Plasmodium vivax chloroquine resistance links to pvcrt transcription in a genetic cross

Mainstay treatment for Plasmodium vivax malaria has long relied on chloroquine (CQ) against blood-stage parasites plus primaquine against dormant liver-stage forms (hypnozoites), however drug resistance confronts this regimen and threatens malaria control programs. Understanding the basis of P. viva...

Descripción completa

Detalles Bibliográficos
Autores principales: Sá, Juliana M., Kaslow, Sarah R., Moraes Barros, Roberto R., Brazeau, Nicholas F., Parobek, Christian M., Tao, Dingyin, Salzman, Rebecca E., Gibson, Tyler J., Velmurugan, Soundarapandian, Krause, Michael A., Melendez-Muniz, Viviana, Kite, Whitney A., Han, Paul K., Eastman, Richard T., Kim, Adam, Kessler, Evan G., Abebe, Yonas, James, Eric R., Chakravarty, Sumana, Orr-Gonzalez, Sachy, Lambert, Lynn E., Engels, Theresa, Thomas, Marvin L., Fasinu, Pius S., Serre, David, Gwadz, Robert W., Walker, Larry, DeConti, Derrick K., Mu, Jianbing, Bailey, Jeffrey A., Sim, B. Kim Lee, Hoffman, Stephen L., Fay, Michael P., Dinglasan, Rhoel R., Juliano, Jonathan J., Wellems, Thomas E.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2019
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6754410/
https://www.ncbi.nlm.nih.gov/pubmed/31541097
http://dx.doi.org/10.1038/s41467-019-12256-9
_version_ 1783453070286389248
author Sá, Juliana M.
Kaslow, Sarah R.
Moraes Barros, Roberto R.
Brazeau, Nicholas F.
Parobek, Christian M.
Tao, Dingyin
Salzman, Rebecca E.
Gibson, Tyler J.
Velmurugan, Soundarapandian
Krause, Michael A.
Melendez-Muniz, Viviana
Kite, Whitney A.
Han, Paul K.
Eastman, Richard T.
Kim, Adam
Kessler, Evan G.
Abebe, Yonas
James, Eric R.
Chakravarty, Sumana
Orr-Gonzalez, Sachy
Lambert, Lynn E.
Engels, Theresa
Thomas, Marvin L.
Fasinu, Pius S.
Serre, David
Gwadz, Robert W.
Walker, Larry
DeConti, Derrick K.
Mu, Jianbing
Bailey, Jeffrey A.
Sim, B. Kim Lee
Hoffman, Stephen L.
Fay, Michael P.
Dinglasan, Rhoel R.
Juliano, Jonathan J.
Wellems, Thomas E.
author_facet Sá, Juliana M.
Kaslow, Sarah R.
Moraes Barros, Roberto R.
Brazeau, Nicholas F.
Parobek, Christian M.
Tao, Dingyin
Salzman, Rebecca E.
Gibson, Tyler J.
Velmurugan, Soundarapandian
Krause, Michael A.
Melendez-Muniz, Viviana
Kite, Whitney A.
Han, Paul K.
Eastman, Richard T.
Kim, Adam
Kessler, Evan G.
Abebe, Yonas
James, Eric R.
Chakravarty, Sumana
Orr-Gonzalez, Sachy
Lambert, Lynn E.
Engels, Theresa
Thomas, Marvin L.
Fasinu, Pius S.
Serre, David
Gwadz, Robert W.
Walker, Larry
DeConti, Derrick K.
Mu, Jianbing
Bailey, Jeffrey A.
Sim, B. Kim Lee
Hoffman, Stephen L.
Fay, Michael P.
Dinglasan, Rhoel R.
Juliano, Jonathan J.
Wellems, Thomas E.
author_sort Sá, Juliana M.
collection PubMed
description Mainstay treatment for Plasmodium vivax malaria has long relied on chloroquine (CQ) against blood-stage parasites plus primaquine against dormant liver-stage forms (hypnozoites), however drug resistance confronts this regimen and threatens malaria control programs. Understanding the basis of P. vivax chloroquine resistance (CQR) will inform drug discovery and malaria control. Here we investigate the genetics of P. vivax CQR by a cross of parasites differing in drug response. Gametocytogenesis, mosquito infection, and progeny production are performed with mixed parasite populations in nonhuman primates, as methods for P. vivax cloning and in vitro cultivation remain unavailable. Linkage mapping of progeny surviving >15 mg/kg CQ identifies a 76 kb region in chromosome 1 including pvcrt, an ortholog of the Plasmodium falciparum CQR transporter gene. Transcriptional analysis supports upregulated pvcrt expression as a mechanism of CQR.
format Online
Article
Text
id pubmed-6754410
institution National Center for Biotechnology Information
language English
publishDate 2019
publisher Nature Publishing Group UK
record_format MEDLINE/PubMed
spelling pubmed-67544102019-09-23 Plasmodium vivax chloroquine resistance links to pvcrt transcription in a genetic cross Sá, Juliana M. Kaslow, Sarah R. Moraes Barros, Roberto R. Brazeau, Nicholas F. Parobek, Christian M. Tao, Dingyin Salzman, Rebecca E. Gibson, Tyler J. Velmurugan, Soundarapandian Krause, Michael A. Melendez-Muniz, Viviana Kite, Whitney A. Han, Paul K. Eastman, Richard T. Kim, Adam Kessler, Evan G. Abebe, Yonas James, Eric R. Chakravarty, Sumana Orr-Gonzalez, Sachy Lambert, Lynn E. Engels, Theresa Thomas, Marvin L. Fasinu, Pius S. Serre, David Gwadz, Robert W. Walker, Larry DeConti, Derrick K. Mu, Jianbing Bailey, Jeffrey A. Sim, B. Kim Lee Hoffman, Stephen L. Fay, Michael P. Dinglasan, Rhoel R. Juliano, Jonathan J. Wellems, Thomas E. Nat Commun Article Mainstay treatment for Plasmodium vivax malaria has long relied on chloroquine (CQ) against blood-stage parasites plus primaquine against dormant liver-stage forms (hypnozoites), however drug resistance confronts this regimen and threatens malaria control programs. Understanding the basis of P. vivax chloroquine resistance (CQR) will inform drug discovery and malaria