Your search keyword '"Yeung, B.K."' showing total 10 results

1. PI4 Kinase Is a Prophylactic but Not Radical Curative Target in Plasmodium vivax-Type Malaria Parasites

Author

Zeeman, A.M., Lakshminarayana, S.B., Werff, N. van der, Klooster, E.J., Wel, A. van der, Kondreddi, R.R., Bodenreider, C., Simon, O., Sauerwein, R.W., Yeung, B.K., Diagana, T.T., Kocken, C.H., Zeeman, A.M., Lakshminarayana, S.B., Werff, N. van der, Klooster, E.J., Wel, A. van der, Kondreddi, R.R., Bodenreider, C., Simon, O., Sauerwein, R.W., Yeung, B.K., Diagana, T.T., and Kocken, C.H.

Abstract

Contains fulltext : 171119.pdf (publisher's version ) (Closed access), Two Plasmodium PI4 kinase (PI4K) inhibitors, KDU691 and LMV599, were selected for in vivo testing as causal prophylactic and radical-cure agents for Plasmodium cynomolgi sporozoite-infected rhesus macaques, based on their in vitro activity against liver stages. Animals were infected with P. cynomolgi sporozoites, and compounds were dosed orally. Both the KDU691 and LMV599 compounds were fully protective when administered prophylactically, and the more potent compound LMV599 achieved protection as a single oral dose of 25 mg/kg of body weight. In contrast, when tested for radical cure, five daily doses of 20 mg/kg of KDU691 or 25 mg/kg of LMV599 did not prevent relapse, as all animals experienced a secondary infection due to the reactivation of hypnozoites in the liver. Pharmacokinetic data show that LMV599 achieved plasma exposure that was sufficient to achieve efficacy based on our in vitro data. These findings indicate that Plasmodium PI4K is a potential drug target for malaria prophylaxis but not radical cure. Longer in vitro culture systems will be required to assess these compounds' activity on established hypnozoites and predict radical cure in vivo.

Published

2016

2. PI4 Kinase Is a Prophylactic but Not Radical Curative Target in Plasmodium vivax-Type Malaria Parasites

Author

Zeeman, A.M., Lakshminarayana, S.B., Werff, N. van der, Klooster, E.J., Wel, A. van der, Kondreddi, R.R., Bodenreider, C., Simon, O., Sauerwein, R.W., Yeung, B.K., Diagana, T.T., Kocken, C.H., Zeeman, A.M., Lakshminarayana, S.B., Werff, N. van der, Klooster, E.J., Wel, A. van der, Kondreddi, R.R., Bodenreider, C., Simon, O., Sauerwein, R.W., Yeung, B.K., Diagana, T.T., and Kocken, C.H.

Abstract

Contains fulltext : 171119.pdf (publisher's version ) (Closed access), Two Plasmodium PI4 kinase (PI4K) inhibitors, KDU691 and LMV599, were selected for in vivo testing as causal prophylactic and radical-cure agents for Plasmodium cynomolgi sporozoite-infected rhesus macaques, based on their in vitro activity against liver stages. Animals were infected with P. cynomolgi sporozoites, and compounds were dosed orally. Both the KDU691 and LMV599 compounds were fully protective when administered prophylactically, and the more potent compound LMV599 achieved protection as a single oral dose of 25 mg/kg of body weight. In contrast, when tested for radical cure, five daily doses of 20 mg/kg of KDU691 or 25 mg/kg of LMV599 did not prevent relapse, as all animals experienced a secondary infection due to the reactivation of hypnozoites in the liver. Pharmacokinetic data show that LMV599 achieved plasma exposure that was sufficient to achieve efficacy based on our in vitro data. These findings indicate that Plasmodium PI4K is a potential drug target for malaria prophylaxis but not radical cure. Longer in vitro culture systems will be required to assess these compounds' activity on established hypnozoites and predict radical cure in vivo.

