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2. From Genome-wide Association Studies to Functional Variants: ARL14 Cis-regulatory Variants Are Associated With Severe Malaria.

Author

Adjemout, Mathieu, Gallardo, Frederic, Torres, Magali, Thiam, Alassane, Mbengue, Babacar, Dieye, Alioune, Marquet, Sandrine, and Rihet, Pascal

Abstract

Background Genome-wide association studies have identified several nonfunctional tag single-nucleotide polymorphisms (SNPs) associated with severe malaria. We hypothesized that causal SNPs could play a significant role in severe malaria by altering promoter or enhancer activity. Here, we sought to identify such regulatory SNPs. Methods SNPs in linkage disequilibrium with tagSNPs associated with severe malaria were identified and were further annotated using FUMA. Then, SNPs were prioritized using the integrative weighted scoring method to identify regulatory ones. Gene reporter assays were performed to assess the regulatory effect of a region containing candidates. The association between SNPs and severe malaria was assessed using logistic regression models in a Senegalese cohort. Results Among 418 SNPs, the best candidates were rs116525449 and rs79644959, which were in full disequilibrium between them, and located within the ARL14 promoter. Our gene reporter assay results revealed that the region containing the SNPs exhibited cell-specific promoter or enhancer activity, while the SNPs influenced promoter activity. We detected an association between severe malaria and those 2 SNPs using the overdominance model and we replicated the association of severe malaria with the tagSNP rs116423146. Conclusions We suggest that these SNPs regulate ARL14 expression in immune cells and the presentation of antigens to T lymphocytes, thus influencing severe malaria development. [ABSTRACT FROM AUTHOR]

Published
2024
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3. Single-Cell Transcriptome Analysis of Acute Myeloid Leukemia Cells Using Methanol Fixation and Cryopreservation.

Author

Madaci, Lamia, Gard, Charlyne, Nin, Sébastien, Sarrabay, Alexandre, Baier, Céline, Venton, Geoffroy, Rihet, Pascal, Puthier, Denis, Loriod, Béatrice, and Costello, Régis

Subjects
ACUTE myeloid leukemia, MYELOID cells, METHANOL, RNA sequencing, TRANSCRIPTOMES, DIMETHYL sulfoxide
Abstract

Introduction: The application of single-cell RNA sequencing has greatly improved our understanding of various cellular and molecular mechanisms involved in physiological and pathophysiological processes. However, obtaining living cells for this technique can be difficult under certain conditions. To solve this problem, the methanol fixation method appeared as a promising alternative for routine clinical use. Materials and Methods: In this study, we selected two AML samples that had been fixed in methanol for 12–18 months. Once the cells were rehydrated, these samples were subjected to single-cell RNA sequencing. We then compared the results obtained from these samples with those obtained from the same samples cryopreserved in DMSO. Results: We used a previously validated methanol fixation protocol to perform scRNA-seq on DMSO cryopreserved cells and cells fixed in methanol for more than one year. Preliminary results show that methanol fixation induces some genetic and transcriptional modification compared with DMSO cryopreservation but remains a valuable method for single-cell analysis of primary human leukemia cells. Conclusions: The initial findings from this study highlight certain resemblances in methanol fixation over a 12-month period and cryopreservation with DMSO, along with associated transcriptional level modifications. However, we observed genetic degradation in the fixation condition when extending beyond one year. Despite certain study limitations, it is evident that short-term methanol fixation can be effectively used for leukemia blast samples. Its ease of implementation holds the potential to simplify the integration of this technique into routine clinical practice. [ABSTRACT FROM AUTHOR]

Published
2024
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6. A Non-Coding Fc Gamma Receptor Cis-Regulatory Variant within the 1q23 Gene Cluster Is Associated with Plasmodium falciparum Infection in Children Residing in Burkina Faso.

Author

Cretin, Jules, Adjemout, Mathieu, Dieppois, Christelle, Gallardo, Frederic, Torres, Magali, Merard, Zachary, Sawadogo, Serge Aimé, Picard, Christophe, Rihet, Pascal, and Paul, Pascale

Subjects
PLASMODIUM falciparum, LOCUS (Genetics), GENE clusters, GENETIC variation, MYELOID cells, FC receptors
Abstract

Antibodies play a crucial role in activating protective immunity against malaria by interacting with Fc-gamma receptors (FcγRs). Genetic variations in genes encoding FcγRs can affect immune cell responses to the parasite. In this study, our aim was to investigate whether non-coding variants that regulate FcγR expression could influence the prevalence of Plasmodium falciparum infection. Through bioinformatics approaches, we selected expression quantitative trait loci (eQTL) for FCGR2A, FCGR2B, FCGR2C, FCGR3A, and FCGR3B genes encoding FcγRs (FCGR), in whole blood. We prioritized two regulatory variants, rs2099684 and rs1771575, located in open genomic regions. These variants were identified using RegVar, ImmuNexUT, and transcription factor annotations specific to immune cells. In addition to these, we genotyped the coding variants FCGR2A/rs1801274 and FCGR2B/rs1050501 in 234 individuals from a malaria-endemic area in Burkina Faso. We conducted age and family-based analyses to evaluate associations with the prevalence of malarial infection in both children and adults. The analysis revealed that the regulatory rs1771575-CC genotype was predicted to influence FCGR2B/FCGR2C/FCGR3A transcripts in immune cells and was the sole variant associated with a higher prevalence of malarial infection in children. In conclusion, this study identifies the rs1771575 cis-regulatory variant affecting several FcγRs in myeloid and neutrophil cells and associates it with the inter-individual capacity of children living in Burkina Faso to control malarial infection. [ABSTRACT FROM AUTHOR]

Published
2023
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10. The Contribution of Multiplexing Single Cell RNA Sequencing in Acute Myeloid Leukemia.

Author

Madaci, Lamia, Gard, Charlyne, Nin, Sébastien, Venton, Geoffroy, Rihet, Pascal, Puthier, Denis, Loriod, Béatrice, and Costello, Régis

Subjects
ACUTE myeloid leukemia, RNA sequencing, DRUG target, CELL analysis, PROGNOSIS
Abstract

Decades ago, the treatment for acute myeloid leukemia relied on cytarabine and anthracycline. However, advancements in medical research have introduced targeted therapies, initially employing monoclonal antibodies such as ant-CD52 and anti-CD123, and subsequently utilizing specific inhibitors that target molecular mutations like anti-IDH1, IDH2, or FLT3. The challenge lies in determining the role of these therapeutic options, considering the inherent tumor heterogeneity associated with leukemia diagnosis and the clonal drift that this type of tumor can undergo. Targeted drugs necessitate an examination of various therapeutic targets at the individual cell level rather than assessing the entire population. It is crucial to differentiate between the prognostic value and therapeutic potential of a specific molecular target, depending on whether it is found in a terminally differentiated cell with limited proliferative potential or a stem cell with robust capabilities for both proliferation and self-renewal. However, this cell-by-cell analysis is accompanied by several challenges. Firstly, the scientific aspect poses difficulties in comparing different single cell analysis experiments despite efforts to standardize the results through various techniques. Secondly, there are practical obstacles as each individual cell experiment incurs significant financial costs and consumes a substantial amount of time. A viable solution lies in the ability to process multiple samples simultaneously, which is a distinctive feature of the cell hashing technique. In this study, we demonstrate the applicability of the cell hashing technique for analyzing acute myeloid leukemia cells. By comparing it to standard single cell analysis, we establish a strong correlation in various parameters such as quality control, gene expression, and the analysis of leukemic blast markers in patients. Consequently, this technique holds the potential to become an integral part of the biological assessment of acute myeloid leukemia, contributing to the personalized and optimized management of the disease, particularly in the context of employing targeted therapies. [ABSTRACT FROM AUTHOR]

Published
2023
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14. Identification of ATP2B4 Regulatory Element Containing Functional Genetic Variants Associated with Severe Malaria.

