Your search keyword '"Ernest Diez Benavente"' showing total 85 results

1. Vitamin C facilitates direct cardiac reprogramming by inhibiting reactive oxygen species

Author

Juntao Fang, Qiangbing Yang, Renée G. C. Maas, Michele Buono, Bram Meijlink, Dyonne Lotgerink Bruinenberg, Ernest Diez Benavente, Michal Mokry, Alain van Mil, Li Qian, Marie-José Goumans, Raymond Schiffelers, Zhiyong Lei, and Joost P. G. Sluijter

Subjects

Vitamin C, Cardiac reprogramming, ROS, Cardiac regeneration, Medicine (General), R5-920, Biochemistry, QD415-436

Abstract

Abstract Background After myocardial infarction, the lost myocardium is replaced by fibrotic tissue, eventually progressively leading to myocardial dysfunction. Direct reprogramming of fibroblasts into cardiomyocytes via the forced overexpression of cardiac transcription factors Gata4, Mef2c, and Tbx5 (GMT) offers a promising strategy for cardiac repair. The limited reprogramming efficiency of this approach, however, remains a significant challenge. Methods We screened seven factors capable of improving direct cardiac reprogramming of both mice and human fibroblasts by evaluating small molecules known to be involved in cardiomyocyte differentiation or promoting human-induced pluripotent stem cell reprogramming. Results We found that vitamin C (VitC) significantly increased cardiac reprogramming efficiency when added to GMT-overexpressing fibroblasts from human and mice in 2D and 3D model. We observed a significant increase in reactive oxygen species (ROS) generation in human and mice fibroblasts upon Doxy induction, and ROS generation was subsequently reduced upon VitC treatment, associated with increased reprogramming efficiency. However, upon treatment with dehydroascorbic acid, a structural analog of VitC but lacking antioxidant properties, no difference in reprogramming efficiency was observed, suggesting that the effect of VitC in enhancing cardiac reprogramming is partly dependent of its antioxidant properties. Conclusions Our findings demonstrate that VitC supplementation significantly enhances the efficiency of cardiac reprogramming, partially by suppressing ROS production in the presence of GMT. Graphical abstract

Published

2024

2. Genomic analysis of Plasmodium vivax describes patterns of connectivity and putative drivers of adaptation in Ethiopia

Author

Alebachew Messele Kebede, Edwin Sutanto, Hidayat Trimarsanto, Ernest Diez Benavente, Mariana Barnes, Richard D. Pearson, Sasha V. Siegel, Berhanu Erko, Ashenafi Assefa, Sisay Getachew, Abraham Aseffa, Beyene Petros, Eugenia Lo, Rezika Mohammed, Daniel Yilma, Angela Rumaseb, Francois Nosten, Rintis Noviyanti, Julian C. Rayner, Dominic P. Kwiatkowski, Ric N. Price, Lemu Golassa, and Sarah Auburn

Subjects

Medicine, Science

Abstract

Abstract Ethiopia has the greatest burden of Plasmodium vivax in Africa, but little is known about the epidemiological landscape of parasites across the country. We analysed the genomic diversity of 137 P. vivax isolates collected nine Ethiopian districts from 2012 to 2016. Signatures of selection were detected by cross-country comparisons with isolates from Thailand (n = 104) and Indonesia (n = 111), representing regions with low and high chloroquine resistance respectively. 26% (35/137) of Ethiopian infections were polyclonal, and 48.5% (17/35) of these comprised highly related clones (within-host identity-by-descent > 25%), indicating frequent co-transmission and superinfection. Parasite gene flow between districts could not be explained entirely by geographic distance, with economic and cultural factors hypothesised to have an impact on connectivity. Amplification of the duffy binding protein gene (pvdbp1) was prevalent across all districts (16–75%). Cross-population haplotype homozygosity revealed positive selection in a region proximal to the putative chloroquine resistance transporter gene (pvcrt-o). An S25P variant in amino acid transporter 1 (pvaat1), whose homologue has recently been implicated in P. falciparum chloroquine resistance evolution, was prevalent in Ethiopia (96%) but not Thailand or Indonesia (35–53%). The genomic architecture in Ethiopia highlights circulating variants of potential public health concern in an endemic setting with evidence of stable transmission.

