Your search keyword '"Joseph D. Turner"' showing total 104 results

1. Combinations of the azaquinazoline anti-Wolbachia agent, AWZ1066S, with benzimidazole anthelmintics synergise to mediate sub-seven-day sterilising and curative efficacies in experimental models of filariasis

Author

Shrilakshmi Hegde, Amy E. Marriott, Nicolas Pionnier, Andrew Steven, Christina Bulman, Emma Gunderson, Ian Vogel, Marianne Koschel, Alexandra Ehrens, Sara Lustigman, Denis Voronin, Nancy Tricoche, Achim Hoerauf, Marc P. Hübner, Judy Sakanari, Ghaith Aljayyoussi, Fabian Gusovsky, Jessica Dagley, David W. Hong, Paul O'Neill, Steven A. Ward, Mark J. Taylor, and Joseph D. Turner

Subjects

lymphatic filariasis, Wolbachia, onchocerciasis, AWZ1066S, benzimidazole, macrofilaricidal drugs, Microbiology, QR1-502

Abstract

Lymphatic filariasis and onchocerciasis are two major neglected tropical diseases that are responsible for causing severe disability in 50 million people worldwide, whilst veterinary filariasis (heartworm) is a potentially lethal parasitic infection of companion animals. There is an urgent need for safe, short-course curative (macrofilaricidal) drugs to eliminate these debilitating parasite infections. We investigated combination treatments of the novel anti-Wolbachia azaquinazoline small molecule, AWZ1066S, with benzimidazole drugs (albendazole or oxfendazole) in up to four different rodent filariasis infection models: Brugia malayi—CB.17 SCID mice, B. malayi—Mongolian gerbils, B. pahangi—Mongolian gerbils, and Litomosoides sigmodontis—Mongolian gerbils. Combination treatments synergised to elicit threshold (>90%) Wolbachia depletion from female worms in 5 days of treatment, using 2-fold lower dose-exposures of AWZ1066S than monotherapy. Short-course lowered dose AWZ1066S-albendazole combination treatments also delivered partial adulticidal activities and/or long-lasting inhibition of embryogenesis, resulting in complete transmission blockade in B. pahangi and L. sigmodontis gerbil models. We determined that short-course AWZ1066S-albendazole co-treatment significantly augmented the depletion of Wolbachia populations within both germline and hypodermal tissues of B. malayi female worms and in hypodermal tissues in male worms, indicating that anti-Wolbachia synergy is not limited to targeting female embryonic tissues. Our data provides pre-clinical proof-of-concept that sub-seven-day combinations of rapid-acting novel anti-Wolbachia agents with benzimidazole anthelmintics are a promising curative and transmission-blocking drug treatment strategy for filarial diseases of medical and veterinary importance.

Published

2024

2. Sequential Infection with Influenza A Virus Followed by Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) Leads to More Severe Disease and Encephalitis in a Mouse Model of COVID-19

Author

Jordan J. Clark, Rebekah Penrice-Randal, Parul Sharma, Xiaofeng Dong, Shaun H. Pennington, Amy E. Marriott, Stefano Colombo, Andrew Davidson, Maia Kavanagh Williamson, David A. Matthews, Lance Turtle, Tessa Prince, Grant L. Hughes, Edward I. Patterson, Ghada Shawli, Daniele F. Mega, Krishanthi Subramaniam, Jo Sharp, Joseph D. Turner, Giancarlo A. Biagini, Andrew Owen, Anja Kipar, Julian A. Hiscox, and James P. Stewart

Subjects

Severe Acute Respiratory Syndrome Coronavirus-2, influenza A virus, co-infection, transcriptomic signatures, Microbiology, QR1-502

Abstract

COVID-19 is a spectrum of clinical symptoms in humans caused by infection with SARS-CoV-2. The coalescence of SARS-CoV-2 with seasonal respiratory viruses, particularly influenza viruses, is a global health concern. To understand this, transgenic mice expressing the human ACE2 receptor (K18-hACE2) were infected with influenza A virus (IAV) followed by SARS-CoV-2 and the host response and effect on virus biology was compared to K18-hACE2 mice infected with IAV or SARS-CoV-2 alone. The sequentially infected mice showed reduced SARS-CoV-2 RNA synthesis, yet exhibited more rapid weight loss, more severe lung damage and a prolongation of the innate response compared to the singly infected or control mice. Sequential infection also exacerbated the extrapulmonary encephalitic manifestations associated with SARS-CoV-2 infection. Conversely, prior infection with a commercially available, multivalent live-attenuated influenza vaccine (Fluenz Tetra) elicited the same reduction in SARS-CoV-2 RNA synthesis, albeit without the associated increase in disease severity. This suggests that the innate immune response stimulated by IAV inhibits SARS-CoV-2. Interestingly, infection with an attenuated, apathogenic influenza vaccine does not result in an aberrant immune response and enhanced disease severity. Taken together, the data suggest coinfection (‘twinfection’) is deleterious and mitigation steps should be instituted as part of the comprehensive public health and management strategy of COVID-19.

Published

2024

3. The preparatory phase for ground larviciding implementation for chocerciasis control in the Meme River Basin in South West Cameroon: the COUNTDOWN Consortium alternative strategy implementation trial

Author

Relindis Ekanya, Elisabeth Dibando Obie, Louise Hamill, Sophie Thorogood, Raphael Awah Abong, Abdel Jelil Njouendou, Andrew Amuam, Bertrand Lontum Ndzeshang, Desmond Akumtoh Nkimbeng, Jerome Fru Cho, Mathias Eyong Esum, Peter Enyong, Joseph D. Turner, Mark J. Taylor, and Samuel Wanji

Subjects

Breeding site, Susceptibility test, Ground larviciding, Temephos, S. damnosum, Onchocerciasis elimination, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Onchocerciasis control using ivermectin alone has been achieved in some endemic savannah zones of Africa. In the forest regions, the co-endemicity with Loa loa has led to severe adverse events (SAEs) resulting in poor adherence of community members to ivermectin mass drug administration (MDA). This may jeopardize achieving the interruption of transmission of onchocerciasis. Therefore, to accelerate the elimination of onchocerciasis in L. loa co-endemic zones, alternative treatment strategies (ATS) including ground larviciding may be necessary. This study aimed at identifying Simulium breeding sites, cytospecies, transmission profile, susceptibility of Simulium larvae to insecticide (temephos) and identification of some non-target aquatic fauna prior to the implementation of the COUNTDOWN consortium ground larviciding alternative strategy in the Meme River Basin in South West Cameroon. Methods A topographic map and entomological survey were used to determine breeding sites. Larvae and adults were identified using standard identification keys. Susceptibility tests were carried out on collected larvae by exposing them to decreasing concentrations of temephos and assessing survival rates while the cytospecies were identified using cytotaxonomy. Various entomological indicators were assessed from dissected flies. Fishing was used as proxy to traps to assess some aquatic fauna at different sites. Results Twenty-two breeding sites were prospected in the Meme River Basin with eight productive for larvae. A concentration of 0.5–0.1 mg/l temephos induced 100% larval mortality. As the concentration of temephos decreased from 0.05 to 0.0025 mg/l, mortality of larvae also decreased from 98.7 to 12%. Nine cytospecies were observed in the Meme River Basin; 13,633 flies were collected and 4033 dissected. A total of 1455 flies were parous (36.1%), 224 flies were infected (5.5%), and 64 were infective (1.6%). Aquatic fauna observed included Cyprinus spp., Clarias spp., crabs, tadpoles, beetles and larvae of damsel fly. Conclusions Onchocerciasis is being actively transmitted within the Meme River Basin. Simulium larvae are susceptible to temephos, and nine cytospecies are present. Non-target fauna observed included fishes, frogs, crabs and insects. Besides treatment with ivermectin, vector control through ground larviciding may be a complementary strategy to accelerate onchocerciasis elimination in the study area. Graphical Abstract

Published

2022

4. NKp46+ natural killer cells develop an activated/memory-like phenotype and contribute to innate immunity against experimental filarial infection

Author

Nicolas Pionnier, Julio Furlong-Silva, Stefano A. P. Colombo, Amy E. Marriott, Valerine C. Chunda, Bertrand L. Ndzeshang, Hanna Sjoberg, John Archer, Andrew Steven, Samuel Wanji, Mark J. Taylor, and Joseph D. Turner

Subjects

natural killer cells (NK cells), lymphatic filariasis, Brugia malayi, innate lymphoid cells (ILC), eosinophils, Rag2 knockout (KO) mouse, Immunologic diseases. Allergy, RC581-607

Abstract

Lymphatic filariasis and onchocerciasis are major neglected tropical diseases affecting over 90 million people worldwide with painful and profoundly disfiguring pathologies (such as lymphoedema or blindness). Type 2 inflammation is a hallmark of filarial nematode tissue infection and is implicated both in eosinophil dependent immunity and lymphatic or ocular immunopathologies. Type-2 innate lymphoid cells (ILC2) are known to play an important role in the initiation of type 2 inflammation in helminth infection. We therefore tracked comparative IL-12Rβ2+ ILC1, ST2+ ILC2 and NKp46+ natural killer (NK) innate lymphoid cell population expansions during Brugia malayi experimental peritoneal filarial infections using either immunocompetent or immunodeficient mice. In immunocompetent BALB/c animals, NKp46+ NK cells rapidly expanded representing over 90% of the ILC population in the first week of infection, whereas, surprisingly, ST2+ ILC2 failed to expand. NKp46+ NK cell expansions were confirmed in RAG2 deficient mice lacking adaptive immunity. Ablation of the NKp46+ NK cell compartment in RAG2 common gamma chain (gc) mice led to increased susceptibility to chronic adult B. malayi infection. This data was recapitulated using an Onchocerca ochengi male worm peritoneal implant model. When NKp46+ NK cells were depleted in RAG2 deficient mice using anti-NKp46 or asialo GM1 antibody injections over the first five weeks of B. malayi infection, susceptibility to adult B. malayi infection was significantly increased by 2-3 fold with concomitant impairment in eosinophil or neutrophil recruitments. Finally, we demonstrate that in RAG2 deficient mice, drug clearance of a primary adult B. malayi infection followed by challenge infection leads to resistance against early larval B. malayi establishment. This innate resistance is associated with bolstered NK and eosinophils whereby NKp46+ NK cells express markers of memory-like/enhanced activation (increased expression of interferon gamma and Ly6C). Our data promotes a novel functional role for NKp46+ NK cells in immunoprotection against experimental primary and secondary filarial infection which can proceed in the absence of adaptive immune regulation.

Published

2022

5. Short-course quinazoline drug treatments are effective in the Litomosoides sigmodontis and Brugia pahangi jird models

Author

Marc P. Hübner, Emma Gunderson, Ian Vogel, Christina A. Bulman, K.C. Lim, Marianne Koschel, Alexandra Ehrens, Stefan J. Frohberger, Martina Fendler, Nancy Tricoche, Denis Voronin, Andrew Steven, Victor Chi, Malina A. Bakowski, Ashley K. Woods, H. Michael Petrassi, Case W. McNamara, Brenda Beerntsen, Laura Chappell, William Sullivan, Mark J. Taylor, Joseph D. Turner, Achim Hoerauf, Sara Lustigman, and Judy A. Sakanari

Subjects

Infectious and parasitic diseases, RC109-216

Abstract

The quinazolines CBR417 and CBR490 were previously shown to be potent anti-wolbachials that deplete Wolbachia endosymbionts of filarial nematodes and present promising pre-clinical candidates for human filarial diseases such as onchocerciasis. In the present study we tested both candidates in two models of chronic filarial infection, namely the Litomosoides sigmodontis and Brugia pahangi jird model and assessed their long-term effect on Wolbachia depletion, microfilariae counts and filarial embryogenesis 16−18 weeks after treatment initiation (wpt). Once per day (QD) oral treatment with CBR417 (50 mg/kg) for 4 days or twice per day (BID) with CBR490 (25 mg/kg) for 7 days during patent L. sigmodontis infection reduced the Wolbachia load by >99% and completely cleared peripheral microfilaremia from 10–14 wpt. Similarly, 7 days of QD treatments (40 mg/kg) with CBR417 or CBR490 cleared >99% of Wolbachia from B. pahangi and reduced peritoneal microfilariae counts by 93% in the case of CBR417 treatment. Transmission electron microscopy analysis indicated intensive damage to the B. pahangi ovaries following CBR417 treatment and in accordance filarial embryogenesis was inhibited in both models after CBR417 or CBR490 treatment. Suboptimal treatment regimens of CBR417 or CBR490 did not lead to a maintained reduction of the microfilariae and Wolbachia load. In conclusion, CBR417 or CBR490 are pre-clinical candidates for filarial diseases, which achieve long-term clearance of Wolbachia endosymbionts of filarial nematodes, inhibit filarial embryogenesis and clear microfilaremia with treatments as short as 7 days. Keywords: Quinazoline, Litomosoides sigmodontis, Brugia pahangi, Filaria, Doxycycline, Wolbachia, Macrofilaricidal, Microfilariae

Published

2020

6. Comparison of immune responses to Loa loa stage-specific antigen extracts in Loa loa-exposed BALB/c mice upon clearance of infection

Author

Valerine C. Chunda, Manuel Ritter, Ayukenchengamba Bate, Narcisse V. T. Gandjui, Mathias E. Esum, Fanny F. Fombad, Abdel J. Njouendou, Patrick W. C. Ndongmo, Mark J. Taylor, Achim Hoerauf, Laura E. Layland, Joseph D. Turner, and Samuel Wanji

Subjects

Recall immune responses, Re-stimulation, Immunoglobulins, Chemokines, Cytokines, Microfilariae, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Different immune mechanisms are capable of killing developmental stages of filarial nematodes and these mechanisms are also likely to vary between the primary and a challenge infection. However, the lack of a detailed analysis of cytokine, chemokine and immunoglobulin levels in human loiasis is still evident. Therefore, detailed analysis of immune responses induced by the different developmental stages of Loa loa in immune-competent BALB/c mice will aid in the characterization of distinct immune responses that are important for the immunity against loiasis. Methods Different developmental stages of L. loa were obtained from human peripheral blood (microfilariae, MF), the transmitting vector, Chrysops (larval stage 3, L3) and infected immune-deficient BALB/cRAG2γc−/− mice (L4, L5, adult worms). Groups of wildtype BALB/c mice were then injected with the isolated stages and after 42 days post-infection (pi), systemic cytokine, chemokine and immunoglobulin levels were determined. These were then compared to L. loa-specific responses from in vitro re-stimulated splenocytes from individual mice. All parameters were determined using Luminex technology. Results In a pilot study, BALB/c mice cleared the different life stages of L. loa within 42 days pi and systemic cytokine, chemokine and immunoglobulin levels were equal between infected and naive mice. Nevertheless, L. loa-specific re-stimulation of splenocytes from mice infected with L5, MF or adult worms led to induction of Th2, Th17 and chemokine secretion patterns. Conclusions This study shows that although host immunity remains comparable to naive mice, clearance of L. loa life-cycle development stages can induce immune cell memory leading to cytokine, chemokine and immunoglobulins secretion patterns which might contribute to immunity and protection against reinfection.