Author

Nisar, Samia, Torres, Magali, Thiam, Alassane, Pouvelle, Bruno, Rosier, Florian, Gallardo, Frederic, Ka, Oumar, Mbengue, Babacar, Diallo, Rokhaya Ndiaye, Brosseau, Laura, Spicuglia, Salvatore, Dieye, Alioune, Marquet, Sandrine, and Rihet, Pascal

Subjects
GENETIC variation, MALARIA, GENOME-wide association studies, LINKAGE disequilibrium, ERYTHROCYTES, MESSENGER RNA
Abstract

Genome-wide association studies for severe malaria (SM) have identified 30 genetic variants mostly located in non-coding regions. Here, we aimed to identify potential causal genetic variants located in these loci and demonstrate their functional activity. We systematically investigated the regulatory effect of the SNPs in linkage disequilibrium (LD) with the malaria-associated genetic variants. Annotating and prioritizing genetic variants led to the identification of a regulatory region containing five ATP2B4 SNPs in LD with rs10900585. We found significant associations between SM and rs10900585 and our candidate SNPs (rs11240734, rs1541252, rs1541253, rs1541254, and rs1541255) in a Senegalese population. Then, we demonstrated that both individual SNPs and the combination of SNPs had regulatory effects. Moreover, CRISPR/Cas9-mediated deletion of this region decreased ATP2B4 transcript and protein levels and increased Ca2+ intracellular concentration in the K562 cell line. Our data demonstrate that severe malaria-associated genetic variants alter the expression of ATP2B4 encoding a plasma membrane calcium-transporting ATPase 4 (PMCA4) expressed on red blood cells. Altering the activity of this regulatory element affects the risk of SM, likely through calcium concentration effect on parasitaemia. [ABSTRACT FROM AUTHOR]

Published
2022
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17. Malaria in humans: Plasmodium falciparum blood infection levels are linked to chromosome 5q31-q33

Author

Rihet, Pascal, Traore, Yves, Abel, Laurent, Aucan, Christohpe, Traore-Leroux, Therese, and Fumoux, Francis

Subjects
Burkina Faso -- Health aspects, Sub-Saharan Africa -- Health aspects, Malaria -- Genetic aspects, Plasmodium falciparum -- Physiological aspects, Linkage (Genetics) -- Research, Brothers and sisters -- Genetic aspects, Infection -- Genetic aspects, Biological sciences
Abstract

Blood infection levels of Plasmodium falciparum, an organism that causes malaria in humans, are linked to chromosome 5q31-q33. The existence of complex genetic factors that control P. falciparum blood infection levels has been demonstrated through study of an urban population in Burkina Faso. From 34 families, 153 siblings were subjected to sib-pair linkage analyses between blood infection levels and chromosome 5q31-q33. Linkage of parasitemia to D5S393 and to D5S658 was found.

Published
1998

20. Malaria resistance genes are associated with the levels of IgG subclasses directed against Plasmodium falciparum blood-stage antigens in Burkina Faso

Author

Afridi Sarwat, Atkinson Alexandre, Garnier Séverine, Fumoux Francis, and Rihet Pascal

Subjects
HBB, Immune genes, Plasmodium falciparum, Malaria, IgG subclass, Family-based association, Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216
Abstract

Abstract Background HBB, IL4, IL12, TNF, LTA, NCR3 and FCGR2A polymorphisms have been associated with malaria resistance in humans, whereas cytophilic immunoglobulin G (IgG) antibodies are thought to play a critical role in immune protection against asexual blood stages of the parasite. Furthermore, HBB, IL4, TNF, and FCGR2A have been associated with both malaria resistance and IgG levels. This suggests that some malaria resistance genes influence the levels of IgG subclass antibodies. Methods In this study, the effect of HBB, IL4, IL12, TNF, LTA, NCR3 and FCGR2A polymorphisms on the levels of IgG responses against Plasmodium falciparum blood-stage extract was investigated in 220 individuals living in Burkina Faso. The Pearson’s correlation coefficient among IgG subclasses was determined. A family-based approach was used to assess the association of polymorphisms with anti-P. falciparum IgG, IgG1, IgG2, IgG3 and IgG4 levels. Results After applying a multiple test correction, several polymorphisms were associated with IgG subclass or IgG levels. There was an association of i) haemoglobin C with IgG levels; ii) the FcγRIIa H/R131 with IgG2 and IgG3 levels; iii) TNF-863 with IgG3 levels; iv) TNF-857 with IgG levels; and, v) TNF1304 with IgG3, IgG4, and IgG levels. Conclusion Taken together, the results support the hypothesis that some polymorphisms affect malaria resistance through their effect on the acquired immune response, and pave the way towards further comprehension of genetic control of an individual’s humoral response against malaria.

Published
2012
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21. Genetic variations in genes involved in heparan sulphate biosynthesis are associated with Plasmodium falciparum parasitaemia: a familial study in Burkina Faso

Author

Atkinson Alexandre, Garnier Séverine, Afridi Sarwat, Fumoux Francis, and Rihet Pascal

Subjects
HS3ST3A1, HS3ST3B1, Heparan sulphate biosynthesis, Plasmodium falciparum, Malaria, Parasitaemia, Family-based association, Genetic interaction, Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216
Abstract

Abstract Background There is accumulating evidence that host heparan sulphate proteoglycans play an important role in the life cycle of Plasmodium through their heparan sulphate chains, suggesting that genetic variations in genes involved in heparan sulphate biosynthesis may influence parasitaemia. Interestingly, Hs3st3a1 and Hs3st3b1 encoding enzymes involved in the biosynthesis of heparan sulphate are located within a chromosomal region linked to Plasmodium chabaudi parasitaemia in mice. This suggests that HS3ST3A1 and HS3ST3B1 may influence P. falciparum parasitaemia in humans. Methods Polymorphisms within HS3ST3A1 and HS3ST3B1 were identified in 270 individuals belonging to 44 pedigrees and living in Burkina Faso. Linkage and association between parasitaemia and the polymorphisms were assessed with MERLIN and FBAT. A genetic interaction analysis was also conducted based on the PGMDR approach. Results Linkage between P. falciparum parasitaemia and the chromosomal region containing HS3ST3A1 and HS3ST3B1 was detected on the basis of the 20 SNPs identified. In addition, rs28470223 located within the promoter of HS3ST3A1 was associated with P. falciparum parasitaemia, whereas the PGMDR analysis revealed a genetic interaction between HS3ST3A1 and HS3ST3B1. Seventy-three significant multi-locus models were identified after correcting for multiple tests; 37 significant multi-locus models included rs28470223, whereas 38 multi-locus models contained at least one mis-sense mutation within HS3ST3B1. Conclusion Genetic variants of HS3ST3A1 and HS3ST3B1 are associated with P. falciparum parasitaemia. This suggests that those variants alter both the function of heparan sulphate proteoglycans and P. falciparum parasitaemia.

