Search

Your search keyword '"Davies, Jill"' showing total 24 results
Start Over Author "Davies, Jill" Database OAIster
24 results on '"Davies, Jill"'

1. Albendazole and antibiotics synergize to deliver short-course anti-Wolbachiacurative treatments in preclinical models of filariasis

Author

Turner, Joseph D., Sharma, Raman, Al Jayoussi, Ghaith, Tyrer, Hayley, Gamble, Joanne, Hayward, Laura, Priestley, Richard S., Murphy, Emma A., Davies, Jill, Waterhouse, David, Cook, Darren A. N., Clare, Rachel H., Cassidy, Andrew, Steven, Andrew, Johnston, Kelly L., McCall, John, Ford, Louise, Hemingway, Janet, Ward, Stephen A., Taylor, Mark J., Turner, Joseph D., Sharma, Raman, Al Jayoussi, Ghaith, Tyrer, Hayley, Gamble, Joanne, Hayward, Laura, Priestley, Richard S., Murphy, Emma A., Davies, Jill, Waterhouse, David, Cook, Darren A. N., Clare, Rachel H., Cassidy, Andrew, Steven, Andrew, Johnston, Kelly L., McCall, John, Ford, Louise, Hemingway, Janet, Ward, Stephen A., and Taylor, Mark J.

Abstract

Elimination of filariasis requires a macrofilaricide treatment that can be delivered within a 7-day period. Here we have identified a synergy between the anthelmintic albendazole (ABZ) and drugs depleting the filarial endosymbiont Wolbachia, a proven macrofilaricide target, which reduces treatment from several weeks to 7 days in preclinical models. ABZ had negligible effects on Wolbachia but synergized with minocycline or rifampicin (RIF) to deplete symbionts, block embryogenesis, and stop microfilariae production. Greater than 99% Wolbachia depletion following 7-day combination of RIF+ABZ also led to accelerated macrofilaricidal activity. Thus, we provide preclinical proof-of-concept of treatment shortening using antibiotic+ABZ combinations to deliver anti-Wolbachia sterilizing and macrofilaricidal effects. Our data are of immediate public health importance as RIF+ABZ are registered drugs and thus immediately implementable to deliver a 1-wk macrofilaricide. They also suggest that novel, more potent anti-Wolbachia drugs under development may be capable of delivering further treatment shortening, to days rather than weeks, if combined with benzimidazoles.

Published
2017

2. Albendazole and antibiotics synergize to deliver short-course anti-Wolbachiacurative treatments in preclinical models of filariasis

Author

Turner, Joseph D., Sharma, Raman, Al Jayoussi, Ghaith, Tyrer, Hayley, Gamble, Joanne, Hayward, Laura, Priestley, Richard S., Murphy, Emma A., Davies, Jill, Waterhouse, David, Cook, Darren A. N., Clare, Rachel H., Cassidy, Andrew, Steven, Andrew, Johnston, Kelly L., McCall, John, Ford, Louise, Hemingway, Janet, Ward, Stephen A., Taylor, Mark J., Turner, Joseph D., Sharma, Raman, Al Jayoussi, Ghaith, Tyrer, Hayley, Gamble, Joanne, Hayward, Laura, Priestley, Richard S., Murphy, Emma A., Davies, Jill, Waterhouse, David, Cook, Darren A. N., Clare, Rachel H., Cassidy, Andrew, Steven, Andrew, Johnston, Kelly L., McCall, John, Ford, Louise, Hemingway, Janet, Ward, Stephen A., and Taylor, Mark J.

Abstract

Elimination of filariasis requires a macrofilaricide treatment that can be delivered within a 7-day period. Here we have identified a synergy between the anthelmintic albendazole (ABZ) and drugs depleting the filarial endosymbiont Wolbachia, a proven macrofilaricide target, which reduces treatment from several weeks to 7 days in preclinical models. ABZ had negligible effects on Wolbachia but synergized with minocycline or rifampicin (RIF) to deplete symbionts, block embryogenesis, and stop microfilariae production. Greater than 99% Wolbachia depletion following 7-day combination of RIF+ABZ also led to accelerated macrofilaricidal activity. Thus, we provide preclinical proof-of-concept of treatment shortening using antibiotic+ABZ combinations to deliver anti-Wolbachia sterilizing and macrofilaricidal effects. Our data are of immediate public health importance as RIF+ABZ are registered drugs and thus immediately implementable to deliver a 1-wk macrofilaricide. They also suggest that novel, more potent anti-Wolbachia drugs under development may be capable of delivering further treatment shortening, to days rather than weeks, if combined with benzimidazoles.