Published

2020

7. Implementation of test-and-treat with doxycycline and temephos ground larviciding as alternative strategies for accelerating onchocerciasis elimination in an area of loiasis co-endemicity: the COUNTDOWN consortium multi-disciplinary study protocol

Author

Samuel Wanji, Theobald Mue Nji, Louise Hamill, Laura Dean, Kim Ozano, Abdel J. Njouendou, Raphael A. Abong, Elisabeth Dibando Obie, Andrew Amuam, Relindis Ekanya, Winston Patrick Chounna Ndongmo, Bertrand L. Ndzeshang, Ebua Gallus Fung, Dum-Buo Nnamdi, Desmond Akumtoh Nkimbeng, Samuel Teghen, Emmanuel Kah, Helen Piotrowski, Armelle Forrer, Jahangir A. M. Khan, Maame E. Woode, Louis Niessen, Victoria Watson, Zakariaou Njoumemi, Michele E. Murdoch, Rachael Thomson, Sally Theobald, Peter Enyong, Joseph D. Turner, and Mark J. Taylor

Subjects

Onchocerciasis, Onchodermatitis, Wolbachia, Doxycycline, Cameroon, Vector Control, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Onchocerciasis is a priority neglected tropical disease targeted for elimination by 2025. The standard strategy to combat onchocerciasis is annual Community-Directed Treatment with ivermectin (CDTi). Yet, high prevalence rates and transmission persist following > 12 rounds in South-West Cameroon. Challenges include programme coverage, adherence to, and acceptability of ivermectin in an area of Loa loa co-endemicity. Loiasis patients harbouring heavy infections are at risk of potentially fatal serious adverse events following CDTi. Alternative strategies are therefore needed to achieve onchocerciasis elimination where CDTi effectiveness is suboptimal. Methods/design We designed an implementation study to evaluate integrating World Health Organisation-endorsed alternative strategies for the elimination of onchocerciasis, namely test-and-treat with the macrofilaricide, doxycycline (TTd), and ground larviciding for suppression of blackfly vectors with the organophosphate temephos. A community-based controlled before-after intervention study will be conducted among > 2000 participants in 20 intervention (Meme River Basin) and 10 control (Indian River Basin) communities. The primary outcome measure is O. volvulus prevalence at follow-up 18-months post-treatment. The study involves four inter-disciplinary components: parasitology, entomology, applied social sciences and health economics. Onchocerciasis skin infection will be diagnosed by skin biopsy and Loa loa infection will be diagnosed by parasitological examination of finger-prick blood samples. A simultaneous clinical skin disease assessment will be made. Eligible skin-snip-positive individuals will be offered directly-observed treatment for 5 weeks with 100 mg/day doxycycline. Transmission assessments of onchocerciasis in the communities will be collected post-human landing catch of the local biting blackfly vector prior to ground larviciding with temephos every week (0.3 l/m3) until biting rate falls below 5/person/day. Qualitative research, including in-depth interviews and focus-group discussions will be used to assess acceptability and feasibility of the implemented alternative strategies among intervention recipients and providers. Health economics will assess the cost-effectiveness of the implemented interventions. Conclusions Using a multidisciplinary approach, we aim to assess the effectiveness of TTd, alone or in combination with ground larviciding, following a single intervention round and scrutinise the acceptability and feasibility of implementing at scale in similar hotspots of onchocerciasis infection, to accelerate onchocerciasis elimination.

Published

2019

8. X-treme loss of sequence diversity linked to neo-X chromosomes in filarial nematodes

Author

John Mattick, Silvia Libro, Robin Bromley, Wanpen Chaicumpa, Matthew Chung, Darren Cook, Mohammad Behram Khan, Nikhil Kumar, Yee-Ling Lau, Shailja Misra-Bhattacharya, Ramakrishna Rao, Lisa Sadzewicz, Atiporn Saeung, Mohd Shahab, Benjamin C. Sparklin, Andrew Steven, Joseph D. Turner, Luke J. Tallon, Mark J. Taylor, Andrew R. Moorhead, Michelle Michalski, Jeremy M. Foster, and Julie C. Dunning Hotopp

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

The sequence diversity of natural and laboratory populations of Brugia pahangi and Brugia malayi was assessed with Illumina resequencing followed by mapping in order to identify single nucleotide variants and insertions/deletions. In natural and laboratory Brugia populations, there is a lack of sequence diversity on chromosome X relative to the autosomes (πX/πA = 0.2), which is lower than the expected (πX/πA = 0.75). A reduction in diversity is also observed in other filarial nematodes with neo-X chromosome fusions in the genera Onchocerca and Wuchereria, but not those without neo-X chromosome fusions in the genera Loa and Dirofilaria. In the species with neo-X chromosome fusions, chromosome X is abnormally large, containing a third of the genetic material such that a sizable portion of the genome is lacking sequence diversity. Such profound differences in genetic diversity can be consequential, having been associated with drug resistance and adaptability, with the potential to affect filarial eradication. Author summary Almost a billion people receive >7.7 billion doses of treatment aimed at eliminating lymphatic filariasis, which is caused by three filarial nematodes: Wuchereria bancrofti, Brugia malayi, and Brugia timori. Drug resistance and adaptation are both associated with pathogen success as well as higher levels of genetic diversity. In an examination of genetic diversity in Brugia malayi and Brugia pahangi, we observed a lack of genetic diversity over a third of the genome that is found on chromosome X. These species have neo-X chromosomes where a chromosome X fused with an autosome. Using publicly-available published data, the other filarial nematodes of greatest human significance are also found to have a similar lack of genetic diversity on their neo-X chromosomes. The two filarial nematodes with publicly-available data that lack neo-X chromosomes did not have this lack of genetic diversity. This lack of sequence diversity in B. malayi, W. bancrofti, and O. volvulus could have profound effects on all traits encoded on chromosome X.

Published

2021

9. Mouse models of Loa loa

Author

Nicolas P. Pionnier, Hanna Sjoberg, Valerine C. Chunda, Fanny F. Fombad, Patrick W. Chounna, Abdel J. Njouendou, Haelly M. Metuge, Bertrand L. Ndzeshang, Narcisse V. Gandjui, Desmond N. Akumtoh, Dizzle B. Tayong, Mark J. Taylor, Samuel Wanji, and Joseph D. Turner

Subjects

Science

Abstract

Here, the authors develop a mouse model of Loa loa that reflects human infections, including eosinophilia, and determine effects of ivermectin treatment.

Published

2019

10. Evaluation of in vitro culture systems for the maintenance of microfilariae and infective larvae of Loa loa

Author

Denis Zofou, Fanny Fri Fombad, Narcisse V. T. Gandjui, Abdel Jelil Njouendou, Arnaud Jonas Kengne-Ouafo, Patrick W. Chounna Ndongmo, Fabrice R. Datchoua-Poutcheu, Peter A. Enyong, Dizzle Tayong Bita, Mark J. Taylor, Joseph D. Turner, and Samuel Wanji

Subjects

Loa loa, L3 larvae, Microfilariae, In vitro culture system, Viability, Moulting, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Suitable and scalable in vitro culture conditions for parasite maintenance are needed to foster drug research for loiasis, one of the neglected tropical diseases which has attracted only limited attention over recent years, despite having important public health impacts. The present work aims to develop adequate in vitro culture systems for drug screening against both microfilariae (mf) and infective third-stage larvae (L3) of Loa loa. Methods In vitro culture conditions were evaluated by varying three basic culture media: Roswell Park Memorial Institute (RPMI-1640), Dulbecco’s modified Eagle’s medium (DMEM) and Iscove’s modified Dulbecco’s medium (IMDM); four sera/proteins: newborn calf serum (NCS), foetal bovine serum (FBS), bovine serum albumin (BSA) and the lipid-enriched BSA (AlbuMax® II, ALB); and co-culture with the Monkey Kidney Epithelial Cell line (LLC-MK2) as a feeder layer. The various culture systems were tested on both mf and L3, using survival (% motile), motility (T90 = mean duration (days) at which at least 90% of parasites were fully active) and moulting rates of L3 as the major criteria. The general linear model regression analysis was performed to assess the contribution of each variable on the viability of Loa loa L3 and microfilarie. All statistical tests were performed at 95% confidence interval. Results Of the three different media tested, DMEM and IMDM were the most suitable sustaining the maintenance of both L. loa L3 and mf. IMDM alone could sustain L3 for more than 5 days (T90 = 6.5 ± 1.1 day). Serum supplements and LLC-MK2 co-cultures significantly improved the survival of parasites in DMEM and IMDM. In co-cultures with LLC-MK2 cells, L. loa mf were maintained in each of the three basic media (T90 of 16.4–19.5 days) without any serum supplement. The most effective culture systems promoting significant moulting rate of L3 into L4 (at least 25%) with substantial maintenance time were: DMEM + BSA, DMEM + NCS, DMEM-AlbuMax®II, DMEM + FBS all in co-culture with LLC-MK2, and IMDM + BSA (1.5%), DMEM + FBS (10%) and DMEM + NCS (5%) without feeder cells. DMEM + 1% BSA in co-culture scored the highest moulting rate of 57 of 81 (70.37%). The factors that promoted L. loa mf viability included feeder cells (β = 0.490), both IMDM (β = 0.256) and DMEM (β = 0.198) media and the protein supplements NCS (β = 0.052) and FBS (β = 0.022); while for L. loa L3, in addition to feeder cells (β = 0.259) and both IMDM (β = 0.401) and DMEM (β = 0.385) media, the protein supplements BSA (β = 0.029) were found important in maintaining the worm motility. Conclusions The findings from this work display a range of culture requirements for the maintenance of Loa loa stages, which are suitable for developing an effective platform for drug screening.

Published

2018

11. Validation of ultrasound bioimaging to predict worm burden and treatment efficacy in preclinical filariasis drug screening models

Author

Amy E. Marriott, Hanna Sjoberg, Hayley Tyrer, Joanne Gamble, Emma Murphy, John Archer, Andrew Steven, Mark J. Taylor, and Joseph D. Turner

Subjects

Medicine, Science

Abstract

Abstract Filariasis is a global health problem targeted for elimination. Curative drugs (macrofilaricides) are required to accelerate elimination. Candidate macrofilaricides require testing in preclinical models of filariasis. The incidence of infection failures and high intra-group variation means that large group sizes are required for drug testing. Further, a lack of accurate, quantitative adult biomarkers results in protracted timeframes or multiple groups for endpoint analyses. Here we evaluate intra-vital ultrasonography (USG) to identify B. malayi in the peritonea of gerbils and CB.17 SCID mice and assess prognostic value in determining drug efficacy. USG operators, blinded to infection status, could detect intra-peritoneal filarial dance sign (ipFDS) with 100% specificity and sensitivity, when >5 B. malayi worms were present in SCID mice. USG ipFDS was predictive of macrofilaricidal activity in randomized, blinded studies comparing flubendazole, albendazole and vehicle-treated SCID mice. Semi-quantification of ipFDS could predict worm burden >10 with 87–100% accuracy in SCID mice or gerbils. We estimate that pre-assessment of worm burden by USG could reduce intra-group variation, obviate the need for surgical implantations in gerbils, and reduce total SCID mouse use by 40%. Thus, implementation of USG may reduce animal use, refine endpoints and negate invasive techniques for assessing anti-filarial drug efficacy.

Published

2018

12. Short-Course, High-Dose Rifampicin Achieves Wolbachia Depletion Predictive of Curative Outcomes in Preclinical Models of Lymphatic Filariasis and Onchocerciasis

Author

Ghaith Aljayyoussi, Hayley E. Tyrer, Louise Ford, Hanna Sjoberg, Nicolas Pionnier, David Waterhouse, Jill Davies, Joanne Gamble, Haelly Metuge, Darren A. N. Cook, Andrew Steven, Raman Sharma, Ana F. Guimaraes, Rachel H. Clare, Andrew Cassidy, Kelly L. Johnston, Laura Myhill, Laura Hayward, Samuel Wanji, Joseph D. Turner, Mark J. Taylor, and Stephen A. Ward

Subjects

Medicine, Science

Abstract

Abstract Lymphatic filariasis (LF) and onchocerciasis are priority neglected tropical diseases targeted for elimination. The only safe drug treatment with substantial curative activity against the filarial nematodes responsible for LF (Brugia malayi, Wuchereria bancrofti) or onchocerciasis (Onchocerca volvulus) is doxycycline. The target of doxycycline is the essential endosymbiont, Wolbachia. Four to six weeks doxycycline therapy achieves >90% depletion of Wolbachia in worm tissues leading to blockade of embryogenesis, adult sterility and premature death 18–24 months post-treatment. Long treatment length and contraindications in children and pregnancy are obstacles to implementing doxycycline as a public health strategy. Here we determine, via preclinical infection models of Brugia malayi or Onchocerca ochengi that elevated exposures of orally-administered rifampicin can lead to Wolbachia depletions from filariae more rapidly than those achieved by doxycycline. Dose escalation of rifampicin achieves >90% Wolbachia depletion in time periods of 7 days in B. malayi and 14 days in O. ochengi. Using pharmacokinetic-pharmacodynamic modelling and mouse-human bridging analysis, we conclude that clinically relevant dose elevations of rifampicin, which have recently been determined as safe in humans, could be administered as short courses to filariasis target populations with potential to reduce anti-Wolbachia curative therapy times to between one and two weeks.

Published

2017

13. Current status of immunodeficient mouse models as substitutes to reduce cat and dog use in heartworm preclinical research [version 2; peer review: 4 approved]

Author

Jessica L Dagley, Utami DiCosty, Crystal Fricks, Abdelmoneim Mansour, Scott McCall, John W McCall, Mark J Taylor, and Joseph D Turner

Subjects

Brief Report, Articles, Dirofilariasis, heartworm, parasitology, anthelmintic, anti-parasitic drugs

Abstract

Chemoprophylactic prevention of veterinary heartworm disease in companion animals, caused by the vector-borne nematode parasite Dirofilaria immitis, is a multi-billion-dollar global market. Experimental use of cats and dogs in preclinical heartworm drug testing is increasing due to evolving drug-resistance to frontline macrocyclic lactones and renewed investment in alternative preventative drug research. We and others recently published data demonstrating proof-of-concept of utilising lymphopenic severe-combined immunodeficient (SCID) or Recombination Activating Gene (RAG)2 deficient mice with additional knockout of the IL-2/7 receptor gamma chain (γc) as alternative preventative drug screening research models of dirofilariasis. Here we summarise the current knowledge of candidate immunodeficient mouse models tested, including a comparison of susceptibility using different background strains of mice, different D. immitis isolates, following use of anti-inflammatory treatments to further suppress residual innate immunity, and efficacies achieved against different reference anthelmintics. We supplement this precis with new data on treatment response to the veterinary anthelmintic, oxfendazole, and initial evaluation of D. immitis susceptibility in CB.17 SCID and C57BL/6 RAG2 -/-γc -/- mice. We conclude that in addition to NSG and NXG mice, RAG2 -/-γc -/- mice on either a BALB/c or C57BL/6 background offer an alternative screening model option, widening access to academic and commercial laboratories wishing to pursue initial rapid in vivo drug screening whilst avoiding potentially unnecessary cat or dog testing.

Published

2024

14. Author Correction: Short-Course, High-Dose Rifampicin Achieves Wolbachia Depletion Predictive of Curative Outcomes in Preclinical Models of Lymphatic Filariasis and Onchocerciasis

Author

Ghaith Aljayyoussi, Hayley E. Tyrer, Louise Ford, Hanna Sjoberg, Nicolas Pionnier, David Waterhouse, Jill Davies, Joanne Gamble, Haelly Metuge, Darren A. N. Cook, Andrew Steven, Raman Sharma, Ana F. Guimaraes, Rachel H. Clare, Andrew Cassidy, Kelly L. Johnston, Laura Myhill, Laura Hayward, Samuel Wanji, Joseph D. Turner, Mark J. Taylor, and Stephen A. Ward

Subjects

Medicine, Science

Abstract

A correction to this article has been published and is linked from the HTML version of this paper. The error has been fixed in the paper.

Published

2018

15. Current status of immunodeficient mouse models as substitutes to reduce cat and dog use in heartworm preclinical research [version 1; peer review: 4 approved]

Author

Jessica L Dagley, Utami DiCosty, Crystal Fricks, Abdelmoneim Mansour, Scott McCall, John W McCall, Mark J Taylor, and Joseph D Turner

Subjects

Brief Report, Articles, Dirofilariasis, heartworm, parasitology, anthelmintic, anti-parasitic drugs

Abstract

Chemoprophylactic prevention of veterinary heartworm disease in companion animals, caused by the vector-borne nematode parasite Dirofilaria immitis, is a multi-billion-dollar global market. Experimental use of cats and dogs in preclinical heartworm drug testing is increasing due to evolving drug-resistance to frontline macrocyclic lactones and renewed investment in alternative preventative drug research. We and others recently published data demonstrating proof-of-concept of utilising lymphopenic severe-combined immunodeficient (SCID) or Recombination Activating Gene (RAG)2 deficient mice with additional knockout of the IL-2/7 receptor gamma chain (γc) as alternative preventative drug screening research models of dirofilariasis. Here we summarise the current knowledge of candidate immunodeficient mouse models tested, including a comparison of susceptibility using different background strains of mice, different D. immitis isolates, following use of anti-inflammatory treatments to further suppress residual innate immunity, and efficacies achieved against different reference anthelmintics. We supplement this precis with new data on treatment response to the veterinary anthelmintic, oxfendazole, and initial evaluation of D. immitis susceptibility in CB.17 SCID and C57BL/6 RAG2 -/-γc -/- mice. We conclude that in addition to NSG and NXG mice, RAG2 -/-γc -/- mice on either a BALB/c or C57BL/6 background offer an alternative screening model option, widening access to academic and commercial laboratories wishing to pursue initial rapid in vivo drug screening whilst avoiding potentially unnecessary cat or dog testing.