Published

2016

3. PI4 Kinase Is a Prophylactic but Not Radical Curative Target in Plasmodium vivax-Type Malaria Parasites

Author

Zeeman, A.M., Lakshminarayana, S.B., Werff, N. van der, Klooster, E.J., Wel, A. van der, Kondreddi, R.R., Bodenreider, C., Simon, O., Sauerwein, R.W., Yeung, B.K., Diagana, T.T., Kocken, C.H., Zeeman, A.M., Lakshminarayana, S.B., Werff, N. van der, Klooster, E.J., Wel, A. van der, Kondreddi, R.R., Bodenreider, C., Simon, O., Sauerwein, R.W., Yeung, B.K., Diagana, T.T., and Kocken, C.H.

Abstract

Contains fulltext : 171119.pdf (publisher's version ) (Closed access), Two Plasmodium PI4 kinase (PI4K) inhibitors, KDU691 and LMV599, were selected for in vivo testing as causal prophylactic and radical-cure agents for Plasmodium cynomolgi sporozoite-infected rhesus macaques, based on their in vitro activity against liver stages. Animals were infected with P. cynomolgi sporozoites, and compounds were dosed orally. Both the KDU691 and LMV599 compounds were fully protective when administered prophylactically, and the more potent compound LMV599 achieved protection as a single oral dose of 25 mg/kg of body weight. In contrast, when tested for radical cure, five daily doses of 20 mg/kg of KDU691 or 25 mg/kg of LMV599 did not prevent relapse, as all animals experienced a secondary infection due to the reactivation of hypnozoites in the liver. Pharmacokinetic data show that LMV599 achieved plasma exposure that was sufficient to achieve efficacy based on our in vitro data. These findings indicate that Plasmodium PI4K is a potential drug target for malaria prophylaxis but not radical cure. Longer in vitro culture systems will be required to assess these compounds' activity on established hypnozoites and predict radical cure in vivo.

Published

2016

4. KAI407, a Potent Non-8-Aminoquinoline Compound That Kills Plasmodium cynomolgi Early Dormant Liver Stage Parasites In Vitro.

Author

Zeeman, A.M., Amsterdam, S.M. van, McNamara, C.W., Voorberg-van de Wel, A., Klooster, E.J., Berg, A. van den, Remarque, E.J., Plouffe, D.M., Gemert, G.J.A. van, Luty, A.J.F., Sauerwein, R.W., Gagaring, K., Borboa, R., Chen, Z., Kuhen, K., Glynne, R.J., Chatterjee, A.K., Nagle, A., Roland, J., Winzeler, E.A., Leroy, D., Campo, B., Diagana, T.T., Yeung, B.K., Thomas, A.W., Kocken, C.H., Zeeman, A.M., Amsterdam, S.M. van, McNamara, C.W., Voorberg-van de Wel, A., Klooster, E.J., Berg, A. van den, Remarque, E.J., Plouffe, D.M., Gemert, G.J.A. van, Luty, A.J.F., Sauerwein, R.W., Gagaring, K., Borboa, R., Chen, Z., Kuhen, K., Glynne, R.J., Chatterjee, A.K., Nagle, A., Roland, J., Winzeler, E.A., Leroy, D., Campo, B., Diagana, T.T., Yeung, B.K., Thomas, A.W., and Kocken, C.H.

Abstract

Contains fulltext : 138513.pdf (publisher's version ) (Open Access)

Published

2014

5. KAI407, a Potent Non-8-Aminoquinoline Compound That Kills Plasmodium cynomolgi Early Dormant Liver Stage Parasites In Vitro.

Author

Zeeman, A.M., Amsterdam, S.M. van, McNamara, C.W., Voorberg-van de Wel, A., Klooster, E.J., Berg, A. van den, Remarque, E.J., Plouffe, D.M., Gemert, G.J.A. van, Luty, A.J.F., Sauerwein, R.W., Gagaring, K., Borboa, R., Chen, Z., Kuhen, K., Glynne, R.J., Chatterjee, A.K., Nagle, A., Roland, J., Winzeler, E.A., Leroy, D., Campo, B., Diagana, T.T., Yeung, B.K., Thomas, A.W., Kocken, C.H., Zeeman, A.M., Amsterdam, S.M. van, McNamara, C.W., Voorberg-van de Wel, A., Klooster, E.J., Berg, A. van den, Remarque, E.J., Plouffe, D.M., Gemert, G.J.A. van, Luty, A.J.F., Sauerwein, R.W., Gagaring, K., Borboa, R., Chen, Z., Kuhen, K., Glynne, R.J., Chatterjee, A.K., Nagle, A., Roland, J., Winzeler, E.A., Leroy, D., Campo, B., Diagana, T.T., Yeung, B.K., Thomas, A.W., and Kocken, C.H.

