and pupae of An. stephensi, LC50 ranged from 2.563 ppm (1st instar larva) to 6.430 ppm (pupa), and Ae. aegypti, LC50 ranged from 3.231 ppm (1st instar larva) to 7.545 ppm (pupa). MNP IC50 on P. falciparum were 83.32 μg ml-1 (CQ-s) and 87.47 μg ml-1 (CQ-r). However, the in vivo efficacy of MNP on Plasmodium berghei was low if compared to CQ-based treatments. Moderate cytotoxicity was detected on Vero cells post-treatment with MNP doses lower than 4 μg ml-1. MNP evaluated at 2-8 μg ml-1 inhibited DEN-2 replication inhibiting the expression of the envelope (E) protein. In conclusion, our findings represent the first report about the use of MNP in medical and veterinary entomology, proposing them as suitable materials to develop reliable tools to combat mosquito-borne diseases.

Entities:  

Keywords:  Antiviral activity; Magnetospirillum gryphiswaldense; Magnetotactic bacteria; Malaria; Yellow fever; Zika virus

Mesh:

Substances:

Year:  2016        PMID: 27815736     DOI: 10.1007/s00436-016-5310-0

Source DB:  PubMed          Journal:  Parasitol Res        ISSN: 0932-0113            Impact factor:   2.289


  41 in total

1.  An acidic protein aligns magnetosomes along a filamentous structure in magnetotactic bacteria.

Authors:  André Scheffel; Manuela Gruska; Damien Faivre; Alexandros Linaroudis; Jürgen M Plitzko; Dirk Schüler
Journal:  Nature       Date:  2005-11-20       Impact factor: 49.962

2.  Bio-functionalization of monodisperse magnetic nanoparticles and their use as biomolecular labels in a magnetic tunnel junction based sensor.

Authors:  Stephanie G Grancharov; Hao Zeng; Shouheng Sun; Shan X Wang; Stephen O'Brien; C B Murray; J R Kirtley; G A Held
Journal:  J Phys Chem B       Date:  2005-07-07       Impact factor: 2.991

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Authors:  Anitha Jaganathan; Kadarkarai Murugan; Chellasamy Panneerselvam; Pari Madhiyazhagan; Devakumar Dinesh; Chithravel Vadivalagan; Al Thabiani Aziz; Balamurugan Chandramohan; Udaiyan Suresh; Rajapandian Rajaganesh; Jayapal Subramaniam; Marcello Nicoletti; Akon Higuchi; Abdullah A Alarfaj; Murugan A Munusamy; Suresh Kumar; Giovanni Benelli
Journal:  Parasitol Int       Date:  2016-02-09       Impact factor: 2.230

Review 4.  Research in mosquito control: current challenges for a brighter future.

Authors:  Giovanni Benelli
Journal:  Parasitol Res       Date:  2015-06-21       Impact factor: 2.289

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Journal:  Trends Plant Sci       Date:  2016-10-24       Impact factor: 18.313

6.  In vitro antimalarial activity of medicinal plant extracts against Plasmodium falciparum.

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Journal:  Parasitol Res       Date:  2010-09-01       Impact factor: 2.289

7.  Simple and inexpensive fluorescence-based technique for high-throughput antimalarial drug screening.

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8.  Eco-friendly control of malaria and arbovirus vectors using the mosquitofish Gambusia affinis and ultra-low dosages of Mimusops elengi-synthesized silver nanoparticles: towards an integrative approach?

Authors:  Jayapal Subramaniam; Kadarkarai Murugan; Chellasamy Panneerselvam; Kalimuthu Kovendan; Pari Madhiyazhagan; Palanisamy Mahesh Kumar; Devakumar Dinesh; Balamurugan Chandramohan; Udaiyan Suresh; Marcello Nicoletti; Akon Higuchi; Jiang-Shiou Hwang; Suresh Kumar; Abdullah A Alarfaj; Murugan A Munusamy; Russell H Messing; Giovanni Benelli
Journal:  Environ Sci Pollut Res Int       Date:  2015-08-25       Impact factor: 4.223

9.  Facile biosynthesis of silver nanoparticles using Barleria cristata: mosquitocidal potential and biotoxicity on three non-target aquatic organisms.