Published
2012
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22. Gene expression analysis reveals early changes in several molecular pathways in cerebral malaria-susceptible mice versus cerebral malaria-resistant mice

Author

Grau Georges E, Iraqi Fuad A, Joly Florence, Benech Philippe, Barbier Mathieu, Puthier Denis, Coltel Nicolas, Delahaye Nicolas F, Nguyen Catherine, and Rihet Pascal

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Microarray analyses allow the identification and assessment of molecular signatures in whole tissues undergoing pathological processes. To better understand cerebral malaria pathogenesis, we investigated intra-cerebral gene-expression profiles in well-defined genetically cerebral malaria-resistant (CM-R) and CM-susceptible (CM-S) mice, upon infection by Plasmodium berghei ANKA (PbA). We investigated mouse transcriptional responses at early and late stages of infection by use of cDNA microarrays. Results Through a rigorous statistical approach with multiple testing corrections, we showed that PbA significantly altered brain gene expression in CM-R (BALB/c), and in CM-S (CBA/J and C57BL/6) mice, and that 327 genes discriminated between early and late infection stages, between mouse strains, and between CM-R and CM-S mice. We further identified 104, 56, 84 genes with significant differential expression between CM-R and CM-S mice on days 2, 5, and 7 respectively. The analysis of their functional annotation indicates that genes involved in metabolic energy pathways, the inflammatory response, and the neuroprotection/neurotoxicity balance play a major role in cerebral malaria pathogenesis. In addition, our data suggest that cerebral malaria and Alzheimer's disease may share some common mechanisms of pathogenesis, as illustrated by the accumulation of β-amyloid proteins in brains of CM-S mice, but not of CM-R mice. Conclusion Our microarray analysis highlighted marked changes in several molecular pathways in CM-S compared to CM-R mice, particularly at early stages of infection. This study revealed some promising areas for exploration that may both provide new insight into the knowledge of CM pathogenesis and the development of novel therapeutic strategies.

Published
2007
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23. NCR3 polymorphism, haematological parameters, and severe malaria in Senegalese patients.

Author

Thiam, Alassane, Baaklini, Sabrina, Mbengue, Babacar, Nisar, Samia, Diarra, Maryam, Marquet, Sandrine, Fall, Mouhamadou Mansour, Sanka, Michel, Thiam, Fatou, Diallo, Rokhaya Ndiaye, Torres, Magali, Dieye, Alioune, and Rihet, Pascal

Subjects
MALARIA, CEREBRAL malaria, LEUKOCYTE count, PLASMODIUM falciparum, BLOOD sampling
Abstract

Background. Host factors, including host genetic variation, have been shown to influence the outcome of Plasmodium falciparum infection. Genome-wide linkage studies have mapped mild malaria resistance genes on chromosome 6p21, whereas NCR3-412 polymorphism (rs2736191) lying within this region was found to be associated with mild malaria. Methods. Blood samples were taken from 188 Plasmodium falciparum malaria patients (76 mild malaria patients, 85 cerebral malaria patients, and 27 severe non-cerebral malaria patients). NCR3-412 (rs2736191) was analysed by sequencing, and haematological parameters were measured. Finally, their association with clinical phenotypes was assessed. Results. We evidenced an association of thrombocytopenia with both cerebral malaria and severe non-cerebral malaria, and of an association of high leukocyte count with cerebral malaria. Additionally, we found no association of NCR3-412 with either cerebral malaria, severe non-cerebral malaria, or severe malaria after grouping cerebral malaria and severe non-cerebral malaria patients. Conclusions. Our results suggest that NCR3 genetic variation has no effect, or only a small effect on the occurrence of severe malaria, although it has been strongly associated with mild malaria. We discuss the biological meaning of these results. Besides, we confirmed the association of thrombocytopenia and high leukocyte count with severe malaria phenotypes. [ABSTRACT FROM AUTHOR]

Published
2018
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24. Deletion of Nkx2-5 in trabecular myocardium reveals the developmental origins of pathological heterogeneity associated with ventricular non-compaction cardiomyopathy.

Author

Choquet, Caroline, Nguyen, Thi Hong Minh, Sicard, Pierre, Buttigieg, Emeline, Tran, Thi Thom, Kober, Frank, Varlet, Isabelle, Sturny, Rachel, Costa, Mauro W., Harvey, Richard P., Nguyen, Catherine, Rihet, Pascal, Richard, Sylvain, Bernard, Monique, Kelly, Robert G., Lalevée, Nathalie, and Miquerol, Lucile

Subjects
CARDIOMYOPATHIES, HEART failure patients, HEART failure, MYOCARDIAL infarction, LABORATORY mice, DIAGNOSIS, PATIENTS
Abstract

Left ventricular non-compaction (LVNC) is a rare cardiomyopathy associated with a hypertrabeculated phenotype and a large spectrum of symptoms. It is still unclear whether LVNC results from a defect of ventricular trabeculae development and the mechanistic basis that underlies the varying severity of this pathology is unknown. To investigate these issues, we inactivated the cardiac transcription factor Nkx2-5 in trabecular myocardium at different stages of trabecular morphogenesis using an inducible Cx40-creERT2 allele. Conditional deletion of Nkx2-5 at embryonic stages, during trabecular formation, provokes a severe hypertrabeculated phenotype associated with subendocardial fibrosis and Purkinje fiber hypoplasia. A milder phenotype was observed after Nkx2-5 deletion at fetal stages, during trabecular compaction. A longitudinal study of cardiac function in adult Nkx2-5 conditional mutant mice demonstrates that excessive trabeculation is associated with complex ventricular conduction defects, progressively leading to strain defects, and, in 50% of mutant mice, to heart failure. Progressive impaired cardiac function correlates with conduction and strain defects independently of the degree of hypertrabeculation. Transcriptomic analysis of molecular pathways reflects myocardial remodeling with a larger number of differentially expressed genes in the severe versus mild phenotype and identifies Six1 as being upregulated in hypertrabeculated hearts. Our results provide insights into the etiology of LVNC and link its pathogenicity with compromised trabecular development including compaction defects and ventricular conduction system hypoplasia. [ABSTRACT FROM AUTHOR]

Published
2018
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25. Genetic and enzymatic characterization of 3-O-sulfotransferase SNPs associated with Plasmodium falciparum parasitaemia.

Author

Nguyen, Ngoc Thy, Vivès, Romain R., Torres, Magali, Delauzun, Vincent, Saesen, Els, Roig-Zamboni, Véronique, Lortat-Jacob, Hugues, Rihet, Pascal, and Bourne, Yves

Subjects
PARASITEMIA, HEPARAN sulfate, SINGLE nucleotide polymorphisms, BIOSYNTHESIS, SULFOTRANSFERASES, PLASMODIUM falciparum, THERAPEUTICS
Abstract

The HS3ST3A1/B1 genes encode two homologous 3-O-sulfotransferases involved in the late modification step during heparan sulfate (HS) biosynthesis. In addition to the single nucleotide polymorphisms (SNPs) rs28470223 (C > T) in the promoter region of both HS3ST3A1 and rs62636623 (Gly/Arg) in the stem region of HS3ST3B1, three missense mutations (rs62056073, rs61729712 and rs9906590) located within the catalytic sulfotransferase domain of 3-OST-B1 are linked and associated to Plasmodium falciparum parasitaemia. To ascertain the functional effects of these SNP associations, we investigated the regulatory effect of rs28470223 and characterized the enzymatic activity of the missense SNP rs61729712 (Ser279Asn) localized at proximity of the substrate binding cleft. The SNP rs28470223 results in decreased promoter activity of HS3ST3A1 in K562 cells, suggesting a reduced in vivo transcription activity of the target gene. A comparative kinetic analysis of wt HS3ST3B1 and the Ser269Asn variant (rs61729712) using a HS-derived oligosaccharide substrate reveals a slightly higher catalytic activity for the SNP variant. These genetic and enzymatic studies suggest that genetic variations in enzymes responsible of HS 3-O-sulfation can modulate their promoter and enzymatic activities and may influence P. falciparum parasitaemia. [ABSTRACT FROM AUTHOR]

Published
2018
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26. Beyond genome-wide scan: Association of a cis-regulatory NCR3 variant with mild malaria in a population living in the Republic of Congo.