Published

2023

3. Genomics of Plasmodium vivax in Colombia reveals evidence of local bottle-necking and inter-country connectivity in the Americas

Author

Edwin Sutanto, Zuleima Pava, Diego F. Echeverry, Tatiana M. Lopera-Mesa, Lidia Madeline Montenegro, Maria F. Yasnot-Acosta, Ernest Diez Benavente, Richard D. Pearson, Sócrates Herrera, Myriam Arévalo-Herrera, Hidayat Trimarsanto, Angela Rumaseb, Rintis Noviyanti, Dominic P. Kwiatkowski, Ric N. Price, and Sarah Auburn

Subjects

Medicine, Science

Abstract

Abstract Colombia aims to eliminate malaria by 2030 but remains one of the highest burden countries in the Americas. Plasmodium vivax contributes half of all malaria cases, with its control challenged by relapsing parasitaemia, drug resistance and cross-border spread. Using 64 Colombian P. vivax genomes collected between 2013 and 2017, we explored diversity and selection in two major foci of transmission: Chocó and Córdoba. Open-access data from other countries were used for comparative assessment of drug resistance candidates and to assess cross-border spread. Across Colombia, polyclonal infections were infrequent (12%), and infection connectivity was relatively high (median IBD = 5%), consistent with low endemicity. Chocó exhibited a higher frequency of polyclonal infections (23%) than Córdoba (7%), although the difference was not significant (P = 0.300). Most Colombian infections carried double pvdhfr (95%) and single pvdhps (71%) mutants, but other drug resistance mutations were less prevalent (

Published

2023

4. X chromosome inactivation skewing is common in advanced carotid atherosclerotic lesions in females and predicts secondary peripheral artery events

Author

Michele F. Buono, Ernest Diez Benavente, Mark Daniels, Barend M. Mol, Joost M. Mekke, Gert J. de Borst, Dominique P. V. de Kleijn, Sander W. van der Laan, Gerard Pasterkamp, Charlotte Onland-Moret, Michal Mokry, and Hester M. den Ruijter

Subjects

Atherosclerosis, Sex-differences, XCI skewing, Vascular, Carotid, Peripheral, Medicine, Physiology, QP1-981

Abstract

Abstract Background and aim Sex differences in atherosclerosis have been described with female plaques being mostly perceived as stable and fibrous. Sex-specific mechanisms such as mosaic loss of the Y chromosome in men have been linked to cardiovascular health. In women, X-linked mechanisms such as X chromosome inactivation (XCI) skewing is common in several tissues. Yet, information on the role of XCI in female atherosclerotic plaques is lacking. Here, we investigated the presence of XCI skewing in advanced atherosclerotic lesions and its association with cardiovascular risk factors, histological plaque data, and clinical data. Methods XCI skewing was quantified in 154 atherosclerotic plaque and 55 blood DNA samples of women included in the Athero-Express study. The skewing status was determined performing the HUMARA assay. Then, we studied the relationship of XCI skewing in female plaque and cardiovascular risk factors using regression models. In addition, we studied if plaque XCI predicted plaque composition, and adverse events during 3-years follow-up using Cox proportional hazard models. Results XCI skewing was detected in 76 of 154 (49.4%) plaques and in 27 of 55 (67%) blood samples. None of the clinical risk factors were associated with plaque skewing. Plaque skewing was more often detected in plaques with a plaque hemorrhage (OR [95% CI]: 1.44 [1.06–1.98], P = 0.02). Moreover, skewed plaques were not associated with a higher incidence of composite and major events but were specifically associated with peripheral artery events during a 3-year follow-up period in a multivariate model (HR [95%CI]: 1.46 [1.09–1.97]; P = 0.007). Conclusions XCI skewing is common in carotid plaques of females and is predictive for the occurrence of peripheral artery events within 3 years after carotid endarterectomy.