Published
2017

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

Author

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

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

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

Author

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

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

5. Albendazole and antibiotics synergize to deliver short-course anti-Wolbachiacurative treatments in preclinical models of filariasis

Author

Turner, Joseph D., Sharma, Raman, Al Jayoussi, Ghaith, Tyrer, Hayley, Gamble, Joanne, Hayward, Laura, Priestley, Richard S., Murphy, Emma A., Davies, Jill, Waterhouse, David, Cook, Darren A. N., Clare, Rachel H., Cassidy, Andrew, Steven, Andrew, Johnston, Kelly L., McCall, John, Ford, Louise, Hemingway, Janet, Ward, Stephen A., Taylor, Mark J., Turner, Joseph D., Sharma, Raman, Al Jayoussi, Ghaith, Tyrer, Hayley, Gamble, Joanne, Hayward, Laura, Priestley, Richard S., Murphy, Emma A., Davies, Jill, Waterhouse, David, Cook, Darren A. N., Clare, Rachel H., Cassidy, Andrew, Steven, Andrew, Johnston, Kelly L., McCall, John, Ford, Louise, Hemingway, Janet, Ward, Stephen A., and Taylor, Mark J.

Abstract

Elimination of filariasis requires a macrofilaricide treatment that can be delivered within a 7-day period. Here we have identified a synergy between the anthelmintic albendazole (ABZ) and drugs depleting the filarial endosymbiont Wolbachia, a proven macrofilaricide target, which reduces treatment from several weeks to 7 days in preclinical models. ABZ had negligible effects on Wolbachia but synergized with minocycline or rifampicin (RIF) to deplete symbionts, block embryogenesis, and stop microfilariae production. Greater than 99% Wolbachia depletion following 7-day combination of RIF+ABZ also led to accelerated macrofilaricidal activity. Thus, we provide preclinical proof-of-concept of treatment shortening using antibiotic+ABZ combinations to deliver anti-Wolbachia sterilizing and macrofilaricidal effects. Our data are of immediate public health importance as RIF+ABZ are registered drugs and thus immediately implementable to deliver a 1-wk macrofilaricide. They also suggest that novel, more potent anti-Wolbachia drugs under development may be capable of delivering further treatment shortening, to days rather than weeks, if combined with benzimidazoles.

Published
2017

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

Author

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

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

7. Albendazole and antibiotics synergize to deliver short-course anti-Wolbachiacurative treatments in preclinical models of filariasis

Author

Turner, Joseph D., Sharma, Raman, Al Jayoussi, Ghaith, Tyrer, Hayley, Gamble, Joanne, Hayward, Laura, Priestley, Richard S., Murphy, Emma A., Davies, Jill, Waterhouse, David, Cook, Darren A. N., Clare, Rachel H., Cassidy, Andrew, Steven, Andrew, Johnston, Kelly L., McCall, John, Ford, Louise, Hemingway, Janet, Ward, Stephen A., Taylor, Mark J., Turner, Joseph D., Sharma, Raman, Al Jayoussi, Ghaith, Tyrer, Hayley, Gamble, Joanne, Hayward, Laura, Priestley, Richard S., Murphy, Emma A., Davies, Jill, Waterhouse, David, Cook, Darren A. N., Clare, Rachel H., Cassidy, Andrew, Steven, Andrew, Johnston, Kelly L., McCall, John, Ford, Louise, Hemingway, Janet, Ward, Stephen A., and Taylor, Mark J.