Author

Baaklini, Sabrina, Afridi, Sarwat, Nguyen, Thy Ngoc, Koukouikila-Koussounda, Felix, Ndounga, Mathieu, Imbert, Jean, Torres, Magali, Pradel, Lydie, Ntoumi, Francine, and Rihet, Pascal

Subjects
MALARIA, KILLER cells, LINKAGE (Genetics), HUMAN genetic variation, GENETICS
Abstract

Linkage studies have revealed a linkage of mild malaria to chromosome 6p21 that contains the NCR3 gene encoding a natural killer cell receptor, whereas NCR3-412G>C (rs2736191) located in its promoter region was found to be associated with malaria in Burkina Faso. Here we confirmed the association of rs2736191 with mild malaria in a Congolese cohort and investigated its potential cis-regulatory effect. Luciferase assay results indicated that rs2736191-G allele had a significantly increased promoter activity compared to rs2736191-C allele. Furthermore, EMSAs demonstrated an altered binding of two nuclear protein complexes to the rs2736191-C allele in comparison to rs2736191-G allele. Finally, after in silico identification of transcription factor candidates, pull-down western blot experiments confirmed that both STAT4 and RUNX3 bind the region encompassing rs2736191 with a higher affinity for the G allele. To our knowledge, this is the first report that explored the functional role of rs2736191. These results support the hypothesis that genetic variation within natural killer cell receptors alters malaria resistance in humans. [ABSTRACT FROM AUTHOR]

Published
2017
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27. Sperm mRNAs and microRNAs as candidate markers for the impact of toxicants on human spermatogenesis: an application to tobacco smoking.

Author

Metzler-Guillemain, Catherine, Victorero, Genevieve, Lepoivre, Cyrille, Bergon, Aurélie, Yammine, Miriam, Perrin, Jeanne, Sari-Minodier, Irene, Boulanger, Nicolas, Rihet, Pascal, and Nguyen, Cathy

Subjects
SPERMATOZOA analysis, MESSENGER RNA, MICRORNA, SPERMATOGENESIS, SMOKING
Abstract

Spermatozoa contain a complex population of RNAs including messenger RNAs (mRNAs) and small RNAs such as microRNAs (miRNA). It has been reported that these RNAs can be used to understand the mechanisms by which toxicological exposure affects spermatogenesis. The aim of our study was to compare mRNA and miRNA profiles in spermatozoa from eight smokers and eight non-smokers, and search for potential relationships between mRNA and miRNA variation. All men were selected based on their answers to a standard toxic exposure questionnaire, and sperm parameters. Using mRNA and miRNA microarrays, we showed that mRNAs from 15 genes were differentially represented between smokers and non-smokers ( p < 0.01): five had higher levels and 10 lower levels in the smokers. For the microRNAs, 23 were differentially represented: 16 were higher and seven lower in the smokers (0.004 ≤ p < 0.01). Quantitative RT-PCR confirmed the lower levels in smokers compared to non-smokers for hsa-miR-296-5p, hsa-miR-3940, and hsa-miR-520d-3p. Moreover, we observed an inverse relationship between the levels of microRNAs and six potential target mRNAs (B3GAT3, HNRNPL, OASL, ODZ3, CNGB1, and PKD2). Our results indicate that alterations in the level of a small number of microRNAs in response to smoking may contribute to changes in mRNA expression in smokers. We conclude that large-scale analysis of spermatozoa RNAs can be used to help understand the mechanisms by which human spermatogenesis responds to toxic substances including those in tobacco smoke. [ABSTRACT FROM AUTHOR]

Published
2015
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28. A genome scan for Plasmodium falciparum malaria identifies quantitative trait loci on chromosomes 5q31, 6p21.3, 17p12, and 19p13.

Author

Brisebarre, Audrey, Kumulungui, Brice, Sawadogo, Serge, Atkinson, Alexandre, Garnier, Séverine, Fumoux, Francis, and Rihet, Pascal

Subjects
MALARIA, PLASMODIUM falciparum, MICROSATELLITE repeats, HUMAN chromosomes, MAXIMUM likelihood statistics, PARASITEMIA, GENETICS
Abstract

Background Genome-wide studies have mapped several loci controlling Plasmodium falciparum mild malaria and parasitaemia, only two of them being significant at the genome level. The objective of the present study was to identify malaria resistance loci in individuals living in Burkina Faso. Methods A genome scan that involved 314 individuals belonging to 63 families was performed. Markers located within chromosomes 6p21.3 and 17p12 were genotyped in 247 additional individuals belonging to 55 families. The linkage and the association of markers with parasitaemia and mild malaria were assessed by using the maximum-likelihood binomial method extended to quantitative trait linkage and the quantitative trait disequilibrium test, respectively. Results Multipoint linkage analysis showed a significant linkage of mild malaria to chromosome 6p21.3 (LOD score 3.73, P = 1.7 10-5), a suggestive linkage of mild malaria to chromosome 19p13.12 (LOD score 2.50, P = 3.5 10-4), and a suggestive linkage of asymptomatic parasitaemia to chromosomes 6p21.3 (LOD score 2.36, P = 4.9 10-4) and 17p12 (LOD score 2.87, P = 1.4 10-4). Genome-wide family-based association analysis revealed a significant association between three chromosome 5q31 markers and asymptomatic parasitaemia, whereas there was no association with mild malaria. When taking into account 247 additional individuals, a significant linkage of asymptomatic parasitaemia to chromosome 17p12 (LOD score 3.6, P = 2 10-5) was detected. Conclusion A new genome-wide significant malaria locus on chromosome 17p12 and a new suggestive locus on chromosome 19p13.12 are reported. Moreover, there was evidence that confirmed the influence of chromosomes 5q31 and 6p21.3 as loci controlling mild malaria or asymptomatic parasitaemia. [ABSTRACT FROM AUTHOR]

Published
2014
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29. Identification of overexpressed genes in Sodalis glossinidius inhabiting trypanosome-infected self-cured tsetse flies.

Author

Soumana, Illiassou Hamidou, Tchicaya, Bernadette, Loriod, Béatrice, Rihet, Pascal, and Geiger, Anne

Subjects
TSETSE-flies, TRYPANOSOMATIDAE, FILAMENTOUS bacteria, MICROARRAY technology, OXIDATION-reduction reaction, BLOOD meal as feed
Abstract

Sodalis glossinidius, one of the three tsetse fly maternally inherited symbionts, was previously shown to favor fly infection by trypanosomes, the parasites causing human sleeping sickness. Among a population of flies taking a trypanosome-infected blood meal, only a few individuals will acquire the parasite; the others will escape infection and be considered as refractory to trypanosome infection. The aim of the work was to investigate whether fly refractoriness could be associated with specific Sodalis gene expression. The transcriptome of S. glossinidius harbored by flies that were fed either with a non-infected blood meal (control) or with a trypanosome-infected meal but that did not develop infection were analyzed, using microarray technology, and compared. The analysis using the microarray procedure yielded 17 genes that were found to have a significant differential expression between the two groups. Interestingly, all these genes were overexpressed in self-cured (refractory) flies. Further analysis of functional annotation of these genes indicated that most associated biological process terms were related to metabolic and biosynthetic processes as well as to oxido-reduction mechanisms. These results evidence the occurrence of molecular crosstalk between the different partners, induced by the passage of the trypanosomes through the fly?s gut even though the parasites were unable to establish in the gut and to develop a permanent infection. [ABSTRACT FROM AUTHOR]

Published
2014
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30. Host susceptibility to malaria in human and mice: compatible approaches to identify potential resistant genes.