Published

2023

5. Human Plaque Myofibroblasts to Study Mechanisms of Atherosclerosis

Author

Michele F. Buono, Ernest Diez Benavente, Lotte Slenders, Daisey Methorst, Daniëlle Tessels, Eloi Mili, Roxy Finger, Daniek Kapteijn, Mark Daniels, Noortje A. M. van den Dungen, Jorg J. A. Calis, Barend M. Mol, Gert J. de Borst, Dominique P. V. de Kleijn, Gerard Pasterkamp, Hester M. den Ruijter, and Michal Mokry

Subjects

disease modeling, myofibroblast, phenotypic modulation, plaque cells, smooth muscle cell, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Background Plaque myofibroblasts are critical players in the initiation and advancement of atherosclerotic disease. They are involved in the production of extracellular matrix, the formation of the fibrous cap, and the underlying lipidic core via modulation processes in response to different environmental cues. Despite clear phenotypic differences between myofibroblast cells and healthy vascular smooth muscle cells, smooth muscle cells are still widely used as a cellular model in atherosclerotic research. Methods and Results Here, we present a conditioned outgrowth method to isolate and culture myofibroblast cells from plaques. We obtained these cells from 27 donors (24 carotid and 3 femoral endarterectomies). We show that they keep their proliferative capacity for 8 passages, are transcriptionally stable, retain donor‐specific gene expression programs, and express extracellular matrix proteins (FN1, COL1A1, and DCN) and smooth muscle cell markers (ACTA2, MYH11, and CNN1). Single‐cell transcriptomics reveals that the cells in culture closely resemble the plaque myofibroblasts. Chromatin immunoprecipitation sequencing shows the presence of histone H3 lysine 4 dimethylation at the MYH11 promoter, pointing to their smooth muscle cell origin. Finally, we demonstrated that plaque myofibroblasts can be efficiently transduced (>97%) and are capable of taking up oxidized low‐density lipoprotein and undergoing calcification. Conclusions In conclusion, we present a method to isolate and culture cells that retain plaque myofibroblast phenotypical and functional capabilities, making them a suitable in vitro model for studying selected mechanisms of atherosclerosis.

Published

2023

6. Deep learning-derived cardiovascular age shares a genetic basis with other cardiac phenotypes

Author

Julian Libiseller-Egger, Jody E. Phelan, Zachi I. Attia, Ernest Diez Benavente, Susana Campino, Paul A. Friedman, Francisco Lopez-Jimenez, David A. Leon, and Taane G. Clark

Subjects

Medicine, Science

Abstract

Abstract Artificial intelligence (AI)-based approaches can now use electrocardiograms (ECGs) to provide expert-level performance in detecting heart abnormalities and diagnosing disease. Additionally, patient age predicted from ECGs by AI models has shown great potential as a biomarker for cardiovascular age, where recent work has found its deviation from chronological age (“delta age”) to be associated with mortality and co-morbidities. However, despite being crucial for understanding underlying individual risk, the genetic underpinning of delta age is unknown. In this work we performed a genome-wide association study using UK Biobank data (n=34,432) and identified eight loci associated with delta age ( $$p\le 5 \times 10^{-8}$$ p ≤ 5 × 10 - 8 ), including genes linked to cardiovascular disease (CVD) (e.g. SCN5A) and (heart) muscle development (e.g. TTN). Our results indicate that the genetic basis of cardiovascular ageing is predominantly determined by genes directly involved with the cardiovascular system rather than those connected to more general mechanisms of ageing. Our insights inform the epidemiology of CVD, with implications for preventative and precision medicine.

Published

2022

7. Skin microbiome alters attractiveness to Anopheles mosquitoes

Author

Alicia Showering, Julien Martinez, Ernest Diez Benavente, Salvador A. Gezan, Robert T. Jones, Catherine Oke, Scott Tytheridge, Elizabeth Pretorius, Darren Scott, Rachel L. Allen, Umberto D’Alessandro, Steve W. Lindsay, John A. L. Armour, John Pickett, and James G. Logan

Subjects

Malaria, Body odour, Skin microbiome, Anopheles coluzzii, Mosquitoes, Human attractiveness, Microbiology, QR1-502