Abstract

Elimination of filariasis requires a macrofilaricide treatment that can be delivered within a 7-day period. Here we have identified a synergy between the anthelmintic albendazole (ABZ) and drugs depleting the filarial endosymbiont Wolbachia, a proven macrofilaricide target, which reduces treatment from several weeks to 7 days in preclinical models. ABZ had negligible effects on Wolbachia but synergized with minocycline or rifampicin (RIF) to deplete symbionts, block embryogenesis, and stop microfilariae production. Greater than 99% Wolbachia depletion following 7-day combination of RIF+ABZ also led to accelerated macrofilaricidal activity. Thus, we provide preclinical proof-of-concept of treatment shortening using antibiotic+ABZ combinations to deliver anti-Wolbachia sterilizing and macrofilaricidal effects. Our data are of immediate public health importance as RIF+ABZ are registered drugs and thus immediately implementable to deliver a 1-wk macrofilaricide. They also suggest that novel, more potent anti-Wolbachia drugs under development may be capable of delivering further treatment shortening, to days rather than weeks, if combined with benzimidazoles.

Published
2017

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

Author

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

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

9. Albendazole and antibiotics synergize to deliver short-course anti-Wolbachiacurative treatments in preclinical models of filariasis

Author

Turner, Joseph D., Sharma, Raman, Al Jayoussi, Ghaith, Tyrer, Hayley, Gamble, Joanne, Hayward, Laura, Priestley, Richard S., Murphy, Emma A., Davies, Jill, Waterhouse, David, Cook, Darren A. N., Clare, Rachel H., Cassidy, Andrew, Steven, Andrew, Johnston, Kelly L., McCall, John, Ford, Louise, Hemingway, Janet, Ward, Stephen A., Taylor, Mark J., Turner, Joseph D., Sharma, Raman, Al Jayoussi, Ghaith, Tyrer, Hayley, Gamble, Joanne, Hayward, Laura, Priestley, Richard S., Murphy, Emma A., Davies, Jill, Waterhouse, David, Cook, Darren A. N., Clare, Rachel H., Cassidy, Andrew, Steven, Andrew, Johnston, Kelly L., McCall, John, Ford, Louise, Hemingway, Janet, Ward, Stephen A., and Taylor, Mark J.

Abstract

Elimination of filariasis requires a macrofilaricide treatment that can be delivered within a 7-day period. Here we have identified a synergy between the anthelmintic albendazole (ABZ) and drugs depleting the filarial endosymbiont Wolbachia, a proven macrofilaricide target, which reduces treatment from several weeks to 7 days in preclinical models. ABZ had negligible effects on Wolbachia but synergized with minocycline or rifampicin (RIF) to deplete symbionts, block embryogenesis, and stop microfilariae production. Greater than 99% Wolbachia depletion following 7-day combination of RIF+ABZ also led to accelerated macrofilaricidal activity. Thus, we provide preclinical proof-of-concept of treatment shortening using antibiotic+ABZ combinations to deliver anti-Wolbachia sterilizing and macrofilaricidal effects. Our data are of immediate public health importance as RIF+ABZ are registered drugs and thus immediately implementable to deliver a 1-wk macrofilaricide. They also suggest that novel, more potent anti-Wolbachia drugs under development may be capable of delivering further treatment shortening, to days rather than weeks, if combined with benzimidazoles.

Published
2017

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

Author

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

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

11. Albendazole and antibiotics synergize to deliver short-course anti-Wolbachiacurative treatments in preclinical models of filariasis

Author

Turner, Joseph D., Sharma, Raman, Al Jayoussi, Ghaith, Tyrer, Hayley, Gamble, Joanne, Hayward, Laura, Priestley, Richard S., Murphy, Emma A., Davies, Jill, Waterhouse, David, Cook, Darren A. N., Clare, Rachel H., Cassidy, Andrew, Steven, Andrew, Johnston, Kelly L., McCall, John, Ford, Louise, Hemingway, Janet, Ward, Stephen A., Taylor, Mark J., Turner, Joseph D., Sharma, Raman, Al Jayoussi, Ghaith, Tyrer, Hayley, Gamble, Joanne, Hayward, Laura, Priestley, Richard S., Murphy, Emma A., Davies, Jill, Waterhouse, David, Cook, Darren A. N., Clare, Rachel H., Cassidy, Andrew, Steven, Andrew, Johnston, Kelly L., McCall, John, Ford, Louise, Hemingway, Janet, Ward, Stephen A., and Taylor, Mark J.