Author

Hernandez-Valladares, Maria, Rihet, Pascal, and Iraqi, Fuad A.

Subjects
*DISEASE susceptibility, *MALARIA diagnosis, *LABORATORY rats, *HEALTH outcome assessment, *MOLECULAR genetics
Abstract

There is growing evidence for human genetic factors controlling the outcome of malaria infection, while molecular basis of this genetic control is still poorly understood. Case-control and family-based studies have been carried out to identify genes underlying host susceptibility to malarial infection. Parasitemia and mild malaria have been genetically linked to human chromosomes 5q31-q33 and 6p21.3, and several immune genes located within those regions have been associated with malaria-related phenotypes. Association and linkage studies of resistance to malaria are not easy to carry out in human populations, because of the difficulty in surveying a significant number of families. Murine models have proven to be an excellent genetic tool for studying host response to malaria; their use allowed mapping 14 resistance loci, eight of them controlling parasitic levels and six controlling cerebral malaria. Once quantitative trait loci or genes have been identified, the human ortholog may then be identified. Comparative mapping studies showed that a couple of human and mouse might share similar genetically controlled mechanisms of resistance. In this way, char8, which controls parasitemia, was mapped on chromosome 11; char8 corresponds to human chromosome 5q31-q33 and contains immune genes, such as Il3, Il4, Il5, Il12b, Il13, Irf1, and Csf2. Nevertheless, part of the genetic factors controlling malaria traits might differ in both hosts because of specific hostpathogen interactions. Finally, novel genetic tools including animal models were recently developed and will offer new opportunities for identifying genetic factors underlying host phenotypic response to malaria, which will help in better therapeutic strategies including vaccine and drug development. [ABSTRACT FROM AUTHOR]

Published
2014
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31. Early Gene Expression Analysis in 9L Orthotopic Tumor-Bearing Rats Identifies Immune Modulation in Molecular Response to Synchrotron Microbeam Radiation Therapy.

Author

Bouchet, Audrey, Sakakini, Nathalie, El Atifi, Michèle, Le Clec'h, Céline, Brauer, Elke, Moisan, Anaïck, Deman, Pierre, Rihet, Pascal, Le Duc, Géraldine, and Pelletier, Laurent

Subjects
GENE expression, SYNCHROTRON radiation, IMMUNOREGULATION, BRAIN imaging, CELL populations, MACROPHAGES, GLIOMAS
Abstract

Synchrotron Microbeam Radiation Therapy (MRT) relies on the spatial fractionation of the synchrotron photon beam into parallel micro-beams applying several hundred of grays in their paths. Several works have reported the therapeutic interest of the radiotherapy modality at preclinical level, but biological mechanisms responsible for the described efficacy are not fully understood to date. The aim of this study was to identify the early transcriptomic responses of normal brain and glioma tissue in rats after MRT irradiation (400Gy). The transcriptomic analysis of similarly irradiated normal brain and tumor tissues was performed 6 hours after irradiation of 9 L orthotopically tumor-bearing rats. Pangenomic analysis revealed 1012 overexpressed and 497 repressed genes in the irradiated contralateral normal tissue and 344 induced and 210 repressed genes in tumor tissue. These genes were grouped in a total of 135 canonical pathways. More than half were common to both tissues with a predominance for immunity or inflammation (64 and 67% of genes for normal and tumor tissues, respectively). Several pathways involving HMGB1, toll-like receptors, C-type lectins and CD36 may serve as a link between biochemical changes triggered by irradiation and inflammation and immunological challenge. Most immune cell populations were involved: macrophages, dendritic cells, natural killer, T and B lymphocytes. Among them, our results highlighted the involvement of Th17 cell population, recently described in tumor. The immune response was regulated by a large network of mediators comprising growth factors, cytokines, lymphokines. In conclusion, early response to MRT is mainly based on inflammation and immunity which appear therefore as major contributors to MRT efficacy. [ABSTRACT FROM AUTHOR]

Published
2013
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32. Natural killer cells modulation in hematological malignancies.

Author

Baier, Céline, Fino, Aurore, Sanchez, Carole, Farnault, Laure, Rihet, Pascal, Kahn-Perlès, Brigitte, and Costello, Régis T.

Subjects
HEMATOLOGIC malignancies, KILLER cells, CELL-mediated cytotoxicity, BLOOD diseases, IMMUNOTHERAPY
Abstract

Hematological malignancies (HM) treatment improved over the last years resulting in increased achievement of complete or partial remission, but unfortunately high relapse rates are still observed, due to remaining minimal residual disease. Therefore, sustainment of long-term remission is crucial, using either drug maintenance treatment or by boosting or prolonging an immune response. Immune system has a key role in tumor surveillance. Nonetheless, tumor-cells evade the specific T-lymphocyte mediated immune surveillance using many mechanisms but especially by the down-regulation of the expression of HLA class I antigens. In theory, these tumor-cells lacking normal expression of HLA class I molecules should be destroyed by natural killer (NK) cells, according to the missing-self hypothesis. NK cells, at the frontier of innate and adaptive immune system, have a central role in tumor-cells surveillance as demonstrated in the setting of allogenic stem cell transplantation. Nevertheless, tumors develop various mechanisms to escape from NK innate immune pressure. Abnormal NK cytolytic functions have been described in many HM. We present here various mechanisms involved in the escape of HM from NK-cell surveillance, i.e., NK-cells quantitative and qualitative abnormalities. [ABSTRACT FROM AUTHOR]

Published
2013
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33. Transcriptional Response in a Sepsis Mouse Model Reflects Transcriptional Response in Sepsis Patients.

Author

Rosier, Florian, Nuñez, Nicolas Fernandez, Torres, Magali, Loriod, Béatrice, Rihet, Pascal, and Pradel, Lydie C.

Subjects
SEPSIS, SEPTIC shock, LABORATORY mice, SYSTEMIC inflammatory response syndrome, ANIMAL disease models, PERITONEAL macrophages
Abstract

Mortality due to sepsis remains unacceptably high, especially for septic shock patients. Murine models have been used to better understand pathophysiology mechanisms. However, the mouse model is still under debate. Herein we investigated the transcriptional response of mice injected with lipopolysaccharide (LPS) and compared it to either human cells stimulated in vitro with LPS or to the blood cells of septic patients. We identified a molecular signature composed of 2331 genes with an FDR median of 0%. This molecular signature is highly enriched in regulated genes in peritoneal macrophages stimulated with LPS. There is significant enrichment in several inflammatory signaling pathways, and in disease terms, such as pneumonia, sepsis, systemic inflammatory response syndrome, severe sepsis, an inflammatory disorder, immune suppression, and septic shock. A significant overlap between the genes upregulated in mouse and human cells stimulated with LPS has been demonstrated. Finally, genes upregulated in mouse cells stimulated with LPS are enriched in genes upregulated in human cells stimulated in vitro and in septic patients, who are at high risk of death. Our results support the hypothesis of common molecular and cellular mechanisms between mouse and human sepsis. [ABSTRACT FROM AUTHOR]

Published
2022
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34. Striatal Molecular Signature of Subchronic Subthalamic Nucleus High Frequency Stimulation in Parkinsonian Rat.

