| BMC Genomics | |
| Genome-wide transcriptome profiling reveals functional networks involving the Plasmodium falciparum drug resistance transporters PfCRT and PfMDR1 | |
| Research Article | |
| David A. Fidock1 Daniel Scanfeld2 Sophie H. Adjalley3 Manuel Llinás4 Elyse Kozlowski5 | |
| [1] Department of Microbiology and Immunology, Columbia University Medical Center, 10032, New York, NY, USA;Division of Infectious Diseases, Department of Medicine, Columbia University Medical Center, 10032, New York, NY, USA;Department of Microbiology and Immunology, Columbia University Medical Center, 10032, New York, NY, USA;Present addresses: Google Inc., 10011, New York, NY, USA;Department of Microbiology and Immunology, Columbia University Medical Center, 10032, New York, NY, USA;Present addresses: Wellcome Trust Sanger Institute, Hinxton, UK;Department of Molecular Biology & Lewis-Sigler Institute for Integrative Genomics, Princeton University, 08544, Princeton, NJ, USA;Department of Biochemistry and Molecular Biology, Department of Chemistry, Center for Malaria Research and Center for Infectious Diseases Dynamics, Pennsylvania State University, 16802, University Park, PA, USA;Department of Molecular Biology & Lewis-Sigler Institute for Integrative Genomics, Princeton University, 08544, Princeton, NJ, USA;Present addresses: Pulmonary Center, Boston University School of Medicine, 02118, Boston, MA, USA; | |
| 关键词: Plasmodium falciparum; Antimalarial drug resistance; Comparative transcriptomics; Transporters; Fast fourier transform; Gene set enrichment analysis; Hypergeometric analysis of time series; | |
| DOI : 10.1186/s12864-015-2320-8 | |
| received in 2015-07-07, accepted in 2015-12-15, 发布年份 2015 | |
| 来源: Springer | |
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【 摘 要 】
BackgroundThe acquisition of multidrug resistance by Plasmodium falciparum underscores the need to understand the underlying molecular mechanisms so as to counter their impact on malaria control. For the many antimalarials whose mode of action relates to inhibition of heme detoxification inside infected erythrocytes, the digestive vacuole transporters PfCRT and PfMDR1 constitute primary resistance determinants.ResultsUsing gene expression microarrays over the course of the parasite intra-erythrocytic developmental cycle, we compared the transcriptomic profiles between P. falciparum strains displaying mutant or wild-type pfcrt or varying in pfcrt or pfmdr1 expression levels. To account for differences in the time of sampling, we developed a computational method termed Hypergeometric Analysis of Time Series, which combines Fast Fourier Transform with a modified Gene Set Enrichment Analysis. Our analysis revealed coordinated changes in genes involved in protein catabolism, translation initiation and DNA/RNA metabolism. We also observed differential expression of genes with a role in transport or coding for components of the digestive vacuole. Interestingly, a global comparison of all profiled transcriptomes uncovered a tight correlation between the transcript levels of pfcrt and pfmdr1, extending to dozens of other genes, suggesting an intricate regulatory balance in order to maintain optimal physiological processes.ConclusionsThis study provides insight into the mechanisms by which P. falciparum adjusts to the acquisition of mutations or gene amplification in key transporter loci that mediate drug resistance. Our results implicate several biological pathways that may be differentially regulated to compensate for impaired transporter function and alterations in parasite vacuole physiology.
【 授权许可】
CC BY
© Adjalley et al. 2015
【 预 览 】
| Files | Size | Format | View |
|---|---|---|---|
| RO202311097933449ZK.pdf | 4048KB |  download |
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