Olor codes are shown on the Figure. doi:10.1371/journal.pone.0067312.gSince

Olor codes are shown on the Figure. doi:10.1371/journal.pone.0067312.gSince cell populations were used, we do not know whether miRNAs and their cognate mRNAs were expressed in the same 10781694 cells, so we cannot claim any causative relationships. However, if miRNAs were expressed in the same cell, it would be expected (if Title Loaded From File anything) to decrease the abundance of target mRNAs. Of the 34 predicted targets, only one, RFXAP, was downregulated more than 2-fold at the level of steady-state mRNA, but the cognate miRNA was decreased as well. TIMP2, a moderately elevated mRNA encoding a metalloprotease inhibitor, is a possible target of two of the down-regulated miRNAs (miR-4291 and miR454). Among the genes with mildly decreased expression, four (GPR146, EIF2S1, PLA2G4D and MAPK10) were possible targets of one up regulated miRNA (miRNA-193b). One only regulated cytokine gene that was a potential target showed only a very small change and encoded CXCL11.DiscussionIn this study, we have identified nine miRNAs whose levels were altered in the peripheral blood of HAT patients. When, however, we compared the patient miRNA profiles with those of subjects who were CATT-positive, but PCR-negative, we discovered that some of the latter, too, had “HAT-like” miRNA profiles. Moreover, such profiles were even seen in trypanolysis-negative samples. While it is conceivable that these people had been infected with trypanosomes that had low, or no, expression of the antigens detected in the trypanolysis test [6], or that our PCR had a lower sensitivity than that As used for the catalytic characterization. S. oneidensis COG1058/PncC protein published [36], this is rather unlikely.Alternatively, it might be that people with very low (undetectable) parasite loads, who were able to control the infection, show miRNA profiles resembling those of the uninfected controls. However, the simplest interpretation is that the miRNA changes that we observed in HAT patients were non-specific and perhaps related to immune activation or inflammation. Indeed, nonspecific activation might explain some of the positive CATT results from parasite-negative samples. Unfortunately, also, none of the miRNAs that we identified could distinguish between stage I and stage II infection. During HAT, high immunoglobulin and immune complex levels are documented in humans for both peripheral blood and the CSF; peripheral polyclonal lymphocyte activation and changes in B- and T-cell populations were also seen [37,38,39,40]. The miRNA and mRNA transcriptomes of peripheral blood cells reflect changes in cell types present, as well as in the physiology of those cells. Using our limited sample, we did not see any transcriptome changes that correlate with known pathology. Some of the miRNA changes, however, did show potential links with cytokines or cell proliferation. miR-199a-3p, miR-193b and miR-126 have all been implicated in the suppression of cell proliferation [41,42,43,44,45,46,47,48,49,50,51]. We speculate, therefore, that the decreases in miR-199a-3p and miR-126 that we observed in our HAT samples could be related to an increase in leukocyte proliferation. miR-193b, however was the only reproducibly increased miRNA, which does not fit with this hypothesis.miRNA in Human Sleeping SicknessElevated interferon 1676428 gamma levels have been seen in both T. gambiense [52,53] and T rhodesiense [54] patients. Increases in TNF alpha have been seen in T. gambiense patients [53,55,56] and in vervet monkeys infected with T. rhodesiense [57]. It is therefore interesting that miR-144* was decrease.Olor codes are shown on the Figure. doi:10.1371/journal.pone.0067312.gSince cell populations were used, we do not know whether miRNAs and their cognate mRNAs were expressed in the same 10781694 cells, so we cannot claim any causative relationships. However, if miRNAs were expressed in the same cell, it would be expected (if anything) to decrease the abundance of target mRNAs. Of the 34 predicted targets, only one, RFXAP, was downregulated more than 2-fold at the level of steady-state mRNA, but the cognate miRNA was decreased as well. TIMP2, a moderately elevated mRNA encoding a metalloprotease inhibitor, is a possible target of two of the down-regulated miRNAs (miR-4291 and miR454). Among the genes with mildly decreased expression, four (GPR146, EIF2S1, PLA2G4D and MAPK10) were possible targets of one up regulated miRNA (miRNA-193b). One only regulated cytokine gene that was a potential target showed only a very small change and encoded CXCL11.DiscussionIn this study, we have identified nine miRNAs whose levels were altered in the peripheral blood of HAT patients. When, however, we compared the patient miRNA profiles with those of subjects who were CATT-positive, but PCR-negative, we discovered that some of the latter, too, had “HAT-like” miRNA profiles. Moreover, such profiles were even seen in trypanolysis-negative samples. While it is conceivable that these people had been infected with trypanosomes that had low, or no, expression of the antigens detected in the trypanolysis test [6], or that our PCR had a lower sensitivity than that published [36], this is rather unlikely.Alternatively, it might be that people with very low (undetectable) parasite loads, who were able to control the infection, show miRNA profiles resembling those of the uninfected controls. However, the simplest interpretation is that the miRNA changes that we observed in HAT patients were non-specific and perhaps related to immune activation or inflammation. Indeed, nonspecific activation might explain some of the positive CATT results from parasite-negative samples. Unfortunately, also, none of the miRNAs that we identified could distinguish between stage I and stage II infection. During HAT, high immunoglobulin and immune complex levels are documented in humans for both peripheral blood and the CSF; peripheral polyclonal lymphocyte activation and changes in B- and T-cell populations were also seen [37,38,39,40]. The miRNA and mRNA transcriptomes of peripheral blood cells reflect changes in cell types present, as well as in the physiology of those cells. Using our limited sample, we did not see any transcriptome changes that correlate with known pathology. Some of the miRNA changes, however, did show potential links with cytokines or cell proliferation. miR-199a-3p, miR-193b and miR-126 have all been implicated in the suppression of cell proliferation [41,42,43,44,45,46,47,48,49,50,51]. We speculate, therefore, that the decreases in miR-199a-3p and miR-126 that we observed in our HAT samples could be related to an increase in leukocyte proliferation. miR-193b, however was the only reproducibly increased miRNA, which does not fit with this hypothesis.miRNA in Human Sleeping SicknessElevated interferon 1676428 gamma levels have been seen in both T. gambiense [52,53] and T rhodesiense [54] patients. Increases in TNF alpha have been seen in T. gambiense patients [53,55,56] and in vervet monkeys infected with T. rhodesiense [57]. It is therefore interesting that miR-144* was decrease.