Abstract

Elimination of filariasis requires a macrofilaricide treatment that can be delivered within a 7-day period. Here we have identified a synergy between the anthelmintic albendazole (ABZ) and drugs depleting the filarial endosymbiont Wolbachia, a proven macrofilaricide target, which reduces treatment from several weeks to 7 days in preclinical models. ABZ had negligible effects on Wolbachia but synergized with minocycline or rifampicin (RIF) to deplete symbionts, block embryogenesis, and stop microfilariae production. Greater than 99% Wolbachia depletion following 7-day combination of RIF+ABZ also led to accelerated macrofilaricidal activity. Thus, we provide preclinical proof-of-concept of treatment shortening using antibiotic+ABZ combinations to deliver anti-Wolbachia sterilizing and macrofilaricidal effects. Our data are of immediate public health importance as RIF+ABZ are registered drugs and thus immediately implementable to deliver a 1-wk macrofilaricide. They also suggest that novel, more potent anti-Wolbachia drugs under development may be capable of delivering further treatment shortening, to days rather than weeks, if combined with benzimidazoles.

Published
2017

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

Author

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

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. Minocycline as a re-purposed anti-Wolbachia macrofilaricide: superiority compared with doxycycline regimens in a murine infection model of human lymphatic filariasis

Author

Sharma, Raman, Jayoussi, Ghaith Al, Tyrer, Hayley, Gamble, Joanne, Hayward, Laura, Guimaraes, Ana F., Davies, Jill, Waterhouse, David, Cook, Darren A. N., Myhill, Laura J., Clare, Rachel H., Cassidy, Andrew, Steven, Andrew, Johnston, Kelly L., Ford, Louise, Turner, Joseph D., Ward, Stephen A., Taylor, Mark J., Sharma, Raman, Jayoussi, Ghaith Al, Tyrer, Hayley, Gamble, Joanne, Hayward, Laura, Guimaraes, Ana F., Davies, Jill, Waterhouse, David, Cook, Darren A. N., Myhill, Laura J., Clare, Rachel H., Cassidy, Andrew, Steven, Andrew, Johnston, Kelly L., Ford, Louise, Turner, Joseph D., Ward, Stephen A., and Taylor, Mark J.

Abstract

Lymphatic filariasis and onchocerciasis are parasitic helminth diseases, which cause severe morbidities such as elephantiasis, skin disease and blindness, presenting a major public health burden in endemic communities. The anti-Wolbachia consortium (A·WOL: http://www.a-wol.com/) has identified a number of registered antibiotics that target the endosymbiotic bacterium, Wolbachia, delivering macrofilaricidal activity. Here we use pharmacokinetics/pharmacodynamics (PK/PD) analysis to rationally develop an anti-Wolbachia chemotherapy by linking drug exposure to pharmacological effect. We compare the pharmacokinetics and anti-Wolbachia efficacy in a murine Brugia malayi model of minocycline versus doxycycline. Doxycycline exhibits superior PK in comparison to minocycline resulting in a 3-fold greater exposure in SCID mice. Monte-Carlo simulations confirmed that a bi-daily 25–40 mg/Kg regimen is bioequivalent to a clinically effective 100–200 mg/day dose for these tetracyclines. Pharmacodynamic studies showed that minocycline depletes Wolbachia more effectively than doxycycline (99.51% vs. 90.35%) after 28 day 25 mg/Kg bid regimens with a more potent block in microfilarial production. PK/PD analysis predicts that minocycline would be expected to be 1.7 fold more effective than doxycycline in man despite lower exposure in our infection models. Our findings warrant onward clinical investigations to examine the clinical efficacy of minocycline treatment regimens against lymphatic filariasis and onchocerciasis.

Published
2016

14. Minocycline as a re-purposed anti-Wolbachia macrofilaricide: superiority compared with doxycycline regimens in a murine infection model of human lymphatic filariasis

Author

Sharma, Raman, Jayoussi, Ghaith Al, Tyrer, Hayley, Gamble, Joanne, Hayward, Laura, Guimaraes, Ana F., Davies, Jill, Waterhouse, David, Cook, Darren A. N., Myhill, Laura J., Clare, Rachel H., Cassidy, Andrew, Steven, Andrew, Johnston, Kelly L., Ford, Louise, Turner, Joseph D., Ward, Stephen A., Taylor, Mark J., Sharma, Raman, Jayoussi, Ghaith Al, Tyrer, Hayley, Gamble, Joanne, Hayward, Laura, Guimaraes, Ana F., Davies, Jill, Waterhouse, David, Cook, Darren A. N., Myhill, Laura J., Clare, Rachel H., Cassidy, Andrew, Steven, Andrew, Johnston, Kelly L., Ford, Louise, Turner, Joseph D., Ward, Stephen A., and Taylor, Mark J.