Published

2024

16. Transformation of the Manufacturing Process from Discovery to Kilogram Scale for AWZ1066S: A Highly Specific Anti-Wolbachia Drug Candidate for a Short-Course Treatment of Filariasis

Author

W. David Hong, Paul M. O’Neill, Mark J. Taylor, Joseph D. Turner, Stephen A. Ward, Fabian Gusovsky, Farid Benayoud, Nao Shibuguchi, Dixit Girish, Francis Gerard Fang, Ravi Kumar Talabhakthla, Anand Vaddi, Chiranjeevi Challa, Karri Satya Ammi Reddy, Vijay Kalla, Sugandham Srinivasa Rao, Durga Mahesh Kumar Nagireddi, Jayesh Patel, and Anil Shahaji Khile

Subjects

Organic Chemistry, Physical and Theoretical Chemistry

Published

2023

17. In vivo efficacy of the boron-pleuromutilin AN11251 against Wolbachia of the rodent filarial nematode Litomosoides sigmodontis.

Author

Alexandra Ehrens, Christopher S Lunde, Robert T Jacobs, Dominique Struever, Marianne Koschel, Stefan J Frohberger, Franziska Lenz, Martina Fendler, Joseph D Turner, Stephen A Ward, Mark J Taylor, Yvonne R Freund, Rianna Stefanakis, Eric Easom, Xianfeng Li, Jacob J Plattner, Achim Hoerauf, and Marc P Hübner

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

The elimination of filarial diseases such as onchocerciasis and lymphatic filariasis is hampered by the lack of a macrofilaricidal-adult worm killing-drug. In the present study, we tested the in vivo efficacy of AN11251, a boron-pleuromutilin that targets endosymbiotic Wolbachia bacteria from filarial nematodes and compared its efficacy to doxycycline and rifampicin. Doxycycline and rifampicin were previously shown to deplete Wolbachia endosymbionts leading to a permanent sterilization of the female adult filariae and adult worm death in human clinical studies. Twice-daily oral treatment of Litomosoides sigmodontis-infected mice with 200 mg/kg AN11251 for 10 days achieved a Wolbachia depletion > 99.9% in the adult worms, exceeding the Wolbachia reduction by 10-day treatments with bioequivalent human doses of doxycycline and a similar reduction as high-dose rifampicin (35 mg/kg). Wolbachia reductions of > 99% were also accomplished by 14 days of oral AN11251 at a lower twice-daily dose (50 mg/kg) or once-per-day 200 mg/kg AN11251 treatments. The combinations tested of AN11251 with doxycycline had no clear beneficial impact on Wolbachia depletion, achieving a > 97% Wolbachia reduction with 7 days of treatment. These results indicate that AN11251 is superior to doxycycline and comparable to high-dose rifampicin in the L. sigmodontis mouse model, allowing treatment regimens as short as 10-14 days. Therefore, AN11251 represents a promising pre-clinical candidate that was identified in the L. sigmodontis model, and could be further evaluated and developed as potential clinical candidate for human lymphatic filariasis and onchocerciasis.

Published

2020

18. In vivo kinetics of Wolbachia depletion by ABBV-4083 in L. sigmodontis adult worms and microfilariae.

Author

Marc P Hübner, Marianne Koschel, Dominique Struever, Venelin Nikolov, Stefan J Frohberger, Alexandra Ehrens, Martina Fendler, Iliana Johannes, Thomas W von Geldern, Kennan Marsh, Joseph D Turner, Mark J Taylor, Stephen A Ward, Kenneth Pfarr, Dale J Kempf, and Achim Hoerauf

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

Depletion of Wolbachia endosymbionts of human pathogenic filariae using 4-6 weeks of doxycycline treatment can lead to permanent sterilization and adult filarial death. We investigated the anti-Wolbachia drug candidate ABBV-4083 in the Litomosoides sigmodontis rodent model to determine Wolbachia depletion kinetics with different regimens. Wolbachia reduction occurred in mice as early as 3 days after the initiation of ABBV-4083 treatment and continued throughout a 10-day treatment period. Importantly, Wolbachia levels continued to decline after a 5-day-treatment from 91.5% to 99.9% during a 3-week washout period. In jirds, two weeks of ABBV-4083 treatment (100mg/kg once-per-day) caused a >99.9% Wolbachia depletion in female adult worms, and the kinetics of Wolbachia depletion were recapitulated in peripheral blood microfilariae. Similar to Wolbachia depletion, inhibition of embryogenesis was time-dependent in ABBV-4083-treated jirds, leading to a complete lack of late embryonic stages (stretched microfilariae) and lack of peripheral microfilariae in 5/6 ABBV-4083-treated jirds by 14 weeks after treatment. Twice daily treatment in comparison to once daily treatment with ABBV-4083 did not significantly improve Wolbachia depletion. Moreover, up to 4 nonconsecutive daily treatments within a 14-dose regimen did not significantly erode Wolbachia depletion. Within the limitations of an animal model that does not fully recapitulate human filarial disease, our studies suggest that Wolbachia depletion should be assessed clinically no earlier than 3-4 weeks after the end of treatment, and that Wolbachia depletion in microfilariae may be a viable surrogate marker for the depletion within adult worms. Furthermore, strict daily adherence to the dosing regimen with anti-Wolbachia candidates may not be required, provided that the full regimen is subsequently completed.

Published

2019

19. Discovery of ABBV-4083, a novel analog of Tylosin A that has potent anti-Wolbachia and anti-filarial activity.

Author

Thomas W von Geldern, Howard E Morton, Rick F Clark, Brian S Brown, Kelly L Johnston, Louise Ford, Sabine Specht, Robert A Carr, Deanne F Stolarik, Junli Ma, Matthew J Rieser, Dominique Struever, Stefan J Frohberger, Marianne Koschel, Alexandra Ehrens, Joseph D Turner, Marc P Hübner, Achim Hoerauf, Mark J Taylor, Stephen A Ward, Kennan Marsh, and Dale J Kempf

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

There is a significant need for improved treatments for onchocerciasis and lymphatic filariasis, diseases caused by filarial worm infection. In particular, an agent able to selectively kill adult worms (macrofilaricide) would be expected to substantially augment the benefits of mass drug administration (MDA) with current microfilaricides, and to provide a solution to treatment of onchocerciasis / loiasis co-infection, where MDA is restricted. We have identified a novel macrofilaricidal agent, Tylosin A (TylA), which acts by targeting the worm-symbiont Wolbachia bacterium. Chemical modification of TylA leads to improvements in anti-Wolbachia activity and oral pharmacokinetic properties; an optimized analog (ABBV-4083) has been selected for clinical evaluation.

Published

2019

20. Anti-Wolbachia drugs for filariasis

Author

W. David Hong, Stephen A. Ward, Paul M. O'Neill, Kelly L. Johnston, Mark J. Taylor, and Joseph D. Turner

Subjects

Drug, medicine.drug_class, media_common.quotation_subject, Antibiotics, Onchocerciasis, Bioinformatics, Filariasis, Elephantiasis, Filarial, Drug Discovery, medicine, Humans, Nematode Infections, Lymphatic filariasis, media_common, biology, business.industry, Drug discovery, medicine.disease, biology.organism_classification, Anti-Bacterial Agents, Clinical trial, Infectious Diseases, Pharmacodynamics, Parasitology, Wolbachia, business

Abstract

The mutualistic association between Wolbachia endosymbionts and their filarial nematode hosts has been exploited as a validated drug target delivering macrofilaricidal outcomes. Limitations of existing antibiotics to scale-up have driven the search for new drugs, which are effective in shorter regimens of 7 days or less. Here, we review the last 14 years of anti-Wolbachia drug discovery by the anti-Wolbachia (A·WOL) consortium, which has screened more than two million compounds, delivering thousands of hit compounds. Refined screening models integrated with robust pharmacokinetic/pharmacodynamic (PK/PD) driven optimisation and selection strategies have delivered the first two drug candidates specifically designed to target Wolbachia. AWZ1066S and ABBV-4083 are currently progressing through clinical trials with the aim of delivering safe and effective macrofilaricides to support the elimination of onchocerciasis and lymphatic filariasis.

Published

2021

21. NKp46

Author

Nicolas, Pionnier, Julio, Furlong-Silva, Stefano A P, Colombo, Amy E, Marriott, Valerine C, Chunda, Bertrand L, Ndzeshang, Hanna, Sjoberg, John, Archer, Andrew, Steven, Samuel, Wanji, Mark J, Taylor, and Joseph D, Turner

Subjects

Inflammation, Killer Cells, Natural, Male, Interferon-gamma, Mice, Mice, Inbred BALB C, Phenotype, Natural Cytotoxicity Triggering Receptor 1, Animals, Antigens, Ly, Interleukin-1 Receptor-Like 1 Protein, Immunity, Innate

Abstract

Lymphatic filariasis and onchocerciasis are major neglected tropical diseases affecting over 90 million people worldwide with painful and profoundly disfiguring pathologies (such as lymphoedema or blindness). Type 2 inflammation is a hallmark of filarial nematode tissue infection and is implicated both in eosinophil dependent immunity and lymphatic or ocular immunopathologies. Type-2 innate lymphoid cells (ILC2) are known to play an important role in the initiation of type 2 inflammation in helminth infection. We therefore tracked comparative IL-12Rβ2

Published

2022

22. ‘Ecobordering’: casting immigration control as environmental protection

Author

Joseph D. Turner and Daniel Bailey

Subjects

Sociology and Political Science, media_common.quotation_subject, 05 social sciences, Control (management), Immigration, 010501 environmental sciences, Environmental Science (miscellaneous), 01 natural sciences, Anti immigration, 0506 political science, Blame, Casting (metalworking), Political economy, Environmental politics, Political science, 050602 political science & public administration, 0105 earth and related environmental sciences, media_common

Abstract

Based on an analysis of 22 European far-right parties, we identify an emergent discourse in environmental politics, which we conceptualise as ‘ecobordering’. This discourse seeks to blame immigration for national environmental degradation, which draws on colonial and racialised imaginaries of nature in order to rationalise further border restrictions and ‘protect’ the ‘nativist stewardship’ of national nature. As such, ecobordering seeks to obscure the primary driving causes of the ecological crisis in the entrenched production and consumption practices of Global North economies, whilst simultaneously shifting blame on to migration from the Global South where ecological degradation has been most profound. In an era of increasing climate migration, ecobordering thereby portrays effects as causes and further normalises racist border practices and colonial amnesia within Europe.

Published

2021

23. Structural Requirements for Dihydrobenzoxazepinone Anthelmintics: Actions against Medically Important and Model Parasites: Trichuris muris, Brugia malayi, Heligmosomoides polygyrus, and Schistosoma mansoni

Author

Helen Whiteland, James O'Sullivan, Karl F. Hoffmann, Josephine Forde-Thomas, Carole J. R. Bataille, Nicky J. Willis, Kathryn J. Else, David B. Sattelle, Frederick A. Partridge, Mark J. Taylor, Cécile Häberli, Andrew Steven, John Archer, Graham Michael Wynne, Jennifer Keiser, Joseph D. Turner, Angela J. Russell, Ruth Forman, Amy E Marriott, and Ria L Dinsdale

Subjects

0301 basic medicine, Trichuris, Trichuriasis, nematode, 030106 microbiology, 030231 tropical medicine, Brugia malayi, Trichuris muris, Article, Microbiology, drug discovery, trematode, 03 medical and health sciences, 0302 clinical medicine, qx_200, parasitic diseases, medicine, qx_203, Animals, Humans, Parasites, Anthelmintic, 030304 developmental biology, Anthelmintics, 0303 health sciences, Nematospiroides dubius, biology, anthelmintic, whipworm, qv_253, Schistosoma mansoni, medicine.disease, biology.organism_classification, wc_850, 3. Good health, 030104 developmental biology, Infectious Diseases, qx_20, Trichuris trichiura, Heligmosomoides polygyrus, Ascaris lumbricoides, medicine.drug

Abstract

Nine hundred million people are infected with the soil-transmitted helminths Ascaris lumbricoides (roundworm), hookworm, and Trichuris trichiura (whipworm). However, low single-dose cure rates of the benzimidazole drugs, the mainstay of preventative chemotherapy for whipworm, together with parasite drug resistance, mean that current approaches may not be able to eliminate morbidity from Trichuriasis. We are seeking to develop new anthelmintic drugs specifically with activity against whipworm as a priority, and previously identified a hit series of dihydrobenzoxazepinone (DHB) compounds that block motility of ex vivo Trichuris muris. Here we report a systematic investigation of the structure-activity relationship of the anthelmintic activity of DHB compounds. We synthesised 47 analogues, which allowed us to define features of the molecules essential for anthelmintic action, as well as broadening the chemotype by identification of dihydrobenzoquinolinones (DBQ) with anthelmintic activity. We investigated the activity of these compounds against other parasitic nematodes, identifying DHB compounds with activity against Brugia malayi and Heligmosomoides polygyrus. We also demonstrated activity of DHB compounds against the trematode Schistosoma mansoni, a parasite that causes schistosomiasis. These results demonstrate the potential of DHB and DBQ compounds for further development as broad-spectrum anthelmintics.Author summaryAround a billion people are infected by the soil transmitted helminths Ascaris, hookworm and whipworm. In the case of whipworm, the benzimidazole drugs, which are distributed to school children in affected areas, have low cure rates. This means that finding an improved treatment for whipworm is a priority. We previously identified five DHB compounds in a screen for new compounds active against whipworm. Here we systematically dissect these molecules, making 47 modified versions of the compounds. This allowed us to define the features of these compounds that are important for activity against whipworm. We also demonstrate activity of DHB compounds against other parasitic nematodes, and against Schistosoma mansoni, a trematode parasite. These results show the potential for further development of DHB compounds as broad-spectrum anthelmintics.

Published

2021

24. Short-course quinazoline drug treatments are effective in the Litomosoides sigmodontis and Brugia pahangi jird models

Author

Christina A. Bulman, Laura Chappell, Brenda T. Beerntsen, Nancy Tricoche, Judy A. Sakanari, Achim Hoerauf, Mark J. Taylor, Marianne Koschel, Denis Voronin, Stefan J. Frohberger, Emma L. Gunderson, Case W. McNamara, Joseph D. Turner, K. C. Lim, Marc P. Hübner, Victor Chi, Alexandra Ehrens, Andrew Steven, William J. Sullivan, Sara Lustigman, H. Michael Petrassi, Ian Vogel, Malina A. Bakowski, Martina Fendler, and Ashley K. Woods

Subjects

0301 basic medicine, Drug, Oral treatment, Brugia pahangi, media_common.quotation_subject, 030231 tropical medicine, Onchocerciasis, Article, lcsh:Infectious and parasitic diseases, Microbiology, 03 medical and health sciences, 0302 clinical medicine, qx_301, parasitic diseases, medicine, qx_203, Animals, lcsh:RC109-216, Pharmacology (medical), Filaria, Symbiosis, Microfilariae, Filarioidea, media_common, Pharmacology, Doxycycline, biology, Quinazoline, Litomosoides sigmodontis, biology.organism_classification, medicine.disease, Anti-Bacterial Agents, Filariasis, 030104 developmental biology, Infectious Diseases, Macrofilaricidal, Quinazolines, Parasitology, Wolbachia, Female, Gerbillinae, medicine.drug, Clearance

Abstract

The quinazolines CBR417 and CBR490 were previously shown to be potent anti-wolbachials that deplete Wolbachia endosymbionts of filarial nematodes and present promising pre-clinical candidates for human filarial diseases such as onchocerciasis. In the present study we tested both candidates in two models of chronic filarial infection, namely the Litomosoides sigmodontis and Brugia pahangi jird model and assessed their long-term effect on Wolbachia depletion, microfilariae counts and filarial embryogenesis 16−18 weeks after treatment initiation (wpt). Once per day (QD) oral treatment with CBR417 (50 mg/kg) for 4 days or twice per day (BID) with CBR490 (25 mg/kg) for 7 days during patent L. sigmodontis infection reduced the Wolbachia load by >99% and completely cleared peripheral microfilaremia from 10–14 wpt. Similarly, 7 days of QD treatments (40 mg/kg) with CBR417 or CBR490 cleared >99% of Wolbachia from B. pahangi and reduced peritoneal microfilariae counts by 93% in the case of CBR417 treatment. Transmission electron microscopy analysis indicated intensive damage to the B. pahangi ovaries following CBR417 treatment and in accordance filarial embryogenesis was inhibited in both models after CBR417 or CBR490 treatment. Suboptimal treatment regimens of CBR417 or CBR490 did not lead to a maintained reduction of the microfilariae and Wolbachia load. In conclusion, CBR417 or CBR490 are pre-clinical candidates for filarial diseases, which achieve long-term clearance of Wolbachia endosymbionts of filarial nematodes, inhibit filarial embryogenesis and clear microfilaremia with treatments as short as 7 days., Graphical abstract Image 1, Highlights • CBR417 and CBR490 provide long-term effects in 2 chronic filaria jird models. • CBR417 and CBR490 deplete >99% Wolbachia in B. pahangi and L. sigmodontis filariae. • CBR417 and CBR490 clear L. sigmodontis microfilariae after 10–14 weeks. • CBR417 and CBR490 inhibit filarial embryogenesis in both models. • Suboptimal doses do not maintain reduction of microfilariae and Wolbachia.