control. Here we investigate the genetics of P. vivax CQR by a cross of parasites differing in drug response. Gametocytogenesis, mosquito infection, and progeny production are performed with mixed parasite populations in nonhuman primates, as methods for P. vivax cloning and in vitro cultivation remain unavailable. Linkage mapping of progeny surviving >15 mg/kg CQ identifies a 76 kb region in chromosome 1 including pvcrt, an ortholog of the Plasmodium falciparum CQR transporter gene. Transcriptional analysis supports upregulated pvcrt expression as a mechanism of CQR. Nature Publishing Group UK 2019-09-20 /pmc/articles/PMC6754410/ /pubmed/31541097 http://dx.doi.org/10.1038/s41467-019-12256-9 Text en © This is a U.S. Government work and not under copyright protection in the US; foreign copyright protection may apply 2019 Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/.
spellingShingle Article
Sá, Juliana M.
Kaslow, Sarah R.
Moraes Barros, Roberto R.
Brazeau, Nicholas F.
Parobek, Christian M.
Tao, Dingyin
Salzman, Rebecca E.
Gibson, Tyler J.
Velmurugan, Soundarapandian
Krause, Michael A.
Melendez-Muniz, Viviana
Kite, Whitney A.
Han, Paul K.
Eastman, Richard T.
Kim, Adam
Kessler, Evan G.
Abebe, Yonas
James, Eric R.
Chakravarty, Sumana
Orr-Gonzalez, Sachy
Lambert, Lynn E.
Engels, Theresa
Thomas, Marvin L.
Fasinu, Pius S.
Serre, David
Gwadz, Robert W.
Walker, Larry
DeConti, Derrick K.
Mu, Jianbing
Bailey, Jeffrey A.
Sim, B. Kim Lee
Hoffman, Stephen L.
Fay, Michael P.
Dinglasan, Rhoel R.
Juliano, Jonathan J.
Wellems, Thomas E.
Plasmodium vivax chloroquine resistance links to pvcrt transcription in a genetic cross
title Plasmodium vivax chloroquine resistance links to pvcrt transcription in a genetic cross
title_full Plasmodium vivax chloroquine resistance links to pvcrt transcription in a genetic cross
title_fullStr Plasmodium vivax chloroquine resistance links to pvcrt transcription in a genetic cross
title_full_unstemmed Plasmodium vivax chloroquine resistance links to pvcrt transcription in a genetic cross
title_short Plasmodium vivax chloroquine resistance links to pvcrt transcription in a genetic cross
title_sort plasmodium vivax chloroquine resistance links to pvcrt transcription in a genetic cross
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6754410/
https://www.ncbi.nlm.nih.gov/pubmed/31541097
http://dx.doi.org/10.1038/s41467-019-12256-9
work_keys_str_mv AT sajulianam plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT kaslowsarahr plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT moraesbarrosrobertor plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT brazeaunicholasf plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT parobekchristianm plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT taodingyin plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT salzmanrebeccae plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT gibsontylerj plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT velmurugansoundarapandian plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT krausemichaela plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT melendezmunizviviana plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT kitewhitneya plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT hanpaulk plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT eastmanrichardt plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT kimadam plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT kesslerevang plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT abebeyonas plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT jamesericr plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT chakravartysumana plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT orrgonzalezsachy plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT lambertlynne plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT engelstheresa plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT thomasmarvinl plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT fasinupiuss plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT serredavid plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT gwadzrobertw plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT walkerlarry plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT decontiderrickk plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT mujianbing plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT baileyjeffreya plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT simbkimlee plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT hoffmanstephenl plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT faymichaelp plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT dinglasanrhoelr plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT julianojonathanj plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross
AT wellemsthomase plasmodiumvivaxchloroquineresistancelinkstopvcrttranscriptioninageneticcross

Ejemplares similares