Abstract

Abstract Background Some people produce specific body odours that make them more attractive than others to mosquitoes, and consequently are at higher risk of contracting vector-borne diseases. The skin microbiome can break down carbohydrates, fatty acids and peptides on the skin into volatiles that mosquitoes can differentiate. Results Here, we examined how skin microbiome composition of women differs in relation to level of attractiveness to Anopheles coluzzii mosquitoes, to identify volatiles in body odour and metabolic pathways associated with individuals that tend to be poorly-attractive to mosquitoes. We used behavioural assays to measure attractiveness of participants to An. coluzzii mosquitoes, 16S rRNA amplicon sequencing of the bacteria sampled from the skin and gas chromatography of volatiles in body odour. We found differences in skin microbiome composition between the poorly- and highly-attractive groups, particularly eight Amplicon Sequence Variants (ASVs) belonging to the Proteobacteria, Actinobacteria and Firmicutes phyla. Staphylococcus 2 ASVs are four times as abundant in the highly-attractive compared to poorly-attractive group. Associations were found between these ASVs and volatiles known to be attractive to Anopheles mosquitoes. Propanoic pathways are enriched in the poorly-attractive participants compared to those found to be highly-attractive. Conclusions Our findings suggest that variation in attractiveness of people to mosquitoes is related to the composition of the skin microbiota, knowledge that could improve odour-baited traps or other next generation vector control tools.

Published

2022

8. Population-based genomic study of Plasmodium vivax malaria in seven Brazilian states and across South AmericaResearch in context

Author

Amy Ibrahim, Emilia Manko, Jamille G. Dombrowski, Mónica Campos, Ernest Diez Benavente, Debbie Nolder, Colin J. Sutherland, Francois Nosten, Diana Fernandez, Gabriel Vélez-Tobón, Alberto Tobón Castaño, Anna Caroline C. Aguiar, Dhelio Batista Pereira, Simone da Silva Santos, Martha Suarez-Mutis, Silvia Maria Di Santi, Andrea Regina de Souza Baptista, Ricardo Luiz Dantas Machado, Claudio R.F. Marinho, Taane G. Clark, and Susana Campino

Subjects

Malaria, Plasmodium, Plasmodium vivax, Non-falciparum malaria, Brazil, South America, Public aspects of medicine, RA1-1270

Abstract

Summary: Background: Brazil is a unique and understudied setting for malaria, with complex foci of transmission associated with human and environmental conditions. An understanding of the population genomic diversity of P. vivax parasites across Brazil can support malaria control strategies. Methods: Through whole genome sequencing of P. vivax isolates across 7 Brazilian states, we use population genomic approaches to compare genetic diversity within country (n = 123), continent (6 countries, n = 315) and globally (26 countries, n = 885). Findings: We confirm that South American isolates are distinct, have more ancestral populations than the other global regions, with differentiating mutations in genes under selective pressure linked to antimalarial drugs (pvmdr1, pvdhfr-ts) and mosquito vectors (pvcrmp3, pvP45/48, pvP47). We demonstrate Brazil as a distinct parasite population, with signals of selection including ABC transporter (PvABCI3) and PHIST exported proteins. Interpretation: Brazil has a complex population structure, with evidence of P. simium infections and Amazonian parasites separating into multiple clusters. Overall, our work provides the first Brazil-wide analysis of P. vivax population structure and identifies important mutations, which can inform future research and control measures. Funding: AI is funded by an MRC LiD PhD studentship. TGC is funded by the Medical Research Council (Grant no. MR/M01360X/1, MR/N010469/1, MR/R025576/1, MR/R020973/1 and MR/X005895/1). SC is funded by Medical Research Council UK grants (MR/M01360X/1, MR/R025576/1, MR/R020973/1 and MR/X005895/1) and Bloomsbury SET (ref. CCF17-7779). FN is funded by The Shloklo Malaria Research Unit - part of the Mahidol Oxford Research Unit, supported by the Wellcome Trust (Grant no. 220211). ARSB is funded by São Paulo Research Foundation - FAPESP (Grant no. 2002/09546–1). RLDM is funded by Brazilian National Council for Scientific and Technological Development - CNPq (Grant no. 302353/2003–8 and 471605/2011–5); CRFM is funded by FAPESP (Grant no. 2020/06747–4) and CNPq (Grant no. 302917/2019–5 and 408636/2018–1); JGD is funded by FAPESP fellowships (2016/13465–0 and 2019/12068–5) and CNPq (Grant no. 409216/2018–6).