Published

2019

25. X-treme loss of sequence diversity linked to neo-X chromosomes in filarial nematodes

Author

Shailja Misra-Bhattacharya, Andrew R. Moorhead, Lisa Sadzewicz, Darren A. N. Cook, Luke J. Tallon, Robin E. Bromley, Wanpen Chaicumpa, Jeremy M. Foster, Joseph D. Turner, Michelle L. Michalski, Andrew Steven, Benjamin C. Sparklin, Nikhil Kumar, Mohammad Behram Khan, Yee Ling Lau, Matthew Chung, Mark J. Taylor, Julie C. Dunning Hotopp, Silvia Libro, Atiporn Saeung, Ramakrishna U. Rao, John S. Mattick, and Mohd Shahab

Subjects

Nematoda, RC955-962, Genome, Brugia malayi, qx_301, Arctic medicine. Tropical medicine, Invertebrate Genomics, Onchocerca, Brugia Malayi, X chromosome, Genetics, Sex Chromosomes, biology, Ecology, Chromosome Biology, Autosomes, Eukaryota, X Chromosomes, Genomics, wc_850, Infectious Diseases, Public aspects of medicine, RA1-1270, Research Article, Brugia pahangi, X Chromosome, Ecological Metrics, Chromosomes, Helminths, parasitic diseases, Brugia, Animals, Chromosome Aberrations, Genetic diversity, Evolutionary Biology, Genome, Helminth, Autosome, Population Biology, Ecology and Environmental Sciences, Public Health, Environmental and Occupational Health, Organisms, Chromosome, Biology and Life Sciences, Genetic Variation, Species Diversity, Cell Biology, biology.organism_classification, Invertebrates, Animal Genomics, Onchocerca Volvulus, qu_470, Zoology, human activities, Population Genetics

Abstract

The sequence diversity of natural and laboratory populations of Brugia pahangi and Brugia malayi was assessed with Illumina resequencing followed by mapping in order to identify single nucleotide variants and insertions/deletions. In natural and laboratory Brugia populations, there is a lack of sequence diversity on chromosome X relative to the autosomes (πX/πA = 0.2), which is lower than the expected (πX/πA = 0.75). A reduction in diversity is also observed in other filarial nematodes with neo-X chromosome fusions in the genera Onchocerca and Wuchereria, but not those without neo-X chromosome fusions in the genera Loa and Dirofilaria. In the species with neo-X chromosome fusions, chromosome X is abnormally large, containing a third of the genetic material such that a sizable portion of the genome is lacking sequence diversity. Such profound differences in genetic diversity can be consequential, having been associated with drug resistance and adaptability, with the potential to affect filarial eradication., Author summary Almost a billion people receive >7.7 billion doses of treatment aimed at eliminating lymphatic filariasis, which is caused by three filarial nematodes: Wuchereria bancrofti, Brugia malayi, and Brugia timori. Drug resistance and adaptation are both associated with pathogen success as well as higher levels of genetic diversity. In an examination of genetic diversity in Brugia malayi and Brugia pahangi, we observed a lack of genetic diversity over a third of the genome that is found on chromosome X. These species have neo-X chromosomes where a chromosome X fused with an autosome. Using publicly-available published data, the other filarial nematodes of greatest human significance are also found to have a similar lack of genetic diversity on their neo-X chromosomes. The two filarial nematodes with publicly-available data that lack neo-X chromosomes did not have this lack of genetic diversity. This lack of sequence diversity in B. malayi, W. bancrofti, and O. volvulus could have profound effects on all traits encoded on chromosome X.

Published

2021

26. Onchocerca ochengi male worms implanted in SCID mice and Gerbil: Relationship between microfilaridermia status of cows, nodular worm viability and fertility and worm survival in the rodents

Author

Samuel Wanji, Desmond N. Akumtoh, Jerome Fru-Cho, Valerine C. Chunda, Nicolas Pionnier, Mark J. Taylor, Fanny Fri Fombad, Lontum B. Ndzeshang, Haelly M. Metuge, Peter Enyong, Joseph D. Turner, Abdel Jelil Njouendou, Hanna T. Sjoberg, Raphael A. Abong, Mathias E. Esum, Narcisse Victor T. Gandjui, and Manuel Ritter

Subjects

Male, Rodent, O. ochengi, Immunology, Cattle Diseases, Mice, SCID, Biology, Onchocerciasis, wc_885, Article, Andrology, Mice, Macrofilaricide, chemistry.chemical_compound, qx_301, w_20.55, biology.animal, parasitic diseases, medicine, Animals, Parasite hosting, Microfilaridermia, Microfilariae, Murine, qx_4, Histology, Nodule (medicine), Embryo, General Medicine, medicine.disease, Disease Models, Animal, Fertility, Infectious Diseases, chemistry, Multivariate Analysis, Human parasite, Regression Analysis, Cattle, Female, O. volvulus, Parasitology, Onchocerca, medicine.symptom, Gerbillinae

Abstract

Background Current treatment options for onchocerciasis are sub-optimal, prompting research and development of a safe cure (macrofilaricide). Onchocerca ochengi, a parasite of cattle, is used as a close surrogate for the human parasite O. volvulus in a murine model for pre-clinical screening of macrofilaricides. Skin from naturally infected cattle have been used in previous studies as a reliable source of parasite material. However, there is limited knowledge on how source-related factors such as the microfilaridermia status of the cattle, the nodule load and nodular worm viability may affect survival of male O. ochengi worms implanted in the rodent hosts. Such relationships were investigated in this study. Methods Dermal tissue and nodules were obtained from Gudali cattle, dissected and cultured to obtain migrating microfilariae (mf) and male worms. Emerged male worms were implanted into SCID mice and Gerbils (Meriones unguiculatus) and recovery rates were determined upon 42 days post implantation. Finally, nodules were processed for histology and embryogram analyses to assess the nodular worm viability and fertility, respectively. Results Of the 69 cattle sampled, 24 (34.8%) were mf+ and 45 (65.2%) were mf–. The mean nodule loads were 180.5 ± 117.7 (mf+) and 110.6 ± 102.7 (mf-) (p = 0.0186). The mean male worm harvest from nodules were 76.8 ± 120.3 and 47.2 ± 33.4 (p = 0.2488) for mf+ and mf– cattle, respectively. The number of male worms per 100 nodules were 57/100 and 46/100 nodules for mf+ and mf– cows, respectively. Female worms from nodules of mf– cows had higher counts of both normal and abnormal embryos with higher proportions of dead nodular worms evinced by histology compared to those from mf+ cows. A total of 651 worms were implanted into mice and gerbils, out of which 129 (19.81%) were recovered. Logistic regression analysis indicated that the microfilaridermia status of the cattle (presence of mf) (OR = 4.3319; P = 0.001) is the single most important predictor of the success of male worm recovery after implantation into rodents. Conclusion Microfilaridermic cattle provide a promising source of adult O. ochengi. Male worms from this group of cattle have a better success rate of survival in a murine implant model. Nevertheless, in the programmatic point of view, amicrofilaridermic Gudali cattle would still constitute an important source of O. ochengi male worms with relatively good viability after implantation into rodents., Graphical abstract Image 1, Highlights • There is a need of developing safe macrofilaricide for human onchocerciasis using cattle Onchocerca ochengi. • Skin from naturally infected cattle have been used as a reliable parasite source for development of murine pre-clinical screening models. • The role of source-related factors on O. ochengi production and the success of pre-clinical screening models is assessed. • Worms from positive microfilaridermic cattle are successfully recovered after their implantation into rodents.

Published

2021

27. Channel crossings: offshoring asylum and the afterlife of empire in the Dover Strait

Author

Lucy Mayblin, Joseph D. Turner, Arshad Isakjee, and Thom Davies

Subjects

Cultural Studies, History, Sociology and Political Science, Geography, Refugee, media_common.quotation_subject, 05 social sciences, 0507 social and economic geography, Appeal, Empire, Context (language use), Calais, borders, Colonialism, asylum, 0506 political science, Scholarship, State (polity), Political economy, Anthropology, 050602 political science & public administration, 050703 geography, Migration, media_common

Abstract

In 2020, over 8,400 people made their way from France to the UK coast using small vessels. They did so principally in order to claim asylum in the United Kingdom (UK). Much like in other border-zones, the UK state has portrayed irregular Channel crossings as an invading threat and has deployed a militarized response. While there is burgeoning scholarship focusing on informal migrant camps in the Calais area, there has been little analysis of state responses to irregular Channel crossings. This article begins to address this gap, situating contemporary British responses to irregular Channel crossers within the context of colonial histories and maritime legacies. We focus particularly on the enduring appeal of “the offshore” as a place where undesirable racialized populations can be placed. Our aim is to offer a historicized perspective on this phenomenon which seeks to respond to calls to embed colonial histories in analyses of the present.

Published

2021

28. Tetracyclines improve experimental lymphatic filariasis pathology by disrupting interleukin-4 receptor–mediated lymphangiogenesis

Author

John Archer, Mark J. Taylor, Amy E Marriott, Young-Kwon Hong, Julio Furlong-Silva, Joseph D. Turner, Andrew Steven, Stephen D Cross, Nicolas Pionnier, Stefan Schulte Merker, and Matthias Mack

Subjects

Male, 0301 basic medicine, T-Lymphocytes, qs_20_5, Inflammation, Adaptive Immunity, Monocytes, Brugia malayi, Mice, 03 medical and health sciences, Elephantiasis, Filarial, 0302 clinical medicine, Cell Movement, medicine, Animals, Lymphangiogenesis, Lymphatic filariasis, Mice, Knockout, Infectious disease, Mice, Inbred BALB C, biology, business.industry, Monocyte, qs_18, General Medicine, medicine.disease, biology.organism_classification, Acquired immune system, Th2 response, Receptors, Interleukin-4, 3. Good health, Endothelial stem cell, 030104 developmental biology, medicine.anatomical_structure, Lymphatic system, Tetracyclines, 030220 oncology & carcinogenesis, Cancer research, Parasitology, Lymph, medicine.symptom, business, Research Article

Abstract

Lymphatic filariasis is the major global cause of nonhereditary lymphedema. We demonstrate that the filarial nematode Brugia malayi induced lymphatic remodeling and impaired lymphatic drainage following parasitism of limb lymphatics in a mouse model. Lymphatic insufficiency was associated with elevated circulating lymphangiogenic mediators, including vascular endothelial growth factor C. Lymphatic insufficiency was dependent on type 2 adaptive immunity, the interleukin-4 receptor, and recruitment of C-C chemokine receptor-2-positive monocytes and alternatively activated macrophages with a prolymphangiogenic phenotype. Oral treatments with second-generation tetracyclines improved lymphatic function, while other classes of antibiotic had no significant effect. Second-generation tetracyclines directly targeted lymphatic endothelial cell proliferation and modified type 2 prolymphangiogenic macrophage development. Doxycycline treatment impeded monocyte recruitment, inhibited polarization of alternatively activated macrophages, and suppressed T cell adaptive immune responses following infection. Our results determine a mechanism of action for the antimorbidity effects of doxycycline in filariasis and support clinical evaluation of second-generation tetracyclines as affordable, safe therapeutics for lymphedemas of chronic inflammatory origin.

Published

2021

29. Sequential infection with influenza A virus followed by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) leads to more severe disease and encephalitis in a mouse model of COVID-19

Author

Parul Sharma, Krishanthi Subramaniam, Andrew D. Davidson, Lance Turtle, Jo Sharp, Tessa Prince, Grant L. Hughes, Shaun H. Pennington, James P. Stewart, Maia Kavanagh Williamson, Julian Alexander Hiscox, Lynn McLaughlin, Jordan J. Clark, Andrew Owen, Giancarlo A. Biagini, Edward I Patterson, Rebekah Penrice-Randal, Amy E Marriott, David A. Matthews, Joseph D. Turner, En-Min Zhou, Ghada Shawli, Anja Kipar, Xiaofeng Dong, and Stefano A P Colombo

Subjects

Genetically modified mouse, Lung, business.industry, viruses, medicine.disease, medicine.disease_cause, Virology, Virus, medicine.anatomical_structure, Pandemic, medicine, Influenza A virus, Respiratory system, business, Encephalitis, Coronavirus

Abstract

COVID-19 is a spectrum of clinical symptoms in humans caused by infection with SARS-CoV-2, a recently emerged coronavirus that rapidly caused a pandemic. Coalescence of this virus with seasonal respiratory viruses, particularly influenza virus is a global health concern. To investigate this, transgenic mice expressing the human ACE2 receptor driven by the epithelial cell cytokeratin-18 gene promoter (K18-hACE2) were first infected with IAV followed by SARS-CoV-2. The host response and effect on virus biology was compared to K18-hACE2 mice infected with IAV or SARS-CoV-2 only. Infection of mice with each individual virus resulted in a disease phenotype compared to control mice. Although SARS-CoV-2 RNA synthesis appeared significantly reduced in the sequentially infected mice, they exhibited more rapid weight loss, more severe lung damage and a prolongation of the innate response compared to singly infected or control mice. The sequential infection also exacerbated the extrapulmonary encephalitic manifestations associated with SARS-CoV-2 infection. Conversely, prior infection with a commercially available, multivalent live-attenuated influenza vaccine (Fluenz tetra) elicited the same reduction in SARS-CoV-2 RNA synthesis albeit without the associated increase in disease severity. This suggests that the innate immune response stimulated by infection with IAV is responsible for the observed inhibition of SARS-CoV-2, however, infection with attenuated, apathogenic influenza vaccine does not result in an aberrant immune response and enhanced disease severity. Taken together, the data suggest that the concept of ‘twinfection’ is deleterious and mitigation steps should be instituted as part of a comprehensive public health response to the COVID-19 pandemic.