Abstract

Lymphatic filariasis and onchocerciasis are parasitic helminth diseases, which cause severe morbidities such as elephantiasis, skin disease and blindness, presenting a major public health burden in endemic communities. The anti-Wolbachia consortium (A·WOL: http://www.a-wol.com/) has identified a number of registered antibiotics that target the endosymbiotic bacterium, Wolbachia, delivering macrofilaricidal activity. Here we use pharmacokinetics/pharmacodynamics (PK/PD) analysis to rationally develop an anti-Wolbachia chemotherapy by linking drug exposure to pharmacological effect. We compare the pharmacokinetics and anti-Wolbachia efficacy in a murine Brugia malayi model of minocycline versus doxycycline. Doxycycline exhibits superior PK in comparison to minocycline resulting in a 3-fold greater exposure in SCID mice. Monte-Carlo simulations confirmed that a bi-daily 25–40 mg/Kg regimen is bioequivalent to a clinically effective 100–200 mg/day dose for these tetracyclines. Pharmacodynamic studies showed that minocycline depletes Wolbachia more effectively than doxycycline (99.51% vs. 90.35%) after 28 day 25 mg/Kg bid regimens with a more potent block in microfilarial production. PK/PD analysis predicts that minocycline would be expected to be 1.7 fold more effective than doxycycline in man despite lower exposure in our infection models. Our findings warrant onward clinical investigations to examine the clinical efficacy of minocycline treatment regimens against lymphatic filariasis and onchocerciasis.

Published
2016

15. Minocycline as a re-purposed anti-Wolbachia macrofilaricide: superiority compared with doxycycline regimens in a murine infection model of human lymphatic filariasis

Author

Sharma, Raman, Jayoussi, Ghaith Al, Tyrer, Hayley, Gamble, Joanne, Hayward, Laura, Guimaraes, Ana F., Davies, Jill, Waterhouse, David, Cook, Darren A. N., Myhill, Laura J., Clare, Rachel H., Cassidy, Andrew, Steven, Andrew, Johnston, Kelly L., Ford, Louise, Turner, Joseph D., Ward, Stephen A., Taylor, Mark J., Sharma, Raman, Jayoussi, Ghaith Al, Tyrer, Hayley, Gamble, Joanne, Hayward, Laura, Guimaraes, Ana F., Davies, Jill, Waterhouse, David, Cook, Darren A. N., Myhill, Laura J., Clare, Rachel H., Cassidy, Andrew, Steven, Andrew, Johnston, Kelly L., Ford, Louise, Turner, Joseph D., Ward, Stephen A., and Taylor, Mark J.

Abstract

Lymphatic filariasis and onchocerciasis are parasitic helminth diseases, which cause severe morbidities such as elephantiasis, skin disease and blindness, presenting a major public health burden in endemic communities. The anti-Wolbachia consortium (A·WOL: http://www.a-wol.com/) has identified a number of registered antibiotics that target the endosymbiotic bacterium, Wolbachia, delivering macrofilaricidal activity. Here we use pharmacokinetics/pharmacodynamics (PK/PD) analysis to rationally develop an anti-Wolbachia chemotherapy by linking drug exposure to pharmacological effect. We compare the pharmacokinetics and anti-Wolbachia efficacy in a murine Brugia malayi model of minocycline versus doxycycline. Doxycycline exhibits superior PK in comparison to minocycline resulting in a 3-fold greater exposure in SCID mice. Monte-Carlo simulations confirmed that a bi-daily 25–40 mg/Kg regimen is bioequivalent to a clinically effective 100–200 mg/day dose for these tetracyclines. Pharmacodynamic studies showed that minocycline depletes Wolbachia more effectively than doxycycline (99.51% vs. 90.35%) after 28 day 25 mg/Kg bid regimens with a more potent block in microfilarial production. PK/PD analysis predicts that minocycline would be expected to be 1.7 fold more effective than doxycycline in man despite lower exposure in our infection models. Our findings warrant onward clinical investigations to examine the clinical efficacy of minocycline treatment regimens against lymphatic filariasis and onchocerciasis.