Abstract

Contains fulltext : 138513.pdf (publisher's version ) (Open Access)

Published

2014

6. KAI407, a Potent Non-8-Aminoquinoline Compound That Kills Plasmodium cynomolgi Early Dormant Liver Stage Parasites In Vitro.

Author

Zeeman, A.M., Amsterdam, S.M. van, McNamara, C.W., Voorberg-van de Wel, A., Klooster, E.J., Berg, A. van den, Remarque, E.J., Plouffe, D.M., Gemert, G.J.A. van, Luty, A.J.F., Sauerwein, R.W., Gagaring, K., Borboa, R., Chen, Z., Kuhen, K., Glynne, R.J., Chatterjee, A.K., Nagle, A., Roland, J., Winzeler, E.A., Leroy, D., Campo, B., Diagana, T.T., Yeung, B.K., Thomas, A.W., Kocken, C.H., Zeeman, A.M., Amsterdam, S.M. van, McNamara, C.W., Voorberg-van de Wel, A., Klooster, E.J., Berg, A. van den, Remarque, E.J., Plouffe, D.M., Gemert, G.J.A. van, Luty, A.J.F., Sauerwein, R.W., Gagaring, K., Borboa, R., Chen, Z., Kuhen, K., Glynne, R.J., Chatterjee, A.K., Nagle, A., Roland, J., Winzeler, E.A., Leroy, D., Campo, B., Diagana, T.T., Yeung, B.K., Thomas, A.W., and Kocken, C.H.

Abstract

Contains fulltext : 138513.pdf (publisher's version ) (Open Access)

Published

2014

7. KAI407, a Potent Non-8-Aminoquinoline Compound That Kills Plasmodium cynomolgi Early Dormant Liver Stage Parasites In Vitro.

Author

Zeeman, A.M., Amsterdam, S.M. van, McNamara, C.W., Voorberg-van de Wel, A., Klooster, E.J., Berg, A. van den, Remarque, E.J., Plouffe, D.M., Gemert, G.J.A. van, Luty, A.J.F., Sauerwein, R.W., Gagaring, K., Borboa, R., Chen, Z., Kuhen, K., Glynne, R.J., Chatterjee, A.K., Nagle, A., Roland, J., Winzeler, E.A., Leroy, D., Campo, B., Diagana, T.T., Yeung, B.K., Thomas, A.W., Kocken, C.H., Zeeman, A.M., Amsterdam, S.M. van, McNamara, C.W., Voorberg-van de Wel, A., Klooster, E.J., Berg, A. van den, Remarque, E.J., Plouffe, D.M., Gemert, G.J.A. van, Luty, A.J.F., Sauerwein, R.W., Gagaring, K., Borboa, R., Chen, Z., Kuhen, K., Glynne, R.J., Chatterjee, A.K., Nagle, A., Roland, J., Winzeler, E.A., Leroy, D., Campo, B., Diagana, T.T., Yeung, B.K., Thomas, A.W., and Kocken, C.H.

Abstract

Contains fulltext : 138513.pdf (publisher's version ) (Open Access)

Published

2014

8. The spiroindolone drug candidate NITD609 potently inhibits gametocytogenesis and blocks Plasmodium falciparum transmission to anopheles mosquito vector.

Author

Pelt-Koops, J.C. van, Pett, H.E., Graumans, W., Vegte-Bolmer, M.G. van de, Gemert, G.J.A. van, Rottmann, M., Yeung, B.K., Diagana, T.T., Sauerwein, R.W., Pelt-Koops, J.C. van, Pett, H.E., Graumans, W., Vegte-Bolmer, M.G. van de, Gemert, G.J.A. van, Rottmann, M., Yeung, B.K., Diagana, T.T., and Sauerwein, R.W.