Author

Lortet, Sylviane, Lacombe, Emilie, Boulanger, Nicolas, Rihet, Pascal, Nguyen, Catherine, Goff, Lydia Kerkerian-Le, and Salin, Pascal

Subjects
PARKINSONIAN disorders, MOLECULAR biology, SUBTHALAMUS, POLYMERASE chain reaction, GENE expression, MOVEMENT disorders, CELL nuclei, SUBTHALAMIC nucleus
Abstract

This study addresses the molecular mechanisms underlying the action of subthalamic nucleus high frequency stimulation (STN-HFS) in the treatment of Parkinson's disease and its interaction with levodopa (L-DOPA), focusing on the striatum. Striatal gene expression profile was assessed in rats with nigral dopamine neuron lesion, either treated or not, using agilent microarrays and qPCR verification. The treatments consisted in anti-akinetic STN-HFS (5 days), chronic L-DOPA treatment inducing dyskinesia (LIDs) or the combination of the two treatments that exacerbated LIDs. STN-HFS modulated 71 striatal genes. The main biological processes associated with the differentially expressed gene products include regulation of growth, of apoptosis and of synaptic transmission, and extracellular region is a major cellular component implicated. In particular, several of these genes have been shown to support survival or differentiation of striatal or of dopaminergic neurons. These results indicate that STN HFS may induce widespread anatomo-functional rearrangements in the striatum and create a molecular environment favorable for neuroprotection and neuroplasticity. STN-HFS and L-DOPA treatment share very few common gene regulation features indicating that the molecular substrates underlying their striatal action are mostly different; among the common effects is the down-regulation of Adrb1, which encodes the adrenergic beta-1- receptor, supporting a major role of this receptor in Parkinson's disease. In addition to genes already reported to be associated with LIDs (preprodynorphin, thyrotropin-releasing hormone, metabotropic glutamate receptor 4, cannabinoid receptor 1), the comparison between DOPA and DOPA/HFS identifies immunity-related genes as potential players in L-DOPA side effects. [ABSTRACT FROM AUTHOR]

Published
2013
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35. Platelets Alter Gene Expression Profile in Human Brain Endothelial Cells in an In Vitro Model of Cerebral Malaria.

Author

Barbier, Mathieu, Faille, Dorotheé, atrice^Loriod, Bé, Textoris, Julien, Camus, Claire, Puthier, Denis, Flori, Laurence, Wassmer, Samuel Crocodile, Victorero, Geneviève, Alessi, Marie-Christine, Fusaï, Thierry, Nguyen, Catherine, Grau, Georges E., and Rihet, Pascal

Subjects
CEREBRAL malaria, GENE expression, PROTOZOAN diseases, APOPTOSIS, BRAIN diseases
Abstract

Platelet adhesion to the brain microvasculature has been associated with cerebral malaria (CM) in humans, suggesting that platelets play a role in the pathogenesis of this syndrome. In vitro co-cultures have shown that platelets can act as a bridge between Plasmodium falciparum-infected red blood cells (pRBC) and human brain microvascular endothelial cells (HBEC) and potentiate HBEC apoptosis. Using cDNA microarray technology, we analyzed transcriptional changes of HBEC in response to platelets in the presence or the absence of tumor necrosis factor (TNF) and pRBC, which have been reported to alter gene expression in endothelial cells. Using a rigorous statistical approach with multiple test corrections, we showed a significant effect of platelets on gene expression in HBEC. We also detected a strong effect of TNF, whereas there was no transcriptional change induced specifically by pRBC. Nevertheless, a global ANOVA and a two-way ANOVA suggested that pRBC acted in interaction with platelets and TNF to alter gene expression in HBEC. The expression of selected genes was validated by RT-qPCR. The analysis of gene functional annotation indicated that platelets induce the expression of genes involved in inflammation and apoptosis, such as genes involved in chemokine-, TREM1-, cytokine-, IL10-, TGFβ-, deathreceptor-, and apoptosis-signaling. Overall, our results support the hypothesis that platelets play a pathogenic role in CM. [ABSTRACT FROM AUTHOR]

Published
2011
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36. Genome-Wide Expression Profiling Deciphers Host Responses Altered during Dengue Shock Syndrome and Reveals the Role of Innate Immunity in Severe Dengue.

Author

Devignot, Stéphanie, Cédric Sapet, Duong, Veasna, Bergon, Aurélie, Rihet, Pascal, Sivuth Ong, Lorn, Patrich T., Chroeung, Norith, Ngeav, Sina, Tolou, Hugues J., Buchy, Philippe, and Couissinier-Paris, Patricia

Subjects
DENGUE hemorrhagic fever, NATURAL immunity, LONGITUDINAL method, GENOMES, ANALYSIS of variance, DENGUE, BLOOD cells, HOMEOSTASIS, BIOMARKERS, GENETICS
Abstract

Background: Deciphering host responses contributing to dengue shock syndrome (DSS), the life-threatening form of acute viral dengue infections, is required to improve both the differential prognosis and the treatments provided to DSS patients, a challenge for clinicians. Methodology/Principal Findings: Based on a prospective study, we analyzed the genome-wide expression profiles of whole blood cells from 48 matched Cambodian children: 19 progressed to DSS while 16 and 13 presented respectively classical dengue fever (DF) or dengue hemorrhagic fever grades I/II (DHF). Using multi-way analysis of variance (ANOVA) and adjustment of p-values to control the False Discovery Rate (FDR,10%), we identified a signature of 2959 genes differentiating DSS patients from both DF and DHF, and showed a strong association of this DSS-gene signature with the dengue disease phenotype. Using a combined approach to analyse the molecular patterns associated with the DSS-gene signature, we provide an integrative overview of the transcriptional responses altered in DSS children. In particular, we show that the transcriptome of DSS children blood cells is characterized by a decreased abundance of transcripts related to T and NK lymphocyte responses and by an increased abundance of anti-inflammatory and repair/remodeling transcripts. We also show that unexpected pro-inflammatory gene patterns at the interface between innate immunity, inflammation and host lipid metabolism, known to play pathogenic roles in acute and chronic inflammatory diseases associated with systemic vascular dysfunction, are transcriptionnally active in the blood cells of DSS children. Conclusions/Significance: We provide a global while non exhaustive overview of the molecular mechanisms altered in of DSS children and suggest how they may interact to lead to final vascular homeostasis breakdown. We suggest that some mechanisms identified should be considered putative therapeutic targets or biomarkers of progression to DSS. [ABSTRACT FROM AUTHOR]

Published
2010

37. Influence of Carriage of Hemoglobin AS and the Fcγ Receptor IIa--R131 Allele on Levels of Immunoglobulin G2 Antibodies to Plasmodium falciparum Merozoite Antigens in Gabonese Children.