Published

2020

30. Generation of Loa loa infective larvae by experimental infection of the vector, Chrysops silacea

Author

Manuel Ritter, Abdel Jelil Njouendou, Fanny Fri Fombad, Achim Hoerauf, Nicolas Pionnier, Andrew Steven, Lontum B. Ndzeshang, Samuel Wanji, Joseph D. Turner, Desmond N. Akumtoh, Valerine C. Chunda, Mark J. Taylor, Laura E. Layland, Patrick W. N. Chounna, and Narcisse Victor T. Gandjui

Subjects

Male, 0301 basic medicine, Life Cycles, Veterinary medicine, Nematoda, Physiology, RC955-962, Molting, Disease Vectors, Loa Loa, Loa, Mice, Larvae, Medical Conditions, 0302 clinical medicine, Arctic medicine. Tropical medicine, Abdomen, Medicine and Health Sciences, Microfilariae, Mice, Knockout, Larva, Eukaryota, Animal Models, Thorax, wc_850, wc_695, Survival Rate, Infectious Diseases, Experimental Organism Systems, Female, Anatomy, Public aspects of medicine, RA1-1270, Loa loa, Moulting, Research Article, wc_20, wc_880, 030231 tropical medicine, Mouse Models, Biology, Research and Analysis Methods, 03 medical and health sciences, Model Organisms, Loiasis, parasitic diseases, Parasitic Diseases, medicine, Animals, Humans, Survival rate, Life Cycle Stages, Host (biology), Inoculation, Diptera, fungi, Organisms, Public Health, Environmental and Occupational Health, Biology and Life Sciences, medicine.disease, biology.organism_classification, Invertebrates, Vector-Borne Diseases, Mice, Inbred C57BL, Disease Models, Animal, 030104 developmental biology, Nematode infection, Vector (epidemiology), Animal Studies, Physiological Processes, Zoology, Developmental Biology

Abstract

Basic and translational research on loiasis, a filarial nematode infection of medical importance, is impeded by a lack of suitable Loa loa infection models and techniques of obtaining and culturing life cycle stages. We describe the development of a new method for routine production of infective third-stage larvae (L3) of L. loa from the natural intermediate arthropod vector host, Chrysops silacea, following experimental infection with purified microfilariae. At 14-days post-infection of C. silacea, the fly survival rate was 43%. Survival was significantly higher in flies injected with 50 mf (55.2%) than those that received 100 mf (31.0%). However, yield per surviving fly and total yield of L3 was markedly higher in the group of flies inoculated with 100 mf (3474 vs 2462 L3 produced). The abdominal segment hosted the highest percentage recovery of L3 (47.7%) followed by head (34.5%) and thorax (17.9%). L. loa larval survival was higher than 90% after 30 days of in vitro culture. The in vitro moulting success rate to the L4 larval stage was 59.1%. After experimental infection of RAG2-/-IL-2γc-/—mice, the average L. loa juvenile adult worm recovery rate was 10.5% at 62 dpi. More than 87% of the worms were recovered from the muscles and subcutaneous tissues. Worms recovered measured an average 24.3 mm and 11.4 mm in length for females (n = 5) and males (n = 5), respectively. In conclusion, L. loa mf injected into C. silacea intrathoracically develop into infective larvae that remain viable and infective comparable to L3 obtained through natural feeding on the human host. This technique further advances the development of a full laboratory life cycle of L. loa where mf derived from experimentally-infected animals may be utilized to passage life cycle generations via intrathoracic injections of wild-caught vector hosts., Author summary The Neglected Tropical Disease, loiasis (tropical eye worm disease) affects 13–15 million individuals in Central Africa. Loiasis has recently been identified as a cause of premature mortality and is a barrier to ivermectin-based elimination of onchocerciasis or lymphatic filariasis where co-infections occur, due to the risk of serious adverse events. Loiasis lacks laboratory preclinical models for drug development, biomarker discovery and inflammatory pathology research. Here we detail the successful development of an experimental technique for the laboratory production of Loa loa infective larvae via injection of purified microfilariae into the thorax of wild-caught tabanid flies that are the natural transmission vector. The high yielding infective larvae produced in the laboratory were validated as biologically viable in culture and in a new mouse infection model whereby adult-stage parasites could be produced. The evidence reported herein is an important step to establishing a full laboratory life cycle of L. loa by passage between animal models and experimental injections of the wild-caught vector, Chrysops.

Published

2020

31. Eosinophil-Mediated Immune Control of Adult Filarial Nematode Infection Can Proceed in the Absence of IL-4 Receptor Signaling

Author

Nicolas Pionnier, Julio Furlong-Silva, Hanna T. Sjoberg, Alice Halliday, Amy E Marriott, John Archer, Andrew Steven, Joseph D. Turner, and Mark J. Taylor

Subjects

wh_200, wc_880, medicine.medical_treatment, Receptors, CCR3, Immunology, Innate Immunity and Inflammation, Context (language use), Receptors, Cell Surface, Brugia malayi, 03 medical and health sciences, Mice, 0302 clinical medicine, Th2 Cells, Immunity, medicine, Immunology and Allergy, Eosinophilia, Macrophage, Animals, Mice, Knockout, Mice, Inbred BALB C, Interleukin-13, biology, Eosinophil, biochemical phenomena, metabolism, and nutrition, medicine.disease, biology.organism_classification, wc_850, Filariasis, Eosinophils, medicine.anatomical_structure, Cytokine, Nematode infection, Interleukin-4, medicine.symptom, Interleukin-5, Gerbillinae, 030215 immunology

Abstract

Key Points Immunity to chronic filarial worm infection is apparent in IL-4Rα–deficient mice. Delayed immunity in IL-4Rα−/− mice is due to suboptimal tissue eosinophilia. Eosinophil recruitment in the absence of IL-4R signaling requires CCR3 and IL-5., Helminth infections are accompanied by eosinophilia in parasitized tissues. Eosinophils are effectors of immunity to tissue helminths. We previously reported that in the context of experimental filarial nematode infection, optimum tissue eosinophil recruitment was coordinated by local macrophage populations following IL-4R–dependent in situ proliferation and alternative activation. However, in the current study, we identify that control of chronic adult filarial worm infection is evident in IL-4Rα–deficient (IL-4Rα−/−) mice, whereby the majority of infections do not achieve patency. An associated residual eosinophilia was apparent in infected IL-4Rα−/− mice. By treating IL-4Rα−/− mice serially with anti-CCR3 Ab or introducing a compound deficiency in CCR3 within IL-4Rα−/− mice, residual eosinophilia was ablated, and susceptibility to chronic adult Brugia malayi infection was established, promoting a functional role for CCR3-dependent eosinophil influx in immune control in the absence of IL-4/IL-13–dependent immune mechanisms. We investigated additional cytokine signals involved in residual eosinophilia in the absence IL-4Rα signaling and defined that IL-4Rα−/−/IL-5−/− double-knockout mice displayed significant eosinophil deficiency compared with IL-4Rα−/− mice and were susceptible to chronic fecund adult filarial infections. Contrastingly, there was no evidence that either IL-4R–dependent or IL-4R–independent/CCR3/IL-5–dependent immunity influenced B. malayi microfilarial loads in the blood. Our data demonstrate multiplicity of Th2-cytokine control of eosinophil tissue recruitment during chronic filarial infection and that IL-4R–independent/IL-5– and CCR3-dependent pathways are sufficient to control filarial adult infection via an eosinophil-dependent effector response prior to patency.

Published

2020

32. Factors Contributing to Persistence of Onchocerciasis Transmission and Skin Disease Following Fifteen Ivermectin Mass Drug Administrations: A Parasitological, Dermatological and Social-Science Mixed-Methods Analysis

Author

Armelle Forrer, Samuel Teghen, Sally Theobald, Raphael A. Abong, Dum-Buo Nnamdi, Bertrand L. Ndzeshang, Elisabeth Dibando Obie, Desmond Akumtoh Nkimbeng, Michele E. Murdoch, Esum Mathias Eyong, Helen Piotrowski, Samuel Wanji, Relindis Ekanya, Rachael Thomson, Ebua Gallus Fung, Kim Ozano, Patrick W. Chounna Ndongmo, Andrew Amuam, Peter Enyong, Anicetus Suireng, Abdel Jelil Njouendou, Joseph D. Turner, Laura Dean, Mark J. Taylor, Ernestine Ebot Ashu, Theobald Mue Nji, Louise Hamill, and Emmanuel Kah

Subjects

Research ethics, medicine.medical_specialty, business.industry, Public health, Disease, medicine.disease, Ivermectin, Environmental health, Informed assent, medicine, Parental consent, Adverse effect, Onchocerciasis, business, medicine.drug

Abstract

Background: Onchocerciasis is targeted for elimination with annual community-directed treatment with ivermectin (CDTi). High infection levels were reported in South-West Cameroon, despite ≥ 15 years of CDTi. Methods: A large-scale cross-sectional study was conducted in 2017 in 20 communities in a loiasis-risk area in South-West Cameroon. A mixed-methods approach was used to evaluate factors associated with continued transmission and skin disease. Associations between infection levels, skin disease and adherence to CDTi were assessed using mixed regression modelling. Different community members’ perception and acceptability of the CDTi strategy was explored using semi-structured interviews. Results: Onchocerciasis prevalence was 44·4% among 9,456 participants. 5·9% of adults participated in ≥ 75% of CDTi rounds and 17·5% were systematic non-adherers. Skin disease affected 1/10 participants, including children. Increasing self-reported adherence to CDTi was associated with lower infection levels in participants aged ≥ 15 years but not in children. Adherence to CDTi was negatively influenced by fear of adverse events linked with economic loss and concern of lethal adverse events, and positively influenced by perceived health benefits. Interpretation: High onchocerciasis prevalence and morbidity still occur in South-West Cameroon, including among children born in the CDTi era. Because non-adherence is mostly due to community perception of ivermectin-related adverse events, including death and lack of perceived health benefit, CDTi alone is unlikely to achieve elimination in this area of high transmission. Alternative strategies are needed for onchocerciasis elimination where negative perception of ivermectin is an entrenched barrier to community participation in programmes. Funding Statement: Department for International Development, UK. Declaration of Interests: The authors declare no competing interests. Ethics Approval Statement: This protocol was reviewed and approved by the Liverpool School of Tropical Medicine Research Ethics Committee (reference: 16-027), the Cameroonian National Ethics Committee for Research on Human Health (approval no. 2016/11/838/CE/CNERSH/SP), and the Division of Health Operations Research within the Cameroonian Ministry of Public Health (approval no. 631-03·17). All censused individuals were explained the objectives and procedures of the intervention study. Informed assent was obtained from children and adolescents aged under 18 years with parental consent, and consent was provided by all adult participants.

Published

2020

33. The insufficiency of circulating miRNA and DNA as diagnostic tools or as biomarkers of treatment efficacy for Onchocerca volvulus

Author

Shannon Quek, Cara L. Macfarlane, Simon C. Wagstaff, Nicolas Pionnier, Joseph D. Turner, Mark J. Taylor, and Samuel Wanji

Subjects

0301 basic medicine, Adult, Male, 030231 tropical medicine, lcsh:Medicine, Diseases, Onchocerciasis, Genome, Article, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Ivermectin, parasitic diseases, medicine, Animals, Humans, Parasites, Circulating MicroRNA, lcsh:Science, Doxycycline, Multidisciplinary, biology, integumentary system, business.industry, lcsh:R, DNA, biology.organism_classification, medicine.disease, Onchocerca volvulus, Volvulus, 030104 developmental biology, Treatment Outcome, chemistry, Immunology, Nucleic acid, lcsh:Q, business, Biomarkers, medicine.drug

Abstract

Skin snip evaluation for onchocerciasis has insufficient sensitivity when skin microfilarial (mf) densities are low, such as following ivermectin treatment. Mf density is suitable for assessing microfilaricidal efficacy but only serves as an indirect indicator of macrofilaricidal activity. We assessed circulating nucleic acids from Onchocerca volvulus as an alternative to skin snips. We screened a plasma sample set of infected individuals followed up at four, 12 and 21 months after microfilaricidal (ivermectin, n = four), macrofilaricidal (doxycycline, n = nine), or combination treatment (n = five). Two parasite-derived miRNAs, cel-miR-71-5p and bma-lin-4, and O-150 repeat DNA were assessed. Highly abundant DNA repeat families identified in the O. volvulus genome were also evaluated. miRNAs were detected in two of 72 plasma samples (2.8%) and two of 47 samples (4.3%) with microfilaridermia using RT-qPCR. O-150 DNA was detected in eight (44.4%) baseline samples by qPCR and the number of positives declined post-treatment. One doxycycline-treated individual remained O-150 positive. However, only 11 (23.4%) samples with microfilaridermia were qPCR-positive. Analysis by qPCR showed novel DNA repeat families were comparatively less abundant than the O-150 repeat. Circulating parasite-derived nucleic acids are therefore insufficient as diagnostic tools or as biomarkers of treatment efficacy for O. volvulus.

Published

2019

34. Macrofilaricidal activity after doxycycline only treatment of Onchocerca volvulus in an area of Loa loa co-endemicity: a randomized controlled trial.

Author

Joseph D Turner, Nicholas Tendongfor, Mathias Esum, Kelly L Johnston, R Stuart Langley, Louise Ford, Brian Faragher, Sabine Specht, Sabine Mand, Achim Hoerauf, Peter Enyong, Samuel Wanji, and Mark J Taylor

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

The risk of severe adverse events following treatment of onchocerciasis with ivermectin in areas co-endemic with loiasis currently compromises the development of control programmes and the treatment of co-infected individuals. We therefore assessed whether doxycycline treatment could be used without subsequent ivermectin administration to effectively deliver sustained effects on Onchocerca volvulus microfilaridermia and adult viability. Furthermore we assessed the safety of doxycycline treatment prior to ivermectin administration in a subset of onchocerciasis individuals co-infected with low to moderate intensities of Loa loa microfilaraemia.A double-blind, randomized, field trial was conducted of 6 weeks of doxycycline (200 mg/day) alone, doxycycline in combination with ivermectin (150 microg/kg) at +4 months or placebo matching doxycycline + ivermectin at +4 months in 150 individuals infected with Onchocerca volvulus. A further 22 individuals infected with O. volvulus and low to moderate intensities of Loa loa infection were administered with a course of 6 weeks doxycycline with ivermectin at +4 months. Treatment efficacy was determined at 4, 12 and 21 months after the start of doxycycline treatment together with the frequency and severity of adverse events.One hundred and four (60.5%) participants completed all treatment allocations and follow up assessments over the 21-month trial period. At 12 months, doxycycline/ivermectin treated individuals had lower levels of microfilaridermia and higher frequency of amicrofilaridermia compared with ivermectin or doxycycline only groups. At 21 months, microfilaridermia in doxycycline/ivermectin and doxycycline only groups was significantly reduced compared to the ivermectin only group. 89% of the doxycycline/ivermectin group and 67% of the doxycycline only group were amicrofilaridermic, compared with 21% in the ivermectin only group. O. volvulus from doxycycline groups were depleted of Wolbachia and all embryonic stages in utero. Notably, the viability of female adult worms was significantly reduced in doxycycline treated groups and the macrofilaricidal and sterilising activity was unaffected by the addition of ivermectin. Treatment with doxycycline was well tolerated and the incidence of adverse event to doxycycline or ivermectin did not significantly deviate between treatment groups.A six-week course of doxycycline delivers macrofilaricidal and sterilizing activities, which is not dependent upon co-administration of ivermectin. Doxycycline is well tolerated in patients co-infected with moderate intensities of L. loa microfilariae. Therefore, further trials are warranted to assess the safety and efficacy of doxycycline-based interventions to treat onchocerciasis in individuals at risk of serious adverse reactions to standard treatments due to the co-occurrence of high intensities of L. loa parasitaemias. The development of an anti-wolbachial treatment regime compatible with MDA control programmes could offer an alternative to the control of onchocerciasis in areas of co-endemicity with loiasis and at risk of severe adverse reactions to ivermectin.Controlled-Trials.com ISRCTN48118452.

Published

2010

35. Comparison of immune responses to Loa loa stage-specific antigen extracts in Loa loa-exposed BALB/c mice upon clearance of infection

Author

Mark J. Taylor, Samuel Wanji, Joseph D. Turner, Fanny Fri Fombad, Mathias E. Esum, Narcisse Victor T. Gandjui, Ayukenchengamba Bate, Achim Hoerauf, Manuel Ritter, Patrick W. Chounna Ndongmo, Valerine C. Chunda, Abdel Jelil Njouendou, and Laura E. Layland

Subjects

0301 basic medicine, Chemokine, Loa, Mice, 0302 clinical medicine, Larvae, Microfilariae, Mice, Inbred BALB C, biology, Neglected Diseases, Loa loa antigen extract, Infectious Diseases, Larva, Chemokine secretion, Cytokines, Antibody, Chemokines, Loa loa, Recall immune responses, Adult worms, wc_880, 030231 tropical medicine, Immunoglobulins, BALB/c, lcsh:Infectious and parasitic diseases, 03 medical and health sciences, Immune system, Loiasis, Th2 Cells, Antigen, Immunity, parasitic diseases, Animals, Humans, lcsh:RC109-216, qy_4, Life Cycle Stages, qw_573, Diptera, Research, Re-stimulation, biology.organism_classification, Immunity, Humoral, Insect Vectors, 030104 developmental biology, Antigens, Helminth, Immunology, biology.protein, Th17 Cells, Parasitology

Abstract

Background Different immune mechanisms are capable of killing developmental stages of filarial nematodes and these mechanisms are also likely to vary between the primary and a challenge infection. However, the lack of a detailed analysis of cytokine, chemokine and immunoglobulin levels in human loiasis is still evident. Therefore, detailed analysis of immune responses induced by the different developmental stages of Loa loa in immune-competent BALB/c mice will aid in the characterization of distinct immune responses that are important for the immunity against loiasis. Methods Different developmental stages of L. loa were obtained from human peripheral blood (microfilariae, MF), the transmitting vector, Chrysops (larval stage 3, L3) and infected immune-deficient BALB/cRAG2γc−/− mice (L4, L5, adult worms). Groups of wildtype BALB/c mice were then injected with the isolated stages and after 42 days post-infection (pi), systemic cytokine, chemokine and immunoglobulin levels were determined. These were then compared to L. loa-specific responses from in vitro re-stimulated splenocytes from individual mice. All parameters were determined using Luminex technology. Results In a pilot study, BALB/c mice cleared the different life stages of L. loa within 42 days pi and systemic cytokine, chemokine and immunoglobulin levels were equal between infected and naive mice. Nevertheless, L. loa-specific re-stimulation of splenocytes from mice infected with L5, MF or adult worms led to induction of Th2, Th17 and chemokine secretion patterns. Conclusions This study shows that although host immunity remains comparable to naive mice, clearance of L. loa life-cycle development stages can induce immune cell memory leading to cytokine, chemokine and immunoglobulins secretion patterns which might contribute to immunity and protection against reinfection.

