Advances in Preclinical Platforms of Loa loa for Filarial Neglected Tropical Disease Drug and Diagnostics Research

Samuel Wanji; Valerine Chawa Chunda; Fanny Fri Fombad; Abdel Jélil Njouendou; Narcisse Victor T. Gandjui; Manuel Ritter; Peter A. Enyong; Charles Mackenzie; Mark Taylor; Achim Hoerauf; Joseph Turner

doi:10.3389/fitd.2021.778724

Advances in Preclinical Platforms of Loa loa for Filarial Neglected Tropical Disease Drug and Diagnostics Research

Samuel Wanji
, Valerine Chawa Chunda
, Fanny Fri Fombad
, Abdel Jélil Njouendou
, Narcisse Victor T. Gandjui
, Manuel Ritter
, Peter A. Enyong
, Charles Mackenzie
, Mark Taylor
, Achim Hoerauf
, Joseph Turner

Tropical Disease Biology

University of Buea
Research Foundation in Tropical Diseases and Environment
University of Bonn
Neglected Tropical Diseases Support Center
German Center for Infection Research, Bonn - Cologne Partner Site

Research output: Contribution to journal › Review article › peer-review

5 Citations (Scopus)

Abstract

The tropical disease, loiasis, caused by the filarial parasite, Loa loa, has gained prominence in global public health as a cause of excess mortality and a barrier to the elimination of the related prioritized neglected tropical diseases (NTDs), lymphatic filariasis and onchocerciasis, within Central Africa. There are no effective drug cures or vaccines available to treat loiasis safely. Here we review recent advances in loiasis preclinical platform technologies, including novel in vitro culturing systems, animal models and innovations in experimental infections of the L. loa vector, Chrysops, that have facilitated access to all L. loa filarial life-cycle stages. We detail applications of these new model systems in anti-filarial drug screening, diagnostic development, immunology, and pathophysiology research. Finally, we provide an overview of how loiasis preclinical platforms may be further utilized in translational medicine applications to support the development of much needed new interventions against filarial NTDs.

Original language	English
Article number	778724
Pages (from-to)	778724
Journal	Frontiers in Tropical Diseases
Volume	2
DOIs	https://doi.org/10.3389/fitd.2021.778724
Publication status	Published - 8 Nov 2021

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

filariasis
Loa
loiasis
lymphatic filariasis
neglected tropical disease
onchocerciasis

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10.3389/fitd.2021.778724Licence: CC BY

Fitd-02-778724Final published version, 2.98 MBLicence: CC BY

Cite this

Wanji, S., Chunda, V. C., Fombad, F. F., Njouendou, A. J., Gandjui, N. V. T., Ritter, M., Enyong, P. A., Mackenzie, C., Taylor, M., Hoerauf, A., & Turner, J. (2021). Advances in Preclinical Platforms of Loa loa for Filarial Neglected Tropical Disease Drug and Diagnostics Research. Frontiers in Tropical Diseases, 2, 778724. Article 778724. https://doi.org/10.3389/fitd.2021.778724

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title = "Advances in Preclinical Platforms of Loa loa for Filarial Neglected Tropical Disease Drug and Diagnostics Research",

abstract = "The tropical disease, loiasis, caused by the filarial parasite, Loa loa, has gained prominence in global public health as a cause of excess mortality and a barrier to the elimination of the related prioritized neglected tropical diseases (NTDs), lymphatic filariasis and onchocerciasis, within Central Africa. There are no effective drug cures or vaccines available to treat loiasis safely. Here we review recent advances in loiasis preclinical platform technologies, including novel in vitro culturing systems, animal models and innovations in experimental infections of the L. loa vector, Chrysops, that have facilitated access to all L. loa filarial life-cycle stages. We detail applications of these new model systems in anti-filarial drug screening, diagnostic development, immunology, and pathophysiology research. Finally, we provide an overview of how loiasis preclinical platforms may be further utilized in translational medicine applications to support the development of much needed new interventions against filarial NTDs.",

keywords = "filariasis, Loa, loiasis, lymphatic filariasis, neglected tropical disease, onchocerciasis",

author = "Samuel Wanji and Chunda, \{Valerine Chawa\} and Fombad, \{Fanny Fri\} and Njouendou, \{Abdel J{\'e}lil\} and Gandjui, \{Narcisse Victor T.\} and Manuel Ritter and Enyong, \{Peter A.\} and Charles Mackenzie and Mark Taylor and Achim Hoerauf and Joseph Turner",

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month = nov,

day = "8",

doi = "10.3389/fitd.2021.778724",

language = "English",

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AU - Wanji, Samuel

AU - Chunda, Valerine Chawa

AU - Fombad, Fanny Fri

AU - Njouendou, Abdel Jélil

AU - Gandjui, Narcisse Victor T.

AU - Ritter, Manuel

AU - Enyong, Peter A.

AU - Mackenzie, Charles

AU - Taylor, Mark

AU - Hoerauf, Achim

AU - Turner, Joseph

PY - 2021/11/8

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N2 - The tropical disease, loiasis, caused by the filarial parasite, Loa loa, has gained prominence in global public health as a cause of excess mortality and a barrier to the elimination of the related prioritized neglected tropical diseases (NTDs), lymphatic filariasis and onchocerciasis, within Central Africa. There are no effective drug cures or vaccines available to treat loiasis safely. Here we review recent advances in loiasis preclinical platform technologies, including novel in vitro culturing systems, animal models and innovations in experimental infections of the L. loa vector, Chrysops, that have facilitated access to all L. loa filarial life-cycle stages. We detail applications of these new model systems in anti-filarial drug screening, diagnostic development, immunology, and pathophysiology research. Finally, we provide an overview of how loiasis preclinical platforms may be further utilized in translational medicine applications to support the development of much needed new interventions against filarial NTDs.

AB - The tropical disease, loiasis, caused by the filarial parasite, Loa loa, has gained prominence in global public health as a cause of excess mortality and a barrier to the elimination of the related prioritized neglected tropical diseases (NTDs), lymphatic filariasis and onchocerciasis, within Central Africa. There are no effective drug cures or vaccines available to treat loiasis safely. Here we review recent advances in loiasis preclinical platform technologies, including novel in vitro culturing systems, animal models and innovations in experimental infections of the L. loa vector, Chrysops, that have facilitated access to all L. loa filarial life-cycle stages. We detail applications of these new model systems in anti-filarial drug screening, diagnostic development, immunology, and pathophysiology research. Finally, we provide an overview of how loiasis preclinical platforms may be further utilized in translational medicine applications to support the development of much needed new interventions against filarial NTDs.

KW - filariasis

KW - Loa

KW - loiasis

KW - lymphatic filariasis

KW - neglected tropical disease

KW - onchocerciasis

U2 - 10.3389/fitd.2021.778724

DO - 10.3389/fitd.2021.778724

M3 - Review article

SN - 2673-7515

VL - 2

SP - 778724

JO - Frontiers in Tropical Diseases

JF - Frontiers in Tropical Diseases

M1 - 778724

ER -

Advances in Preclinical Platforms of Loa loa for Filarial Neglected Tropical Disease Drug and Diagnostics Research

Abstract

UN SDGs

Keywords

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