Published
2016

16. Minocycline as a re-purposed anti-Wolbachia macrofilaricide: superiority compared with doxycycline regimens in a murine infection model of human lymphatic filariasis

Author

Sharma, Raman, Jayoussi, Ghaith Al, Tyrer, Hayley, Gamble, Joanne, Hayward, Laura, Guimaraes, Ana F., Davies, Jill, Waterhouse, David, Cook, Darren A. N., Myhill, Laura J., Clare, Rachel H., Cassidy, Andrew, Steven, Andrew, Johnston, Kelly L., Ford, Louise, Turner, Joseph D., Ward, Stephen A., Taylor, Mark J., Sharma, Raman, Jayoussi, Ghaith Al, Tyrer, Hayley, Gamble, Joanne, Hayward, Laura, Guimaraes, Ana F., Davies, Jill, Waterhouse, David, Cook, Darren A. N., Myhill, Laura J., Clare, Rachel H., Cassidy, Andrew, Steven, Andrew, Johnston, Kelly L., Ford, Louise, Turner, Joseph D., Ward, Stephen A., and Taylor, Mark J.

Abstract

Lymphatic filariasis and onchocerciasis are parasitic helminth diseases, which cause severe morbidities such as elephantiasis, skin disease and blindness, presenting a major public health burden in endemic communities. The anti-Wolbachia consortium (A·WOL: http://www.a-wol.com/) has identified a number of registered antibiotics that target the endosymbiotic bacterium, Wolbachia, delivering macrofilaricidal activity. Here we use pharmacokinetics/pharmacodynamics (PK/PD) analysis to rationally develop an anti-Wolbachia chemotherapy by linking drug exposure to pharmacological effect. We compare the pharmacokinetics and anti-Wolbachia efficacy in a murine Brugia malayi model of minocycline versus doxycycline. Doxycycline exhibits superior PK in comparison to minocycline resulting in a 3-fold greater exposure in SCID mice. Monte-Carlo simulations confirmed that a bi-daily 25–40 mg/Kg regimen is bioequivalent to a clinically effective 100–200 mg/day dose for these tetracyclines. Pharmacodynamic studies showed that minocycline depletes Wolbachia more effectively than doxycycline (99.51% vs. 90.35%) after 28 day 25 mg/Kg bid regimens with a more potent block in microfilarial production. PK/PD analysis predicts that minocycline would be expected to be 1.7 fold more effective than doxycycline in man despite lower exposure in our infection models. Our findings warrant onward clinical investigations to examine the clinical efficacy of minocycline treatment regimens against lymphatic filariasis and onchocerciasis.

Published
2016

17. Minocycline as a re-purposed anti-Wolbachia macrofilaricide: superiority compared with doxycycline regimens in a murine infection model of human lymphatic filariasis

Author

Sharma, Raman, Jayoussi, Ghaith Al, Tyrer, Hayley, Gamble, Joanne, Hayward, Laura, Guimaraes, Ana F., Davies, Jill, Waterhouse, David, Cook, Darren A. N., Myhill, Laura J., Clare, Rachel H., Cassidy, Andrew, Steven, Andrew, Johnston, Kelly L., Ford, Louise, Turner, Joseph D., Ward, Stephen A., Taylor, Mark J., Sharma, Raman, Jayoussi, Ghaith Al, Tyrer, Hayley, Gamble, Joanne, Hayward, Laura, Guimaraes, Ana F., Davies, Jill, Waterhouse, David, Cook, Darren A. N., Myhill, Laura J., Clare, Rachel H., Cassidy, Andrew, Steven, Andrew, Johnston, Kelly L., Ford, Louise, Turner, Joseph D., Ward, Stephen A., and Taylor, Mark J.