Published

2019

36. In vitro maintenance of Mansonella perstans microfilariae and its relevance for drug screening

Author

Samuel Wanji, Fanny Fri Fombad, Laura E. Layland, Narcisse Victor T. Gandjui, Joseph D. Turner, Manuel Ritter, Chi Anizette Kien, Kenneth Pfarr, Mathias E. Esum, Achim Hoerauf, Flobert Njiokou, Abdel Jelil Njouendou, Winston Patrick Chounna Ndongmo, and Peter Enyong

Subjects

0301 basic medicine, Movement, 030231 tropical medicine, Immunology, Artesunate, Cell Line, Andrology, 03 medical and health sciences, chemistry.chemical_compound, Antimalarials, 0302 clinical medicine, Immune system, medicine, Animals, Mansonella perstans, Survival rate, Microfilariae, Ivermectin, biology, Mefloquine, Antinematodal Agents, Amodiaquine, General Medicine, Haplorhini, 030108 mycology & parasitology, Mansonella, biology.organism_classification, Culture Media, Infectious Diseases, Filaricides, chemistry, Cell culture, Area Under Curve, Parasitology, Cattle, Rifampin, Loa loa, Fetal bovine serum, medicine.drug

Abstract

Background Mansonellosis arises from infections with threadlike filarial nematodes in millions of individuals, especially in sub-Saharan Africa. Since infections present no overt clinical symptoms but attenuate immune responses that might lead to increased susceptibility and worsened disease course of concomitant infections, it is truly a neglected tropical disease. Nevertheless, only few studies focus on identifying suitable safe drugs for its control and little is known about the requirements for in vitro maintenance of the Mansonella perstans transmission stage. This study, therefore, evaluated the survival of M. perstans microfilariae (mf) using in vitro conditions that have been shown to promote survival of Loa loa, a closely related filarial nematode. Furthermore, the in vitro microfilaricidal effect of 15 agents was assessed on this helminth. Methods The ability of two basic culture media; Dulbecco's Modified Eagle's Medium (DMEM) and Roswell Park Memorial Institute (RPMI-1640) supplemented with 10% fetal bovine serum (FBS) and a monkey kidney epithelial cell line (LLC-MK2) to support the survival of M. perstans microfilariae was investigated. Subsequently, 6 anti-helminthics, 5 anti-malarials, 1 anti-microbacterial, 2 trypanocidals and 1 anti-cancer agent were tested in vitro against mf. The suitability of the culture media as well as the effect of the anti-infective agents on mf survival was assessed by scoring their motility. Results FBS supplement and additional LLC-MK2 cells significantly improved the survival of mf in DMEM and RPMI-1640 culture. In detail, RPMI-1640 supplemented with 10% FBS and LLC-MK2 cells sustained the maintenance of mf for at least 20 days (100.00 ± 0.00% survival). In co-cultures with LLC-MK2 cells without serum, M. perstans mf were maintained in DMEM and RPMI-1640 medium with a motility above 99% by day 5. Mefloquine displayed the highest microfilaricidal effect in vitro followed by artesunate. Conclusion Both RPMI and DMEM in the presence of LLC-MK2 cells are suitable for the maintenance of M. perstans mf in vitro. In absence of the feeder cells, the addition of 10% FBS to RPMI-1640 medium improved the parasite survival rate and motility. The microfilaricidal activity of mefloquine and artesunate on M. perstans mf was documented for the first time in this study and can therefore be considered as reference for further screening of agents against this parasite stage.

Published

2019

37. Implementation of test-and-treat with doxycycline and temephos ground larviciding as alternative strategies for accelerating onchocerciasis elimination in an area of loiasis co-endemicity: the COUNTDOWN consortium multi-disciplinary study protocol

Author

Ebua Gallus Fung, Kim Ozano, Michele E. Murdoch, Samuel Wanji, Desmond Akumtoh Nkimbeng, Maame Esi Woode, Winston Patrick Chounna Ndongmo, Elisabeth Dibando Obie, Louis W. Niessen, Helen Piotrowski, Victoria Watson, Louise Hamill, Emmanuel Kah, Armelle Forrer, Rachael Thomson, Samuel Teghen, Joseph D. Turner, Zakariaou Njoumemi, Raphael A. Abong, Mark J. Taylor, Peter Enyong, Abdel Jelil Njouendou, Sally Theobald, Jahangir A. M. Khan, Dum Buo Nnamdi, Andrew Amuam, Bertrand L. Ndzeshang, Relindis Ekanya, Laura Dean, and Theobald Mue Nji

Subjects

Insecticides, Psychological intervention, Onchocerciasis, 0302 clinical medicine, Ivermectin, Prevalence, Simuliidae, 030212 general & internal medicine, Onchocerca, Cameroon, Anthelmintics, biology, Onchodermatitis, wc_850, wc_695, Infectious Diseases, Doxycycline, Neglected tropical diseases, Public Health, Loa loa, Temefos, Wolbachia, medicine.drug, 030231 tropical medicine, Multi-disciplinary, Vector Control, wc_885, World Health Organization, lcsh:Infectious and parasitic diseases, NTD Elimination, 03 medical and health sciences, Loiasis, Environmental health, medicine, Animals, Humans, lcsh:RC109-216, Disease Eradication, Temephos, Research, Health Plan Implementation, Tropical disease, qv_350, Patient Acceptance of Health Care, biology.organism_classification, medicine.disease, wa_243, Vector (epidemiology), Feasibility Studies, Abate, Parasitology, ww_100

Abstract

BackgroundOnchocerciasis is a priority neglected tropical disease targeted for elimination by 2025. The standard strategy to combat onchocerciasis is annual Community-Directed Treatment with ivermectin (CDTi). Yet, high prevalence rates and transmission persist following > 12 rounds in South-West Cameroon. Challenges include programme coverage, adherence to, and acceptability of ivermectin in an area ofLoa loaco-endemicity. Loiasis patients harbouring heavy infections are at risk of potentially fatal serious adverse events following CDTi. Alternative strategies are therefore needed to achieve onchocerciasis elimination where CDTi effectiveness is suboptimal.Methods/designWe designed an implementation study to evaluate integrating World Health Organisation-endorsed alternative strategies for the elimination of onchocerciasis, namely test-and-treat with the macrofilaricide, doxycycline (TTd), and ground larviciding for suppression of blackfly vectors with the organophosphate temephos. A community-based controlled before-after intervention study will be conducted among > 2000 participants in 20 intervention (Meme River Basin) and 10 control (Indian River Basin) communities. The primary outcome measure isO. volvulusprevalence at follow-up 18-months post-treatment. The study involves four inter-disciplinary components: parasitology, entomology, applied social sciences and health economics. Onchocerciasis skin infection will be diagnosed by skin biopsy andLoa loainfection will be diagnosed by parasitological examination of finger-prick blood samples. A simultaneous clinical skin disease assessment will be made. Eligible skin-snip-positive individuals will be offered directly-observed treatment for 5 weeks with 100 mg/day doxycycline. Transmission assessments of onchocerciasis in the communities will be collected post-human landing catch of the local biting blackfly vector prior to ground larviciding with temephos every week (0.3 l/m3) until biting rate falls below 5/person/day. Qualitative research, including in-depth interviews and focus-group discussions will be used to assess acceptability and feasibility of the implemented alternative strategies among intervention recipients and providers. Health economics will assess the cost-effectiveness of the implemented interventions.ConclusionsUsing a multidisciplinary approach, we aim to assess the effectiveness of TTd, alone or in combination with ground larviciding, following a single intervention round and scrutinise the acceptability and feasibility of implementing at scale in similar hotspots of onchocerciasis infection, to accelerate onchocerciasis elimination.

Published

2019

38. Discovery of short-course antiwolbachial quinazolines for elimination of filarial worm infections

Author

Hanna T. Sjoberg, Mark J. Taylor, Bertrand L. Ndzeshang, William J. Sullivan, Mitchell V. Hull, Franziska Lenz, Wen Xiong, Case W. McNamara, Haelly M. Metuge, Nicolas Pionnier, Kelli Kuhen, Stefan J. Frohberger, Ashley K. Woods, Samuel Wanji, Laura Chappell, Frédéric Landmann, Xin-Jie Chu, Joseph D. Turner, Tayong Dizzle Bita Kwenti, Alain Debec, Achim Hoerauf, Bettina Dubben, Jason Roland, Matt S. Tremblay, Narcisse Victor T. Gandjui, Peter G. Schultz, Arnab K. Chatterjee, Jason Olejniczak, Baiyuan Yang, Patrick W. N. Chounna, Fanny Fri Fombad, Andrew Steven, Roohollah Kazem Shiroodi, Dominique Struever, Malina A. Bakowski, Sean B. Joseph, Renhe Liu, H. Michael Petrassi, Kerstin Mae Gagaring, John Archer, Emma A Murphy, Pamela M. White, Desmond N. Akumtoh, Valerine C. Chunda, Abdel Jelil Njouendou, Marc P. Hübner, Hui Guo, Alexandra Ehrens, Department of Chemistry and Biochemistry, San Diego, San Diego State University (SDSU), Institut Jacques Monod (IJM (UMR_7592)), Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS), Centre de recherche en Biologie Cellulaire (CRBM), Université Montpellier 2 - Sciences et Techniques (UM2)-Centre National de la Recherche Scientifique (CNRS)-Université de Montpellier (UM)-Université Montpellier 1 (UM1), University Hospital Bonn, Laboratoire de Tribologie et Dynamique des Systèmes (LTDS), École Centrale de Lyon (ECL), Université de Lyon-Université de Lyon-École Nationale des Travaux Publics de l'État (ENTPE)-Ecole Nationale d'Ingénieurs de Saint Etienne-Centre National de la Recherche Scientifique (CNRS), National Center for Biotechnology Information (NCBI), University of Manchester [Manchester], California Institute for Biomedical Research - calibr, Scripps Research Institute, Wuhan National Laboratory for Optoelectronics, Huazhong University of Science and Technology [Wuhan] (HUST), Sandia National Laboratories [Albuquerque] (SNL), and Sandia National Laboratories - Corporation

Subjects

0301 basic medicine, Brugia pahangi, [SDV]Life Sciences [q-bio], 030231 tropical medicine, Brugia malayi, Small Molecule Libraries, 03 medical and health sciences, Mice, 0302 clinical medicine, In vivo, parasitic diseases, Drug Discovery, medicine, Animals, Filarioidea, ComputingMilieux_MISCELLANEOUS, Doxycycline, biology, General Medicine, biology.organism_classification, Virology, In vitro, 3. Good health, Anti-Bacterial Agents, Filariasis, High-Throughput Screening Assays, Disease Models, Animal, 030104 developmental biology, Phenotype, Quinazolines, Wolbachia, Female, Loa loa, Ex vivo, medicine.drug

Abstract

Parasitic filarial nematodes cause debilitating infections in people in resource-limited countries. A clinically validated approach to eliminating worms uses a 4- to 6-week course of doxycycline that targetsWolbachia, a bacterial endosymbiont required for worm viability and reproduction. However, the prolonged length of therapy and contraindication in children and pregnant women have slowed adoption of this treatment. Here, we describe discovery and optimization of quinazolines CBR417 and CBR490 that, with a single dose, achieve >99% elimination ofWolbachiain the in vivoLitomosoides sigmodontisfilarial infection model. The efficacious quinazoline series was identified by pairing a primary cell-based high-content imaging screen with an orthogonal ex vivo validation assay to rapidly quantifyWolbachiaelimination inBrugia pahangifilarial ovaries. We screened 300,368 small molecules in the primary assay and identified 288 potent and selective hits. Of 134 primary hits tested, only 23.9% were active in the worm-based validation assay, 8 of which contained a quinazoline heterocycle core. Medicinal chemistry optimization generated quinazolines with excellent pharmacokinetic profiles in mice. Potent antiwolbachial activity was confirmed inL. sigmodontis,Brugia malayi, andOnchocerca ochengiin vivo preclinical models of filarial disease and in vitro selectivity againstLoa loa(a safety concern in endemic areas). The favorable efficacy and in vitro safety profiles of CBR490 and CBR417 further support these as clinical candidates for treatment of filarial infections.

Published

2019

39. In vivo kinetics of Wolbachia depletion by ABBV-4083 in L. sigmodontis adult worms and microfilariae

Author

Mark J. Taylor, Marianne Koschel, Stefan J. Frohberger, Thomas W. von Geldern, Kennan C. Marsh, Joseph D. Turner, Achim Hoerauf, Venelin Nikolov, Dominique Struever, Marc P. Hübner, Kenneth Pfarr, Alexandra Ehrens, Martina Fendler, Iliana Johannes, Stephen A. Ward, and Dale J. Kempf

Subjects

0301 basic medicine, Physiology, RC955-962, Onchocerciasis, Mice, 0302 clinical medicine, Antibiotics, Arctic medicine. Tropical medicine, Medicine and Health Sciences, Nematode Infections, Microfilariae, Lymphatic filariasis, reproductive and urinary physiology, Doxycycline, Mice, Inbred BALB C, biology, Antimicrobials, Pharmaceutics, Drugs, Anti-Bacterial Agents, Filariasis, Body Fluids, Infectious Diseases, Blood, Helminth Infections, Models, Animal, Embryogenesis, Wolbachia, Female, Public aspects of medicine, RA1-1270, Anatomy, medicine.drug, Research Article, Neglected Tropical Diseases, 030231 tropical medicine, Microbiology, Andrology, 03 medical and health sciences, Antimalarials, Pharmacotherapy, Drug Therapy, Microbial Control, parasitic diseases, medicine, Parasitic Diseases, Animals, Filarioidea, Pharmacology, Bacteria, Lymphatic Filariasis, Public Health, Environmental and Occupational Health, Organisms, Biology and Life Sciences, biochemical phenomena, metabolism, and nutrition, biology.organism_classification, medicine.disease, Tropical Diseases, Regimen, Kinetics, 030104 developmental biology, bacteria, Gerbillinae, Developmental Biology

Abstract

Depletion of Wolbachia endosymbionts of human pathogenic filariae using 4–6 weeks of doxycycline treatment can lead to permanent sterilization and adult filarial death. We investigated the anti-Wolbachia drug candidate ABBV-4083 in the Litomosoides sigmodontis rodent model to determine Wolbachia depletion kinetics with different regimens. Wolbachia reduction occurred in mice as early as 3 days after the initiation of ABBV-4083 treatment and continued throughout a 10-day treatment period. Importantly, Wolbachia levels continued to decline after a 5-day-treatment from 91.5% to 99.9% during a 3-week washout period. In jirds, two weeks of ABBV-4083 treatment (100mg/kg once-per-day) caused a >99.9% Wolbachia depletion in female adult worms, and the kinetics of Wolbachia depletion were recapitulated in peripheral blood microfilariae. Similar to Wolbachia depletion, inhibition of embryogenesis was time-dependent in ABBV-4083-treated jirds, leading to a complete lack of late embryonic stages (stretched microfilariae) and lack of peripheral microfilariae in 5/6 ABBV-4083-treated jirds by 14 weeks after treatment. Twice daily treatment in comparison to once daily treatment with ABBV-4083 did not significantly improve Wolbachia depletion. Moreover, up to 4 nonconsecutive daily treatments within a 14-dose regimen did not significantly erode Wolbachia depletion. Within the limitations of an animal model that does not fully recapitulate human filarial disease, our studies suggest that Wolbachia depletion should be assessed clinically no earlier than 3–4 weeks after the end of treatment, and that Wolbachia depletion in microfilariae may be a viable surrogate marker for the depletion within adult worms. Furthermore, strict daily adherence to the dosing regimen with anti-Wolbachia candidates may not be required, provided that the full regimen is subsequently completed., Author summary Onchocerciasis and lymphatic filariasis represent debilitating neglected tropical diseases that are caused by parasitic filarial nematodes. Current efforts to eliminate onchocerciasis are hampered by the lack of drugs that lead to permanent sterilization of the adult worms or provide a macrofilaricidal effect, i.e. kill the adult worms. In the past, doxycycline has been shown to deplete Wolbachia endosymbionts of filarial nematodes, leading to permanent sterilization and macrofilaricidal efficacy in filariae causing both onchocerciasis and lymphatic filariasis. However, contraindications and a requirement for at least 4 weeks of doxycycline treatment impair its broader use, creating a need for drugs with a shorter treatment regimen and potentially fewer contraindications. ABBV-4083 is such an anti-Wolbachia candidate that was efficacious in several filarial animal models and has recently been tested in a phase 1 clinical trial. The present studies addressed several points that are important for subsequent phase 2 clinical trials, namely the comparison of once vs. twice-per-day treatments, the impact of missed treatments, and a comparison of the kinetics of Wolbachia depletion in adult worms and microfilariae, the latter of which has the potential to be a surrogate indicator to avoid the necessity of surgically removing nodules with adult worms at repeated time points.