Published

2023

9. Artemether-lumefantrine treatment failure of uncomplicated Plasmodium falciparum malaria in travellers coming from Angola and Mozambique

Author

André Silva-Pinto, João Domingos, Margarida Cardoso, Ana Reis, Ernest Diez Benavente, João Paulo Caldas, Cláudia Conceição, Cristina Toscano, Teresa Baptista-Fernandes, Taane G. Clark, Kamal Mansinho, Susana Campino, and Fatima Nogueira

Subjects

Artemether-Lumefantrine, Plasmodium falciparum, Therapeutic failure, Infectious and parasitic diseases, RC109-216

Abstract

ABSTRACT: The failure of artemisinin combination therapy (ACT) in malaria patients returning from endemic regions may be driven by parasite resistance to this treatment. ACT is used globally as the first-line treatment for Plasmodium falciparum malaria. However, artemisinin-resistant strains of P. falciparum have emerged and spread across Southeast Asia, with the risk of reaching high malaria burden regions in Africa and elsewhere. Here, we report on two malaria imported cases from Africa with possible parasite resistance to the ACT artemether-lumefantrine (AL).Case presentation: Two middle-aged males returning from Angola and Mozambique developed malaria symptoms in Portugal, where they were diagnosed and received treatment with AL as hospital inpatients. After apparent cure and discharge from hospital, these individuals returned to hospital showing signs of late clinical failure. Molecular analysis was performed across a number of drug resistance associated genes. No evidence of pfk13-mediated artemisinin resistance was found. Both subjects had complete parasite clearance after treatment with non-ACT antimalarials.Conclusion: Our case-studies highlights the need for close monitoring of signs of unsatisfactory antimalarial efficacy among AL treated patients and the possible implication of other genes or mutations in the parasite response to ACTs.

Published

2021

10. Failure of rapid diagnostic tests in Plasmodium falciparum malaria cases among travelers to the UK and Ireland: Identification and characterisation of the parasites

Author

Debbie Nolder, Lindsay Stewart, Julie Tucker, Amy Ibrahim, Adam Gray, Tumena Corrah, Carmel Gallagher, Laurence John, Edel O’Brien, Dinesh Aggarwal, Ernest Diez Benavente, Donelly van Schalkwyk, Gisela Henriques, Nuno Sepúlveda, Susana Campino, Peter Chiodini, Colin Sutherland, and Khalid B. Beshir

Subjects

RDT, Malaria, pfhrp2, pfhrp3, Deletion, Plasmodium, Infectious and parasitic diseases, RC109-216

Abstract

Objectives: Our objective was to systematically investigate false-negative histidine-rich protein 2 rapid diagnostic tests (HRP2-RDT) in imported Plasmodium falciparum malaria cases from travelers to the UK and the Republic of Ireland (RoI). Methods: Five imported malaria cases in travellers returning to the UK and RoI from East Africa were reported to the PHE Malaria Reference Laboratory as negative according to histidine-rich protein (HRP2)-RDT. The cases were systematically investigated using microscopic, RDT, molecular, genomic, and in in vitro approaches. Results: In each case, HRP2-RDT was negative, whereas microscopy confirmed the presence of P. falciparum. Further analysis revealed that the genes encoding HRP2 and HRP3 were deleted in three of the five cases. Whole-genome sequencing in one of these isolates confirmed deletions in P. falciparum chromosomes 8 and 13. Our study produced evidence that the fourth case, which had high parasitemia at clinical presentation, was a rare example of antigen saturation (‘prozone-like effect’), leading to a false negative in the HRP2-RDT, while the fifth case was due to low parasitemia. Conclusions: False-negative HRP2-RDT results with P. falciparum are concerning. Our findings emphasise the necessity of supporting the interpretation of RDT results with microscopy, in conjunction with clinical observations, and sets out a systematic approach to identifying parasites carrying pfhrp2 and pfhrp3 deletions.