Abstract

Lymphatic filariasis and onchocerciasis are parasitic helminth diseases, which cause severe morbidities such as elephantiasis, skin disease and blindness, presenting a major public health burden in endemic communities. The anti-Wolbachia consortium (A·WOL: http://www.a-wol.com/) has identified a number of registered antibiotics that target the endosymbiotic bacterium, Wolbachia, delivering macrofilaricidal activity. Here we use pharmacokinetics/pharmacodynamics (PK/PD) analysis to rationally develop an anti-Wolbachia chemotherapy by linking drug exposure to pharmacological effect. We compare the pharmacokinetics and anti-Wolbachia efficacy in a murine Brugia malayi model of minocycline versus doxycycline. Doxycycline exhibits superior PK in comparison to minocycline resulting in a 3-fold greater exposure in SCID mice. Monte-Carlo simulations confirmed that a bi-daily 25–40 mg/Kg regimen is bioequivalent to a clinically effective 100–200 mg/day dose for these tetracyclines. Pharmacodynamic studies showed that minocycline depletes Wolbachia more effectively than doxycycline (99.51% vs. 90.35%) after 28 day 25 mg/Kg bid regimens with a more potent block in microfilarial production. PK/PD analysis predicts that minocycline would be expected to be 1.7 fold more effective than doxycycline in man despite lower exposure in our infection models. Our findings warrant onward clinical investigations to examine the clinical efficacy of minocycline treatment regimens against lymphatic filariasis and onchocerciasis.

Published
2016

18. Minocycline as a re-purposed anti-Wolbachia macrofilaricide: superiority compared with doxycycline regimens in a murine infection model of human lymphatic filariasis

Author

Sharma, Raman, Jayoussi, Ghaith Al, Tyrer, Hayley, Gamble, Joanne, Hayward, Laura, Guimaraes, Ana F., Davies, Jill, Waterhouse, David, Cook, Darren A. N., Myhill, Laura J., Clare, Rachel H., Cassidy, Andrew, Steven, Andrew, Johnston, Kelly L., Ford, Louise, Turner, Joseph D., Ward, Stephen A., Taylor, Mark J., Sharma, Raman, Jayoussi, Ghaith Al, Tyrer, Hayley, Gamble, Joanne, Hayward, Laura, Guimaraes, Ana F., Davies, Jill, Waterhouse, David, Cook, Darren A. N., Myhill, Laura J., Clare, Rachel H., Cassidy, Andrew, Steven, Andrew, Johnston, Kelly L., Ford, Louise, Turner, Joseph D., Ward, Stephen A., and Taylor, Mark J.

Abstract

Lymphatic filariasis and onchocerciasis are parasitic helminth diseases, which cause severe morbidities such as elephantiasis, skin disease and blindness, presenting a major public health burden in endemic communities. The anti-Wolbachia consortium (A·WOL: http://www.a-wol.com/) has identified a number of registered antibiotics that target the endosymbiotic bacterium, Wolbachia, delivering macrofilaricidal activity. Here we use pharmacokinetics/pharmacodynamics (PK/PD) analysis to rationally develop an anti-Wolbachia chemotherapy by linking drug exposure to pharmacological effect. We compare the pharmacokinetics and anti-Wolbachia efficacy in a murine Brugia malayi model of minocycline versus doxycycline. Doxycycline exhibits superior PK in comparison to minocycline resulting in a 3-fold greater exposure in SCID mice. Monte-Carlo simulations confirmed that a bi-daily 25–40 mg/Kg regimen is bioequivalent to a clinically effective 100–200 mg/day dose for these tetracyclines. Pharmacodynamic studies showed that minocycline depletes Wolbachia more effectively than doxycycline (99.51% vs. 90.35%) after 28 day 25 mg/Kg bid regimens with a more potent block in microfilarial production. PK/PD analysis predicts that minocycline would be expected to be 1.7 fold more effective than doxycycline in man despite lower exposure in our infection models. Our findings warrant onward clinical investigations to examine the clinical efficacy of minocycline treatment regimens against lymphatic filariasis and onchocerciasis.