Published

2019

40. Preclinical development of an oral anti-Wolbachia macrolide drug for the treatment of lymphatic filariasis and onchocerciasis

Author

Sabine Specht, Thomas W. von Geldern, Kelly L. Johnston, Franziska Lenz, Samuel Wanji, Joseph D. Turner, Nicolas Pionnier, Abdel Jelil Njouendou, Dominique Bloemker, Darren A. N. Cook, Robert A. Carr, Louise Ford, Stephen A. Ward, Mark J. Taylor, Kennan C. Marsh, Marianne Koschel, Hanna T. Sjoberg, Howard E. Morton, Dale J. Kempf, John Archer, Hayley E. Tyrer, Haelly M. Metuge, Fanny Fri Fombad, Ghaith Aljayyoussi, Valerinne C. Chunda, Patrick W. N. Chounna, Rachel H. Clare, Marc P. Hübner, Alexandra Ehrens, Achim Hoerauf, Andrew Steven, and Emma A Murphy

Subjects

0301 basic medicine, Doxycycline, biology, business.industry, 030231 tropical medicine, General Medicine, Minocycline, Pharmacology, biology.organism_classification, medicine.disease, Brugia malayi, 03 medical and health sciences, Macrofilaricide, chemistry.chemical_compound, 030104 developmental biology, 0302 clinical medicine, chemistry, parasitic diseases, medicine, Neglected tropical diseases, Wolbachia, Onchocerciasis, business, Lymphatic filariasis, medicine.drug

Abstract

There is an urgent global need for a safe macrofilaricide drug to accelerate elimination of the neglected tropical diseases onchocerciasis and lymphatic filariasis. From an anti-infective compound library, the macrolide veterinary antibiotic, tylosin A, was identified as a hit against Wolbachia. This bacterial endosymbiont is required for filarial worm viability and fertility and is a validated target for macrofilaricidal drugs. Medicinal chemistry was undertaken to develop tylosin A analogs with improved oral bioavailability. Two analogs, A-1535469 and A-1574083, were selected. Their efficacy was tested against the gold-standard second-generation tetracycline antibiotics, doxycycline and minocycline, in mouse and gerbil infection models of lymphatic filariasis (Brugia malayi and Litomosoides sigmodontis) and onchocerciasis (Onchocerca ochengi). A 1- or 2-week course of oral A-1535469 or A-1574083 provided >90% Wolbachia depletion from nematodes in infected animals, resulting in a block in embryogenesis and depletion of microfilarial worm loads. The two analogs delivered comparative or superior efficacy compared to a 3- to 4-week course of doxycycline or minocycline. A-1574083 (now called ABBV-4083) was selected for further preclinical testing. Cardiovascular studies in dogs and toxicology studies in rats and dogs revealed no adverse effects at doses (50 mg/kg) that achieved plasma concentrations >10-fold above the efficacious concentration. A-1574083 (ABBV-4083) shows potential as an anti-Wolbachia macrolide with an efficacy, pharmacology, and safety profile that is compatible with a short-term oral drug course for treating lymphatic filariasis and onchocerciasis.

Published

2019

41. AWZ1066S, a highly specific anti-Wolbachia drug candidate for a short-course treatment of filariasis

Author

Paul M. O'Neill, Edward W. Tate, W. David Hong, Adam P. Roberts, Marc P. Hübner, Peter J. H. Webborn, Mark J. Taylor, Alexandra Ehrens, Stefan J. Frohberger, Dominique Struever, John Archer, Farid Benayoud, Joseph D. Turner, Rachel H. Clare, Achim Hoerauf, Stefan Kavanagh, Fabian Gusovsky, Andrew Steven, Neil G. Berry, Kelly L. Johnston, Ghaith Aljayyoussi, Andrew Cassidy, Remigiusz A. Serwa, Suet C. Leung, Janet Hemingway, Alasdair T. M. Hubbard, Gemma L. Nixon, Amy Siu, Stephen A. Ward, Emma A Murphy, Louise Ford, Li Qie, Motohiro Shiotani, and Darren A. N. Cook

Subjects

0301 basic medicine, Drug, MACROFILARICIDAL ACTIVITY, Phenotypic screening, media_common.quotation_subject, 030231 tropical medicine, WUCHERERIA-BANCROFTI, medicine.disease_cause, Bioinformatics, drug discovery, Filariasis, DOUBLE-BLIND, 03 medical and health sciences, Macrofilaricide, chemistry.chemical_compound, 0302 clinical medicine, MD Multidisciplinary, medicine, BACTERIAL ENDOSYMBIONTS, macrofilaricide, lymphatic filariasis, ELIMINATION, Lymphatic filariasis, media_common, Science & Technology, LITOMOSOIDES-SIGMODONTIS, Multidisciplinary, biology, business.industry, onchocerciasis, ENDOBACTERIA, anti-Wolbachia, biology.organism_classification, medicine.disease, DOXYCYCLINE, Multidisciplinary Sciences, 030104 developmental biology, Wuchereria bancrofti, chemistry, Neglected tropical diseases, Science & Technology - Other Topics, Wolbachia, ALBENDAZOLE, business

Abstract

Onchocerciasis and lymphatic filariasis are two neglected tropical diseases that together affect ∼157 million people and inflict severe disability. Both diseases are caused by parasitic filarial nematodes with elimination efforts constrained by the lack of a safe drug that can kill the adult filaria (macrofilaricide). Previous proof-of-concept human trials have demonstrated that depleting >90% of the essential nematode endosymbiont bacterium, Wolbachia, using antibiotics, can lead to permanent sterilization of adult female parasites and a safe macrofilaricidal outcome. AWZ1066S is a highly specific anti-Wolbachia candidate selected through a lead optimization program focused on balancing efficacy, safety and drug metabolism/pharmacokinetic (DMPK) features of a thienopyrimidine/quinazoline scaffold derived from phenotypic screening. AWZ1066S shows superior efficacy to existing anti-Wolbachia therapies in validated preclinical models of infection and has DMPK characteristics that are compatible with a short therapeutic regimen of 7 days or less. This candidate molecule is well-positioned for onward development and has the potential to make a significant impact on communities affected by filariasis.

Published

2019

42. AWZ1066S, a highly specific anti

Author

W David, Hong, Farid, Benayoud, Gemma L, Nixon, Louise, Ford, Kelly L, Johnston, Rachel H, Clare, Andrew, Cassidy, Darren A N, Cook, Amy, Siu, Motohiro, Shiotani, Peter J H, Webborn, Stefan, Kavanagh, Ghaith, Aljayyoussi, Emma, Murphy, Andrew, Steven, John, Archer, Dominique, Struever, Stefan J, Frohberger, Alexandra, Ehrens, Marc P, Hübner, Achim, Hoerauf, Adam P, Roberts, Alasdair T M, Hubbard, Edward W, Tate, Remigiusz A, Serwa, Suet C, Leung, Li, Qie, Neil G, Berry, Fabian, Gusovsky, Janet, Hemingway, Joseph D, Turner, Mark J, Taylor, Stephen A, Ward, and Paul M, O'Neill

Subjects

Male, Pharmacology, onchocerciasis, Mice, SCID, Biological Sciences, anti-Wolbachia, Anti-Bacterial Agents, drug discovery, Mice, Elephantiasis, Filarial, Pyrimidines, Quinazolines, Animals, Female, macrofilaricide, lymphatic filariasis, Wolbachia

Abstract

Significance Onchocerciasis (river blindness) and lymphatic filariasis (elephantiasis) are neglected tropical diseases that cause severe disability and affect more than 157 million people globally. Current control efforts are hindered by the lack of a safe macrofilaricidal drug that can eliminate the parasitic adult nematodes safely. A clinically validated approach for delivering macrofilaricidal activity is to target the Wolbachia bacterial endosymbiont of the causative nematodes. This first-in-class and highly potent and specific anti-Wolbachia preclinical candidate molecule, AWZ1066S, has the potential to significantly impact current global onchocerciasis and lymphatic filariasis elimination programs and reduce elimination time frames from decades to years., Onchocerciasis and lymphatic filariasis are two neglected tropical diseases that together affect ∼157 million people and inflict severe disability. Both diseases are caused by parasitic filarial nematodes with elimination efforts constrained by the lack of a safe drug that can kill the adult filaria (macrofilaricide). Previous proof-of-concept human trials have demonstrated that depleting >90% of the essential nematode endosymbiont bacterium, Wolbachia, using antibiotics, can lead to permanent sterilization of adult female parasites and a safe macrofilaricidal outcome. AWZ1066S is a highly specific anti-Wolbachia candidate selected through a lead optimization program focused on balancing efficacy, safety and drug metabolism/pharmacokinetic (DMPK) features of a thienopyrimidine/quinazoline scaffold derived from phenotypic screening. AWZ1066S shows superior efficacy to existing anti-Wolbachia therapies in validated preclinical models of infection and has DMPK characteristics that are compatible with a short therapeutic regimen of 7 days or less. This candidate molecule is well-positioned for onward development and has the potential to make a significant impact on communities affected by filariasis.

Published

2019

43. Why onchocerciasis transmission persists after 15 annual ivermectin mass drug administrations in South-West Cameroon

Author

Peter Enyong, Bertrand L. Ndzeshang, Samuel Wanji, Desmond Akumtoh Nkimbeng, Winston Patrick Chounna Ndongmo, Elisabeth Dibando Obie, Mathias Esum Eyong, Ebua Gallus Fung, Samuel Teghen, Raphael A. Abong, Relindis Ekanya, Armelle Forrer, Amuam Andrew Beng, Joseph D. Turner, Laura Dean, Abdel Jelil Njouendou, Dum-Buo Nnamdi, Mark J. Taylor, Anicetus Suireng, Louise Hamill, Ernerstine Ebot Ashu, Sally Theobald, Emmanuel Kah, Helen Piotrowski, Rachael Thomson, Theobald Mue Nji, Michele Me Murdoch, and Kim Ozano

Subjects

Adult, Drug, Medicine (General), medicine.medical_specialty, wc_680, parasitology, media_common.quotation_subject, 030231 tropical medicine, wa_395, Infectious and parasitic diseases, RC109-216, Disease, control strategies, wc_885, wa_110, 03 medical and health sciences, R5-920, 0302 clinical medicine, Ivermectin, Environmental health, Epidemiology, Humans, Medicine, Cameroon, 030212 general & internal medicine, Child, Adverse effect, Original Research, media_common, business.industry, Transmission (medicine), Health Policy, Public health, onchocerciasis, public health, Public Health, Environmental and Occupational Health, qv_250, medicine.disease, wc_695, Cross-Sectional Studies, Mass Drug Administration, epidemiology, business, Onchocerciasis, medicine.drug

Abstract

IntroductionOnchocerciasis is targeted for elimination mainly with annual community-directed treatment with ivermectin (CDTI). High infection levels have been reported in South-West Cameroon, despite ≥15 years of CDTI. The aim of this study was to assess factors associated with continued onchocerciasis transmission and skin disease.MethodsA large-scale cross-sectional study was conducted in 2017 in 20 communities in a loiasis-risk area in South-West Cameroon. A mixed-methods approach was used. Associations between infection levels, skin disease and adherence to CDTI were assessed using mixed regression modelling. Different community members’ perception and acceptability of the CDTI strategy was explored using semi-structured interviews.ResultsOnchocerciasis prevalence was 44.4% among 9456 participants. 17.5% of adults were systematic non-adherers and 5.9% participated in ≥75% of CDTI rounds. Skin disease affected 1/10 participants, including children. Increasing self-reported adherence to CDTI was associated with lower infection levels in participants aged ≥15 years but not in children. Adherence to CDTI was positively influenced by perceived health benefits, and negatively influenced by fear of adverse events linked with economic loss. Concern of lethal adverse events was a common reason for systematic non-adherence.ConclusionCDTI alone is unlikely to achieve elimination in those high transmission areas where low participation is commonly associated with the fear of adverse events, despite the current quasi absence of high-risk levels of loiasis. Such persisting historical memories and fear of ivermectin might impact adherence to CDTI also in areas with historical presence but current absence of loiasis. Because such issues are unlikely to be tackled by CDTI adaptive measures, alternative strategies are needed for onchocerciasis elimination where negative perception of ivermectin is an entrenched barrier to community participation in programmes.

Published

2021

44. Novel anti-Wolbachia drugs, a new approach in the treatment and prevention of veterinary filariasis?

Author

Joseph D. Turner, Paul O´Neill, David W. Hong, Steve A. Ward, Amy E Marriott, and Mark J. Taylor

Subjects

0301 basic medicine, Veterinary medicine, Dirofilaria immitis, Phenotypic screening, 030231 tropical medicine, Filariasis, 03 medical and health sciences, 0302 clinical medicine, parasitic diseases, medicine, Animals, Anthelmintic, Dirofilaria, Doxycycline, General Veterinary, biology, General Medicine, 030108 mycology & parasitology, biology.organism_classification, medicine.disease, Anti-Bacterial Agents, Filaricides, Targeted drug delivery, Dirofilaria repens, Parasitology, Wolbachia, Dirofilariasis, medicine.drug

Abstract

Filarial nematodes are tissue-dwelling parasitic worms that can cause a range of disfiguring pathologies in humans and potentially lethal infections of companion animals. The bacterial endosymbiont, Wolbachia, is present within most human and veterinary filarial pathogens, including the causative agent of heartworm disease, Dirofilaria immitis. Doxycycline-mediated drug targeting of Wolbachia leads to sterility, clearance of microfilariae and gradual death of adult filariae. This mode of action is attractive in the treatment of filariasis because it avoids severe host inflammatory adverse reactions invoked by rapid-killing anthelmintic agents. However, doxycycline needs to be taken for four weeks to exert curative activity. In this review, we discuss the evidence that Wolbachia drug targeting is efficacious in blocking filarial larval development as well as in the treatment of chronic filarial disease. We present the current portfolio of next-generation anti-Wolbachia candidates discovered through phenotypic screening of chemical libraries and validated in a range of in vitro and in vivo filarial infection models. Several novel chemotypes have been identified with selected narrow-spectrum anti-Wolbachia specificity and superior time-to-kill kinetics compared with doxycycline. We discuss the opportunities of developing these novel anti-Wolbachia agents as either cures, adjunct therapies or new preventatives for the treatment of veterinary filariasis.