Author

Ntoumi, Francine, Flori, Laurence, Mayengue, Pembe Issamou, Maya, Davy W. Matondo, Issifou, Saadou, Deloron, Philippe, Lell, Bertrand, Kremsner, Peter G., and Rihet, Pascal

Subjects
PLASMODIUM falciparum, HEMOGLOBINS, ERYTHROCYTES, IMMUNOGLOBULINS, JUVENILE diseases
Abstract

Background. To extend our previous findings showing an imbalanced distribution of immunoglobulin G2 (IgG2) antibodies to Plasmodium falciparum merozoite surface protein 2 (MSP2) and a higher frequency of infection with multiple P. falciparum strains in Gabonese children with sickle cell trait (hemoglobin AS), human Fcγ receptor (FcγR) IIa (CD32) polymorphism and the rate of in vitro invasion of red blood cells (RBCs) from subjects with either hemoglobin AA or AS by multiple P. falciparum strains were investigated. Methods. FcγRIIa mutation at amino acid position 131 (arginine or histidine) was detected by polymerase chain reaction, and in vitro cultures for parasites were used to assess the invasion rate. Results. FcγRIIa polymorphism is normally distributed in this population, with no preferential carriage by children with hemoglobin AS. Lower levels of IgG2 subclass antibodies to MSP2 peptides were independently associated with the FcγRIIa-R131 allele and with carriage of hemoglobin AS. Our data suggest that IgG3 antibody responses to MSP2 epitopes could be exacerbated by lower IgG2 levels in children with hemoglobin AS. Conclusions. The higher rate of invasion of RBCs in the presence of multiple strains may indicate that several invasion pathways are solicited simultaneously, and the longer persistence of ring forms in RBCs from the subjects with hemoglobin AS might reflect a slower multiplication phase, leading to a longer circulation and enhanced phagocytosis of these nonpathogenic parasite forms. This may contribute to the protection against P. falciparum malaria observed in children with hemoglobin AS. [ABSTRACT FROM AUTHOR]

Published
2005
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38. Genetic Predisposition to the Mortality in Septic Shock Patients: From GWAS to the Identification of a Regulatory Variant Modulating the Activity of a CISH Enhancer.

Author

Rosier, Florian, Brisebarre, Audrey, Dupuis, Claire, Baaklini, Sabrina, Puthier, Denis, Brun, Christine, Pradel, Lydie C., Rihet, Pascal, and Payen, Didier

Subjects
SEPTIC shock, GENOME-wide association studies, GENETIC variation, FALSE discovery rate, LINKAGE disequilibrium, SEPSIS
Abstract

The high mortality rate in septic shock patients is likely due to environmental and genetic factors, which influence the host response to infection. Two genome-wide association studies (GWAS) on 832 septic shock patients were performed. We used integrative bioinformatic approaches to annotate and prioritize the sepsis-associated single nucleotide polymorphisms (SNPs). An association of 139 SNPs with death based on a false discovery rate of 5% was detected. The most significant SNPs were within the CISH gene involved in cytokine regulation. Among the 139 SNPs associated with death and the 1311 SNPs in strong linkage disequilibrium with them, we investigated 1439 SNPs within non-coding regions to identify regulatory variants. The highest integrative weighted score (IW-score) was obtained for rs143356980, indicating that this SNP is a robust regulatory candidate. The rs143356980 region is located in a non-coding region close to the CISH gene. A CRISPR-Cas9-mediated deletion of this region and specific luciferase assays in K562 cells showed that rs143356980 modulates the enhancer activity in K562 cells. These analyses allowed us to identify several genes associated with death in patients with septic shock. They suggest that genetic variations in key genes, such as CISH, perturb relevant pathways, increasing the risk of death in sepsis patients. [ABSTRACT FROM AUTHOR]

Published
2021
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42. Mapping of a new quantitative trait locus for resistance to malaria in mice by a comparative mapping approach with human Chromosome 5q31-q33.

Author

Hernandez-Valladares, Maria, Rihet, Pascal, ole-MoiYoi, Onesmo K., and Iraqi, Fuad A.

Subjects
*PLASMODIUM falciparum, *CYTOKINES, *IMMUNOREGULATION, *CELLULAR immunity, *CELL nuclei, *HEREDITY, *GROWTH factors
Abstract

A number of linkage studies in human populations have identified a locus (pfbi) on Chromosome 5q31-q33 controlling Plasmodiun falciparum blood infection levels. This region contains numerous candidate genes encoding immunological molecules such as cytokines, growth factors and growth-factor receptors. We have used an F11 advance intercross line (AIL) population of mice infected with Plasmodium chabaudi to identify additional mouse quantitative trait loci (QTL) for control of parasitaemia on Chrs 11 and 18, which carry regions homologous to human Chr 5q31-q33. Herein, we report a novel QTL for parasitaemia control (char8) on the mouse Chr 11, linked to marker D11Mit242, and involved in the clearance stages of the parasites from the bloodstream. Strikingly, several Th2 cytokines that are located within char8 have been identified to play a predominant role in the late stages of the infection. [ABSTRACT FROM AUTHOR]

Published
2004
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44. Correction: Deletion of Nkx2-5 in trabecular myocardium reveals the developmental origins of pathological heterogeneity associated with ventricular non-compaction cardiomyopathy.

Author

Choquet, Caroline, Nguyen, Thi Hong Minh, Sicard, Pierre, Buttigieg, Emeline, Tran, Thi Thom, Kober, Frank, Varlet, Isabelle, Sturny, Rachel, Costa, Mauro W., Harvey, Richard P., Nguyen, Catherine, Rihet, Pascal, Richard, Sylvain, Bernard, Monique, Kelly, Robert G., Lalevée, Nathalie, and Miquerol, Lucile

Subjects
CANCELLOUS bone, CARDIOMYOPATHIES, MYOCARDIUM
Published
2018
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45. Natural killer cells in patients with polycythemia vera.

Author

Sanchez, Carole, Baier, Céline, Colle, Julien G., Chelbi, Rabie, Rihet, Pascal, Le Treut, Thérèse, Imbert, Jean, Sébahoun, Gérard, Venton, Geoffroy, and Costello, Régis T.

Subjects
*POLYCYTHEMIA vera, *KILLER cells, *NATURAL immunity, *CELL-mediated cytotoxicity, *ACUTE myeloid leukemia diagnosis, *GENE expression, *PATIENTS
Abstract

Natural killer cells (NK) are pivotal cells of innate immunity. They are potent antileukemic cytotoxic effectors. A defect in their cytotoxicity has been described in some hematopoietic malignancies such as acute myeloid leukemia, multiple myeloma and myelodysplastic syndromes. This defect is at least partially linked to a decreased or absent expression of some activating NK cells molecules, more particularly the so-called natural cytotoxicity receptors. In the present study, we more particularly focused our attention on NK cells of polycythemia vera, a myeloproliferative disease characterized by the presence of mutated JAK2 tyrosine kinase. The polymerase chain reaction analysis of NK cells from patients showed that they expressed the mutated form of JAK2. In polycythemia vera the proportion of NK was increased compared to healthy donors. The proliferative and cytotoxic abilities of NK cells from patients were similar to healthy donors. Expression of activating or inhibitory receptors was comparable in patients and donors, with nonetheless an imbalance for the inhibitory form of the CD158a,h couple of receptors in patients. Finally, the transcriptomic profile analysis clearly identified a discriminant signature between NK cells from patients and donors that could putatively be the consequence of abnormal continuous activation of mutated JAK2. [ABSTRACT FROM AUTHOR]

Published
2015
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46. The transcriptional signatures of Sodalis glossinidius in the Glossina palpalis gambiensis flies negative for Trypanosoma brucei gambiense contrast with those of this symbiont in tsetse flies positive for the parasite: Possible involvement of a Sodalis-hosted prophage in fly Trypanosoma refractoriness?