Abstract

1 juli 2012, Item does not contain fulltext, The global malaria agenda has undergone a reorientation from control of clinical cases to entirely eradicating malaria. For that purpose, a key objective is blocking transmission of malaria parasites from humans to mosquito vectors. The new antimalarial drug candidate NITD609 was evaluated for its transmission-reducing potential and compared to a few established antimalarials (lumefantrine, artemether, primaquine), using a suite of in vitro assays. By the use of a microscopic readout, NITD609 was found to inhibit the early and late development of Plasmodium falciparum gametocytes in vitro in a dose-dependent fashion over a range of 5 to 500 nM. In addition, using the standard membrane feeding assay, NITD609 was also found to be a very effective drug in reducing transmission to the Anopheles stephensi mosquito vector. Collectively, our data suggest a strong transmission-reducing effect of NITD609 acting against different P. falciparum transmission stages.

Published

2012

9. The spiroindolone drug candidate NITD609 potently inhibits gametocytogenesis and blocks Plasmodium falciparum transmission to anopheles mosquito vector.

Author

Pelt-Koops, J.C. van, Pett, H.E., Graumans, W., Vegte-Bolmer, M.G. van de, Gemert, G.J.A. van, Rottmann, M., Yeung, B.K., Diagana, T.T., Sauerwein, R.W., Pelt-Koops, J.C. van, Pett, H.E., Graumans, W., Vegte-Bolmer, M.G. van de, Gemert, G.J.A. van, Rottmann, M., Yeung, B.K., Diagana, T.T., and Sauerwein, R.W.

Abstract

01 juli 2012, Item does not contain fulltext, The global malaria agenda has undergone a reorientation from control of clinical cases to entirely eradicating malaria. For that purpose, a key objective is blocking transmission of malaria parasites from humans to mosquito vectors. The new antimalarial drug candidate NITD609 was evaluated for its transmission-reducing potential and compared to a few established antimalarials (lumefantrine, artemether, primaquine), using a suite of in vitro assays. By the use of a microscopic readout, NITD609 was found to inhibit the early and late development of Plasmodium falciparum gametocytes in vitro in a dose-dependent fashion over a range of 5 to 500 nM. In addition, using the standard membrane feeding assay, NITD609 was also found to be a very effective drug in reducing transmission to the Anopheles stephensi mosquito vector. Collectively, our data suggest a strong transmission-reducing effect of NITD609 acting against different P. falciparum transmission stages.

Published

2012

10. The spiroindolone drug candidate NITD609 potently inhibits gametocytogenesis and blocks Plasmodium falciparum transmission to anopheles mosquito vector.

Author

Pelt-Koops, J.C. van, Pett, H.E., Graumans, W., Vegte-Bolmer, M.G. van de, Gemert, G.J.A. van, Rottmann, M., Yeung, B.K., Diagana, T.T., Sauerwein, R.W., Pelt-Koops, J.C. van, Pett, H.E., Graumans, W., Vegte-Bolmer, M.G. van de, Gemert, G.J.A. van, Rottmann, M., Yeung, B.K., Diagana, T.T., and Sauerwein, R.W.

Abstract

01 juli 2012, Item does not contain fulltext, The global malaria agenda has undergone a reorientation from control of clinical cases to entirely eradicating malaria. For that purpose, a key objective is blocking transmission of malaria parasites from humans to mosquito vectors. The new antimalarial drug candidate NITD609 was evaluated for its transmission-reducing potential and compared to a few established antimalarials (lumefantrine, artemether, primaquine), using a suite of in vitro assays. By the use of a microscopic readout, NITD609 was found to inhibit the early and late development of Plasmodium falciparum gametocytes in vitro in a dose-dependent fashion over a range of 5 to 500 nM. In addition, using the standard membrane feeding assay, NITD609 was also found to be a very effective drug in reducing transmission to the Anopheles stephensi mosquito vector. Collectively, our data suggest a strong transmission-reducing effect of NITD609 acting against different P. falciparum transmission stages.

Published

2012