Published

2020

45. Dataset on in vitro maintenance of Mansonella perstans microfilariae and drug testing

Author

Flobert Njiokou, Laura E. Layland, Samuel Wanji, Joseph D. Turner, Narcisse Victor T. Gandjui, Manuel Ritter, Abdel Jelil Njouendou, Peter Enyong, Kenneth Pfarr, Mathias E. Esum, Achim Hoerauf, Winston Patrick Chounna Ndongmo, Fanny Fri Fombad, and Chi Anizette Kien

Subjects

Drug, 0303 health sciences, Multidisciplinary, biology, media_common.quotation_subject, Mansonella perstans Infections, Motility, biology.organism_classification, In vitro, Andrology, 03 medical and health sciences, 0302 clinical medicine, Monkey kidney, Parasite hosting, Mansonella perstans, 030217 neurology & neurosurgery, Fetal bovine serum, 030304 developmental biology, media_common

Abstract

Endemic communities of Mansonella perstans infections have been neglected since associated pathology remains undefined. Consequently, improvements in drug therapy have also been ignored despite a large number of infected individuals in areas of Cameroon. Thus, we established an in vitro system to culture M. perstans microfilariae (Mf); the transmission stage of infection. In short, we compared the ability of two renowned culture media (Dulbecco's Modified Eagle's Medium (DMEM) and Roswell Park Memorial Institute (RPMI-1640)) to sustain Mf in culture. Media were supplemented with 10% fetal bovine serum (FBS) and monkey kidney epithelial cells (LLC-MK2) were used as feeder cells. As readout we assessed Mf survival and motility using a standardised microscopy assessment strategy. Moreover, this in vitro culture system was used to test susceptibility levels of microfilariae to different chemotherapeutic agents. Parasite motility was scored daily using a graded system and analysed using the average motility and area under the motility curve of M. perstans Mf. These datasets were analysed and discussed in detail in the related article entitled: “In vitro maintenance of Mansonella perstans microfilariae and its relevance for drug screening” [1].

Published

2020

46. In vivo efficacy of the boron-pleuromutilin AN11251 against Wolbachia of the rodent filarial nematode Litomosoides sigmodontis

Author

Christopher S. Lunde, Martina Fendler, Xianfeng Li, Joseph D. Turner, Mark J. Taylor, Marianne Koschel, Marc P. Hübner, Alexandra Ehrens, Dominique Struever, Robert T. Jacobs, Franziska Lenz, Stefan J. Frohberger, Achim Hoerauf, Eric E. Easom, Yvonne Freund, Stephen A. Ward, Jacob J. Plattner, and Rianna Stefanakis

Subjects

0301 basic medicine, RC955-962, Onchocerciasis, 0302 clinical medicine, Antibiotics, qx_301, Oral administration, Arctic medicine. Tropical medicine, Medicine and Health Sciences, Oral Administration, Routes of Administration, Lymphatic filariasis, Doxycycline, Mice, Inbred BALB C, Antimicrobials, Pharmaceutics, Drugs, Animal Models, wc_850, Anti-Bacterial Agents, Filariasis, Infectious Diseases, Experimental Organism Systems, Helminth Infections, Female, Wolbachia, Diterpenes, Rifampin, Public aspects of medicine, RA1-1270, Research Article, Neglected Tropical Diseases, medicine.drug, wc_880, 030231 tropical medicine, Mouse Models, Biology, Research and Analysis Methods, wc_885, Microbiology, Antimalarials, 03 medical and health sciences, Model Organisms, Drug Therapy, In vivo, Microbial Control, parasitic diseases, Parasitic Diseases, medicine, Animals, Adults, Polycyclic Compounds, Symbiosis, qw_131, Filarioidea, Boron, Pharmacology, Bacteria, Lymphatic Filariasis, Organisms, Public Health, Environmental and Occupational Health, Biology and Life Sciences, Tropical Diseases, medicine.disease, biology.organism_classification, 030104 developmental biology, Nematode, Age Groups, People and Places, Animal Studies, Population Groupings, Rifampicin

Abstract

The elimination of filarial diseases such as onchocerciasis and lymphatic filariasis is hampered by the lack of a macrofilaricidal–adult worm killing–drug. In the present study, we tested the in vivo efficacy of AN11251, a boron-pleuromutilin that targets endosymbiotic Wolbachia bacteria from filarial nematodes and compared its efficacy to doxycycline and rifampicin. Doxycycline and rifampicin were previously shown to deplete Wolbachia endosymbionts leading to a permanent sterilization of the female adult filariae and adult worm death in human clinical studies. Twice-daily oral treatment of Litomosoides sigmodontis-infected mice with 200 mg/kg AN11251 for 10 days achieved a Wolbachia depletion > 99.9% in the adult worms, exceeding the Wolbachia reduction by 10-day treatments with bioequivalent human doses of doxycycline and a similar reduction as high-dose rifampicin (35 mg/kg). Wolbachia reductions of > 99% were also accomplished by 14 days of oral AN11251 at a lower twice-daily dose (50 mg/kg) or once-per-day 200 mg/kg AN11251 treatments. The combinations tested of AN11251 with doxycycline had no clear beneficial impact on Wolbachia depletion, achieving a > 97% Wolbachia reduction with 7 days of treatment. These results indicate that AN11251 is superior to doxycycline and comparable to high-dose rifampicin in the L. sigmodontis mouse model, allowing treatment regimens as short as 10–14 days. Therefore, AN11251 represents a promising pre-clinical candidate that was identified in the L. sigmodontis model, and could be further evaluated and developed as potential clinical candidate for human lymphatic filariasis and onchocerciasis., Author summary Onchocerciasis and lymphatic filariasis are human filarial tropical diseases, which can cause blindness and severe dermatitis (onchocerciasis) or lymphedema and hydrocele (lymphatic filariasis). Current strategies to eliminate these diseases include the mass drug administration (MDA) of drugs that target the progeny of the filariae, the microfilariae, and temporarily inhibit filarial embryogenesis and, therefore, the transmission of the disease. However, MDA has several limitations that delay the goal of elimination including the lack of a drug with a short term regimen and a potent macrofilaricidal effect. As an alternative approach, the antibiotic doxycycline has been proven to be effective in depleting Wolbachia endosymbionts from adult filariae, which then leads to permanent sterilization and death of the adult worms. Due to contraindications for doxycycline and prolonged treatment regimen of at least 4 weeks, there is an urgent need for new anti-filarial drugs with an improved safety profile and shorter regimens. The current study demonstrates that the boron-pleuromutilin derivative AN11251 provides an excellent in vivo anti-Wolbachia depletion in the Litomosoides sigmodontis filarial mouse model that is superior to doxycycline and comparable to rifampicin, allowing for regimens as short as 10–14 days. Combination with doxycycline for 7 days had no significant beneficial effect on efficacy, achieving Wolbachia reductions of more than 97%. Therefore, AN11251 shows potent anti-Wolbachia activity in the L. sigmodontis mouse model and may also present an alternative pre-clinical candidate for filariasis treatment.

Published

2020

47. Mouse models of Loa loa

Author

Nicolas P, Pionnier, Hanna, Sjoberg, Valerine C, Chunda, Fanny F, Fombad, Patrick W, Chounna, Abdel J, Njouendou, Haelly M, Metuge, Bertrand L, Ndzeshang, Narcisse V, Gandjui, Desmond N, Akumtoh, Dizzle B, Tayong, Mark J, Taylor, Samuel, Wanji, and Joseph D, Turner

Subjects

Inflammation, Male, Mice, Inbred BALB C, Ivermectin, Mice, SCID, Parasitemia, Article, Disease Models, Animal, Loa, Loiasis, Lymphopenia, parasitic diseases, Chronic Disease, Eosinophilia, Animals, Female, Microfilariae

Abstract

Elimination of the helminth disease, river blindness, remains challenging due to ivermectin treatment-associated adverse reactions in loiasis co-infected patients. Here, we address a deficit in preclinical research tools for filarial translational research by developing Loa loa mouse infection models. We demonstrate that adult Loa loa worms in subcutaneous tissues, circulating microfilariae (mf) and presence of filarial biomarkers in sera occur following experimental infections of lymphopenic mice deficient in interleukin (IL)-2/7 gamma-chain signaling. A microfilaraemic infection model is also achievable, utilizing immune-competent or -deficient mice infused with purified Loa mf. Ivermectin but not benzimidazole treatments induce rapid decline (>90%) in parasitaemias in microfilaraemic mice. We identify up-regulation of inflammatory markers associated with allergic type-2 immune responses and eosinophilia post-ivermectin treatment. Thus, we provide validation of murine research models to identify loiasis biomarkers, to counter-screen candidate river blindness cures and to interrogate the inflammatory etiology of loiasis ivermectin-associated adverse reactions., Here, the authors develop a mouse model of Loa loa that reflects human infections, including eosinophilia, and determine effects of ivermectin treatment.

Published

2018

48. Preclinical development of an oral anti

Author

Mark J, Taylor, Thomas W, von Geldern, Louise, Ford, Marc P, Hübner, Kennan, Marsh, Kelly L, Johnston, Hanna T, Sjoberg, Sabine, Specht, Nicolas, Pionnier, Hayley E, Tyrer, Rachel H, Clare, Darren A N, Cook, Emma, Murphy, Andrew, Steven, John, Archer, Dominique, Bloemker, Franziska, Lenz, Marianne, Koschel, Alexandra, Ehrens, Haelly M, Metuge, Valerinne C, Chunda, Patrick W, Ndongmo Chounna, Abdel J, Njouendou, Fanny F, Fombad, Robert, Carr, Howard E, Morton, Ghaith, Aljayyoussi, Achim, Hoerauf, Samuel, Wanji, Dale J, Kempf, Joseph D, Turner, and Stephen A, Ward

Subjects

Male, Disease Models, Animal, Mice, Inbred BALB C, Elephantiasis, Filarial, Treatment Outcome, Administration, Oral, Animals, Female, Tylosin, Macrolides, Mice, SCID, Onchocerciasis, Wolbachia

Abstract

There is an urgent global need for a safe macrofilaricide drug to accelerate elimination of the neglected tropical diseases onchocerciasis and lymphatic filariasis. From an anti-infective compound library, the macrolide veterinary antibiotic, tylosin A, was identified as a hit against

Published

2018

49. Evaluation of in vitro culture systems for the maintenance of microfilariae and infective larvae of Loa loa

Author

Dizzle Tayong Bita, Patrick W. Chounna Ndongmo, Arnaud J. Kengne-Ouafo, Mark J. Taylor, Samuel Wanji, Fanny Fri Fombad, Joseph D. Turner, Peter Enyong, Abdel Jelil Njouendou, Fabrice R. Datchoua-Poutcheu, Denis Zofou, and Narcisse Victor T. Gandjui

Subjects

Microbiological Techniques, 0301 basic medicine, 030231 tropical medicine, Drug Evaluation, Preclinical, Infective larvae, Molting, lcsh:Infectious and parasitic diseases, Andrology, Loa, 03 medical and health sciences, 0302 clinical medicine, Monkey kidney, qx_301, Animals, lcsh:RC109-216, Bovine serum albumin, Microfilariae, Moulting, biology, Research, Feeder Cells, Epithelial Cells, Haplorhini, biology.organism_classification, Survival Analysis, In vitro, Culture Media, Loa loa, Filaricides, L3 larvae, 030104 developmental biology, Infectious Diseases, Viability, Larva, In vitro culture system, biology.protein, Parasitology, qu_550, sense organs, Locomotion

Abstract

Background Suitable and scalable in vitro culture conditions for parasite maintenance are needed to foster drug research for loiasis, one of the neglected tropical diseases which has attracted only limited attention over recent years, despite having important public health impacts. The present work aims to develop adequate in vitro culture systems for drug screening against both microfilariae (mf) and infective third-stage larvae (L3) of Loa loa. Methods In vitro culture conditions were evaluated by varying three basic culture media: Roswell Park Memorial Institute (RPMI-1640), Dulbecco’s modified Eagle’s medium (DMEM) and Iscove’s modified Dulbecco’s medium (IMDM); four sera/proteins: newborn calf serum (NCS), foetal bovine serum (FBS), bovine serum albumin (BSA) and the lipid-enriched BSA (AlbuMax® II, ALB); and co-culture with the Monkey Kidney Epithelial Cell line (LLC-MK2) as a feeder layer. The various culture systems were tested on both mf and L3, using survival (% motile), motility (T90 = mean duration (days) at which at least 90% of parasites were fully active) and moulting rates of L3 as the major criteria. The general linear model regression analysis was performed to assess the contribution of each variable on the viability of Loa loa L3 and microfilarie. All statistical tests were performed at 95% confidence interval. Results Of the three different media tested, DMEM and IMDM were the most suitable sustaining the maintenance of both L. loa L3 and mf. IMDM alone could sustain L3 for more than 5 days (T90 = 6.5 ± 1.1 day). Serum supplements and LLC-MK2 co-cultures significantly improved the survival of parasites in DMEM and IMDM. In co-cultures with LLC-MK2 cells, L. loa mf were maintained in each of the three basic media (T90 of 16.4–19.5 days) without any serum supplement. The most effective culture systems promoting significant moulting rate of L3 into L4 (at least 25%) with substantial maintenance time were: DMEM + BSA, DMEM + NCS, DMEM-AlbuMax®II, DMEM + FBS all in co-culture with LLC-MK2, and IMDM + BSA (1.5%), DMEM + FBS (10%) and DMEM + NCS (5%) without feeder cells. DMEM + 1% BSA in co-culture scored the highest moulting rate of 57 of 81 (70.37%). The factors that promoted L. loa mf viability included feeder cells (β = 0.490), both IMDM (β = 0.256) and DMEM (β = 0.198) media and the protein supplements NCS (β = 0.052) and FBS (β = 0.022); while for L. loa L3, in addition to feeder cells (β = 0.259) and both IMDM (β = 0.401) and DMEM (β = 0.385) media, the protein supplements BSA (β = 0.029) were found important in maintaining the worm motility. Conclusions The findings from this work display a range of culture requirements for the maintenance of Loa loa stages, which are suitable for developing an effective platform for drug screening. Electronic supplementary material The online version of this article (10.1186/s13071-018-2852-2) contains supplementary material, which is available to authorized users.

Published

2018

50. Author Correction: Short-Course, High-Dose Rifampicin Achieves Wolbachia Depletion Predictive of Curative Outcomes in Preclinical Models of Lymphatic Filariasis and Onchocerciasis

Author

David Waterhouse, Laura Hayward, Samuel Wanji, Hayley E. Tyrer, Laura Myhill, Andrew Steven, Andrew Cassidy, Stephen A. Ward, Nicolas Pionnier, Hanna T. Sjoberg, Kelly L. Johnston, Joseph D. Turner, Mark J. Taylor, Rachel H. Clare, Jill Davies, Raman Sharma, Ghaith Aljayyoussi, Louise Ford, Ana F. Guimaraes, Haelly M. Metuge, Darren A. N. Cook, and Joanne Gamble

Subjects

DNA, Bacterial, 0301 basic medicine, Science, 030231 tropical medicine, Administration, Oral, Embryonic Development, Onchocerciasis, Bioinformatics, Article, Mice, 03 medical and health sciences, Elephantiasis, Filarial, 0302 clinical medicine, parasitic diseases, medicine, Animals, Humans, Wuchereria bancrofti, Short course, Author Correction, Brugia malayi, Filarioidea, Lymphatic filariasis, Multidisciplinary, biology, business.industry, qs_4, medicine.disease, biology.organism_classification, Anti-Bacterial Agents, Disease Models, Animal, Onchocerca volvulus, Treatment Outcome, 030104 developmental biology, Medicine, Wolbachia, Rifampin, business, Rifampicin, medicine.drug

Abstract

Lymphatic filariasis (LF) and onchocerciasis are priority neglected tropical diseases targeted for elimination. The only safe drug treatment with substantial curative activity against the filarial nematodes responsible for LF (Brugia malayi, Wuchereria bancrofti) or onchocerciasis (Onchocerca volvulus) is doxycycline. The target of doxycycline is the essential endosymbiont, Wolbachia. Four to six weeks doxycycline therapy achieves >90% depletion of Wolbachia in worm tissues leading to blockade of embryogenesis, adult sterility and premature death 18–24 months post-treatment. Long treatment length and contraindications in children and pregnancy are obstacles to implementing doxycycline as a public health strategy. Here we determine, via preclinical infection models of Brugia malayi or Onchocerca ochengi that elevated exposures of orally-administered rifampicin can lead to Wolbachia depletions from filariae more rapidly than those achieved by doxycycline. Dose escalation of rifampicin achieves >90% Wolbachia depletion in time periods of 7 days in B. malayi and 14 days in O. ochengi. Using pharmacokinetic-pharmacodynamic modelling and mouse-human bridging analysis, we conclude that clinically relevant dose elevations of rifampicin, which have recently been determined as safe in humans, could be administered as short courses to filariasis target populations with potential to reduce anti-Wolbachia curative therapy times to between one and two weeks.

Published

2018