Author

Hamidou Soumana, Illiassou, Loriod, Béatrice, Ravel, Sophie, Tchicaya, Bernadette, Simo, Gustave, Rihet, Pascal, and Geiger, Anne

Subjects
*GENETIC transcription, *GLOSSINA palpalis, *INSECT genetics, *TRYPANOSOMA brucei, *TSETSE-flies, *GENE expression
Abstract

Highlights: [•] 176 genes are differentially expressed in Sodalis hosted by refractory tsetse flies. [•] Genes encoding bacterial cell wall lytic enzymes are among the most overexpressed. [•] Sodalis genome bears two regions homologous with two bacteriophage genomes. [•] A Sodalis genome borne prophage may be a major actor in tsetse fly refractoriness. [ABSTRACT FROM AUTHOR]

Published
2014
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47. IL-12Rβ2 Is Essential for the Development of Experimental Cerebral Malaria.

Author

Fauconnier, Mathilde, Palomo, Jennifer, Bourigault, Marie-Laure, Meme, Sandra, Szeremeta, Frédéric, Beloeil, Jean-Claude, Danneels, Adeline, Charron, Sabine, Rihet, Pascal, Ryffel, Bernhard, and Quesniaux, Valérie F. J.

Subjects
*CEREBRAL malaria, *PLASMODIUM berghei, *LABORATORY mice, *MAGNETIC resonance imaging, *ANGIOGRAPHY, *GENE expression, *T cells
Abstract

A Th1 response is required for the development of Plasmodium berghei ANKA (PbA)-induced experimental cerebral malaria (ECM). The role of pro-Th1 IL-12 in malaria is complex and controversial. In this study, we addressed the role of IL-12Rβ 2 in ECM development. C57BL/6 mice deficient for IL-12Rβ 2, IL-12p40, or IL-12p35 were analyzed for ECM development after blood-stage PbA infection in terms of ischemia and blood flow by noninvasive magnetic resonance imaging and angiography, T cell recruitment, and gene expression. Without IL-12Rβ 2, no neurologic sign of ECM developed upon PbA infection. Although wild-type mice developed distinct brain microvascular pathology, ECM-resistant, IL-12Rβ 2-deficient mice showed unaltered cerebral microcirculation and the absence of ischemia after PbA infection. In contrast, mice deficient for IL-12p40 or IL-12p35 were sensitive to ECM development. The resistance of IL-12Rβ 2-deficient mice to ECM correlated with reduced recruitment of activated T cells and impaired overexpression of lymphotoxin-α , TNF-α , and IFN-γ in the brain after PbA infection. Therefore, IL-12Rβ 2 signaling is essential for ECM development but independent from IL-12p40 and IL-12p35. We document a novel link between IL-12Rβ 2 and lymphotoxin-α , TNF-α , and IFN-γ expression, key cytokines for ECM pathogenesis. [ABSTRACT FROM AUTHOR]

Published
2012
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48. Family-based association of a low producing lymphotoxin-α allele with reduced Plasmodium falciparum parasitemia

Author

Barbier, Mathieu, Delahaye, Nicolas F., Fumoux, Francis, and Rihet, Pascal

Subjects
*TUMOR necrosis factors, *MALARIA, *GENETIC polymorphisms, *GENETICS
Abstract

Abstract: Tumor necrosis factor (TNF)-related genes are thought to play a role in human malaria. TNF polymorphisms have been associated with severe malaria, mild malaria, and parasitemia. Lymphotoxin-alpha gene (LTA) that belongs to the TNF family is one such candidate gene. Here we report the family-based association analysis of a cis-regulatory lymphotoxin-α polymorphism with parasitemia in two independent populations living in Burkina Faso. Analysis of 199 subjects (34 families) living in an urban endemic area revealed the association of the low producing LTA +80A allele with reduced parasitemia. Furthermore, there was evidence of significant LTA +80-by-age and LTA +80-by-gender interactions. In another set of 318 residents (55 families) in a rural endemic area, we found both the association of the low producing LTA +80A allele with reduced parasitemia and LTA +80-by-age and LTA +80-by-gender interactions. This study suggests that LTA +80 polymorphism influences parasitemia and acts in an age- and gender-dependent manner. [Copyright &y& Elsevier]

Published
2008
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49. Association analyses of NCR3 polymorphisms with P. falciparum mild malaria

Author

Delahaye, Nicolas F., Barbier, Mathieu, Fumoux, Francis, and Rihet, Pascal

Subjects
*MALARIA, *PROTOZOAN diseases, *FEVER, *PLASMODIUM falciparum
Abstract

Abstract: Plasmodium falciparum malaria is a major cause of morbidity and mortality in many developing countries especially in sub-Saharan Africa. A susceptibility locus for mild malaria has been mapped to the MHC region, and TNF polymorphisms have been associated with mild malaria. The Natural Cytotoxicity-triggering Receptor 3 (NCR3) gene is located in the peak region of linkage, and is 15kb distal to TNF. In this study, we considered NCR3 as a candidate gene, and we genotyped ten NCR3 single nucleotide polymorphisms (SNPs). Here, we report evidence of an association between mild malaria and NCR3 −412G>C polymorphism located within the promoter. Population-based association analysis showed that NCR3 −412C carriers had more frequent mild malaria attacks than NCR3 −412GG individuals (P = 0.001). Using the family-based association test (FBAT) program and its phenotype (PBAT) option, we further found that NCR3 −412C (P = 0.0009) and a haplotype containing NCR3 −412C (P = 0.008) were significantly associated with increased risk of mild malaria, and that the association was not due to the association of TNF with mild malaria. These observations suggest that there are at least two genes located on the central region of MHC involved in genetic control of human malaria. The association of NCR3 with malaria should provide new insights into the role of Natural Killer cells in this common disease. [Copyright &y& Elsevier]

Published
2007
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50. Single-Cell Transcriptome Analysis of Acute Myeloid Leukemia Cells Using Methanol Fixation and Cryopreservation.

Author

Madaci L, Gard C, Nin S, Sarrabay A, Baier C, Venton G, Rihet P, Puthier D, Loriod B, and Costello R

Abstract

Introduction: The application of single-cell RNA sequencing has greatly improved our understanding of various cellular and molecular mechanisms involved in physiological and pathophysiological processes. However, obtaining living cells for this technique can be difficult under certain conditions. To solve this problem, the methanol fixation method appeared as a promising alternative for routine clinical use., Materials and Methods: In this study, we selected two AML samples that had been fixed in methanol for 12-18 months. Once the cells were rehydrated, these samples were subjected to single-cell RNA sequencing. We then compared the results obtained from these samples with those obtained from the same samples cryopreserved in DMSO., Results: We used a previously validated methanol fixation protocol to perform scRNA-seq on DMSO cryopreserved cells and cells fixed in methanol for more than one year. Preliminary results show that methanol fixation induces some genetic and transcriptional modification compared with DMSO cryopreservation but remains a valuable method for single-cell analysis of primary human leukemia cells., Conclusions: The initial findings from this study highlight certain resemblances in methanol fixation over a 12-month period and cryopreservation with DMSO, along with associated transcriptional level modifications. However, we observed genetic degradation in the fixation condition when extending beyond one year. Despite certain study limitations, it is evident that short-term methanol fixation can be effectively used for leukemia blast samples. Its ease of implementation holds the potential to simplify the integration of this technique into routine clinical practice.

Published
2023
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