Authors:  Marimuthu Govindarajan; Giovanni Benelli
Journal:  Parasitol Res       Date:  2015-11-10       Impact factor: 2.289

10.  Large-scale production of magnetosomes by chemostat culture of Magnetospirillum gryphiswaldense at high cell density.

Authors:  Yang Liu; Guo R Li; Fang F Guo; Wei Jiang; Ying Li; Lun J Li
Journal:  Microb Cell Fact       Date:  2010-12-12       Impact factor: 5.328
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  10 in total

1.  Mosquito control with green nanopesticides: towards the One Health approach? A review of non-target effects.

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2.  Green synthesis of silver nanoparticles using Holarrhena antidysenterica (L.) Wall.bark extract and their larvicidal activity against dengue and filariasis vectors.

Authors:  Dinesh Kumar; Gaurav Kumar; Veena Agrawal
Journal:  Parasitol Res       Date:  2017-12-17       Impact factor: 2.289

3.  Environmentally azithromycin pharmaceutical wastewater management and synergetic biocompatible approaches of loaded azithromycin@hematite nanoparticles.

Authors:  Mostafa F Al-Hakkani; Gamal A Gouda; Sedky H A Hassan; Mahmoud M A Mohamed; Adham M Nagiub
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Review 4.  Therapeutic significance of nano- and biosensor technology in combating SARS-CoV-2: a review.

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Journal:  Appl Nanosci       Date:  2022-06-03       Impact factor: 3.869

5.  Biological nanopesticides: a greener approach towards the mosquito vector control.

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6.  Iron and iron oxide nanoparticles are highly toxic to Culex quinquefasciatus with little non-target effects on larvivorous fishes.

Authors:  Kadarkarai Murugan; Devakumar Dinesh; Devaraj Nataraj; Jayapal Subramaniam; Pandiyan Amuthavalli; Jagannathan Madhavan; Aruliah Rajasekar; Mariappan Rajan; Kulandhaivel Palani Thiruppathi; Suresh Kumar; Akon Higuchi; Marcello Nicoletti; Giovanni Benelli
Journal:  Environ Sci Pollut Res Int       Date:  2017-10-07       Impact factor: 4.223

Review 7.  Role of different types of nanomaterials against diagnosis, prevention and therapy of COVID-19.

Authors:  Ferial Ghaemi; Amirhassan Amiri; Mohd Yazid Bajuri; Nor Yuliana Yuhana; Massimiliano Ferrara
Journal:  Sustain Cities Soc       Date:  2021-05-25       Impact factor: 7.587

8.  A molecular docking study repurposes FDA approved iron oxide nanoparticles to treat and control COVID-19 infection.

Authors:  Yasmin Abo-Zeid; Nasser S M Ismail; Gary R McLean; Nadia M Hamdy
Journal:  Eur J Pharm Sci       Date:  2020-07-12       Impact factor: 4.384

9.  Iron oxide and iron oxyhydroxide nanoparticles impair SARS-CoV-2 infection of cultured cells.

Authors:  Marta L DeDiego; Yadileiny Portilla; Neus Daviu; Darío López-García; Laura Villamayor; Vladimir Mulens-Arias; Jesús G Ovejero; Álvaro Gallo-Cordova; Sabino Veintemillas-Verdaguer; M Puerto Morales; Domingo F Barber
Journal:  J Nanobiotechnology       Date:  2022-07-30       Impact factor: 9.429

10.  A systematic review on anti-malarial drug discovery and antiplasmodial potential of green synthesis mediated metal nanoparticles: overview, challenges and future perspectives.

Authors:  Loick P Kojom Foko; Francois Eya'ane Meva; Carole E Eboumbou Moukoko; Agnes A Ntoumba; Marie I Ngaha Njila; Philippe Belle Ebanda Kedi; Lawrence Ayong; Leopold G Lehman
Journal:  Malar J       Date:  2019-10-03       Impact factor: 2.979
  10 in total

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