Published
2016

19. Piperidine dispiro-1,2,4-trioxane analogues

Author

Sabbani, Sunil, Stocks, Paul A, Ellis, Gemma L, Davies, Jill, Hedenström, Erik, Sabbani, Sunil, Stocks, Paul A, Ellis, Gemma L, Davies, Jill, and Hedenström, Erik

Abstract

Dispiro N-Boc-protected 1,2,4-trioxane 2 was synthesised via Mo(acac)(2) catalysed perhydrolysis of N-Boc spirooxirane followed by condensation of the resulting beta-hydroperoxy alcohol 10 with 2-adamantanone. N-Boc 1,2,4-trioxane 2 was converted to the amine 1,2,4-trioxane hydrochloride salt 3 which was subsequently used to prepare derivatives (4-7). Several of these novel 1,2,4-trioxanes had nanomolar antimalarial activity versus the 3D7 strain of Plasmodium falciparum. Amine intermediate 3 represents a versatile derivative for the preparation of achiral arrays of trioxane analogues with antimalarial activity., VR-Chemistry

Published
2008
Full Text
View/download PDF

20. Two-Step synthesis of Achiral Dispiro-1,2,4,5-tetraoxanes with outstanding antimalarial activity, low toxicity, and high-stability profiles

Author

Ellis, Gemma L, Amewu, Richard, Sabbani, Sunil, Stocks, Paul A, Shone, Alison, Stanford, Deborah, Gibbons, Peter, Davies, Jill, Vivas, Livia, Charnaud, Sarah, Bongard, Emily, Hall, Charlotte, Rimmer, Karen, Lozanom, Sonia, Jesús, Maria, Ellis, Gemma L, Amewu, Richard, Sabbani, Sunil, Stocks, Paul A, Shone, Alison, Stanford, Deborah, Gibbons, Peter, Davies, Jill, Vivas, Livia, Charnaud, Sarah, Bongard, Emily, Hall, Charlotte, Rimmer, Karen, Lozanom, Sonia, and Jesús, Maria

Abstract

A rapid, two step synthesis of a range of dispiro-1,2,4,5-tetraoxanes with potent antimalarial activity both in vitro and in vivo has been achieved. These 1,2,4,5-tetraoxanes have been proven to be superior to 1,2,4-trioxolanes in terms of stability and to be superior to trioxane analogues in terms of both stability and activity. Selected analogues have in vitro nanomolar antimalarial activity, good oral activity and are non-toxic in screens for both cytotoxicity and genotoxicity. The synthesis of a fluorescent NBD-tagged tetraoxane probe has allowed investigation into the mechanism of accumulation of these drugs using laser scanning confocal microscopy techniques.

Published
2008
Full Text
View/download PDF

21. Monitoring of waterways for evidence of faecal contamination from biosolids using DNA techniques.

Author

Wiesner, D., Pritchard, Deborah, Davies, Jill, Ho, K., Penney, N., Wiesner, D., Pritchard, Deborah, Davies, Jill, Ho, K., and Penney, N.

Abstract

Increased nutrient levels in inland waterways have led to algal blooms and eutrophication in many agricultural regions. To ensure fertiliser inputs are managed more effectively, the source of contamination needs to be tracked and identified. Point sources could include inorganic fertilisers, livestock excreta, or more recently biosolids. The presence of faecal indicator microorganisms has been widely used to identify the presence of faeces, however, these methods cannot distinguish between human and animals samples. This study investigated PCR amplification as a molecular method to distinguish biosolids from livestock faeces of biosolids, cattle, sheep, poultry and kangaroo. This was achieved using published priming sequences and restriction site profiling of amplified DNA across the 16S rRNA gene of anaerobic gastrointestinal bacteria Bacteroides spp and Bifidobacteria spp. Preliminary investigation showed that of the three Bacteroides spp primer pairs investigated, two were useful for cow faecal material; though at lower annealing temperatures were also applicable to biosolids and sheep faecal material. The third primer pair was specific only for biosolids. All three primer pairs were unable to PCR-amplify Bacteroides spp sequences in faecal material of kangaroo. Of the three Bifidobacteria spp primer pairs, one was useful for sheep faecal material; though at lower annealing temperature was also applicable to biosolids and cow and kangaroo faecal material. The Bifidobacterium angulatum specific primer pair enabled the PCR detection of anaerobes only in biosolids and faecal material of kangaroo. The third, a Bifidobacterium catenulatum specific primer pair was suitable for faecal material of cow and at lower annealing temperatures was also applicable to the sample from sheep. Varying degrees of success were observed in faecal material from other animals. Generally, biosolids tested positive for Bacteroides and Bfidobacteria with all primers except for those specifi

Published
2008

Catalog

Books, media, physical & digital resources
See catalog results