Published

2021

11. Using deep learning to identify recent positive selection in malaria parasite sequence data

Author

Wouter Deelder, Ernest Diez Benavente, Jody Phelan, Emilia Manko, Susana Campino, Luigi Palla, and Taane G. Clark

Subjects

Plasmodium falciparum, Plasmodium vivax, Population genomics, Drug resistance, Machine learning, Positive selection, Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Malaria, caused by Plasmodium parasites, is a major global public health problem. To assist an understanding of malaria pathogenesis, including drug resistance, there is a need for the timely detection of underlying genetic mutations and their spread. With the increasing use of whole-genome sequencing (WGS) of Plasmodium DNA, the potential of deep learning models to detect loci under recent positive selection, historically signals of drug resistance, was evaluated. Methods A deep learning-based approach (called “DeepSweep”) was developed, which can be trained on haplotypic images from genetic regions with known sweeps, to identify loci under positive selection. DeepSweep software is available from https://github.com/WDee/Deepsweep . Results Using simulated genomic data, DeepSweep could detect recent sweeps with high predictive accuracy (areas under ROC curve > 0.95). DeepSweep was applied to Plasmodium falciparum (n = 1125; genome size 23 Mbp) and Plasmodium vivax (n = 368; genome size 29 Mbp) WGS data, and the genes identified overlapped with two established extended haplotype homozygosity methods (within-population iHS, across-population Rsb) (~ 60–75% overlap of hits at P

Published

2021

12. Flavivirus integrations in Aedes aegypti are limited and highly conserved across samples from different geographic regions unlike integrations in Aedes albopictus

Author

Anton Spadar, Jody E. Phelan, Ernest Diez Benavente, Monica Campos, Lara Ferrero Gomez, Fady Mohareb, Taane G. Clark, and Susana Campino

Subjects

Mosquito, Aedes, Flavivirus, Arbovirus, Endogenous viral element, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Mosquitoes of the genus Aedes are the main vectors of many viruses, e.g. dengue and Zika, which affect millions of people each year and for which there are limited treatment options. Understanding how Aedes mosquitoes tolerate high viral loads may lead to better disease control strategies. Elucidating endogenous viral elements (EVEs) within vector genomes may give exploitable biological insights. Previous studies have reported the presence of a large number of EVEs in Aedes genomes. Here we investigated if flavivirus EVEs are conserved across populations and different Aedes species by using ~ 500 whole genome sequence libraries from Aedes aegypti and Aedes albopictus, sourced from colonies and field mosquitoes across continents. We found that nearly all flavivirus EVEs in the Ae. aegypti reference genome originate from four separate putative viral integration events, and that they are highly conserved across geographically diverse samples. By contrast, flavivirus EVEs in the Ae. albopictus reference genome originate from up to nine distinct integration events and show low levels of conservation, even within samples from narrow geographical ranges. Our analysis suggests that flaviviruses integrated as long sequences and were subsequently fragmented and shuffled by transposable elements. Given that EVEs of Ae. aegypti and Ae. albopictus belong to different phylogenetic clades and have very differing levels of conservation, they may have different evolutionary origins and potentially different functional roles.

Published

2021

13. Distinctive genetic structure and selection patterns in Plasmodium vivax from South Asia and East Africa

Author

Ernest Diez Benavente, Emilia Manko, Jody Phelan, Monica Campos, Debbie Nolder, Diana Fernandez, Gabriel Velez-Tobon, Alberto Tobón Castaño, Jamille G. Dombrowski, Claudio R. F. Marinho, Anna Caroline C. Aguiar, Dhelio Batista Pereira, Kanlaya Sriprawat, Francois Nosten, Robert Moon, Colin J. Sutherland, Susana Campino, and Taane G. Clark

Subjects

Science

Abstract

The genetic diversity of Plasmodium vivax strains in South Asia isn’t well described. Here, the authors sequence P. vivax from returning UK travelers and establish South Asian isolates as subpopulation distinct from East African and South East Asian isolates.

Published

2021

14. An inter-laboratory study to investigate the impact of the bioinformatics component on microbiome analysis using mock communities

Author

Denise M. O’Sullivan, Ronan M. Doyle, Sasithon Temisak, Nicholas Redshaw, Alexandra S. Whale, Grace Logan, Jiabin Huang, Nicole Fischer, Gregory C. A. Amos, Mark D. Preston, Julian R. Marchesi, Josef Wagner, Julian Parkhill, Yair Motro, Hubert Denise, Robert D. Finn, Kathryn A. Harris, Gemma L. Kay, Justin O’Grady, Emma Ransom-Jones, Huihai Wu, Emma Laing, David J. Studholme, Ernest Diez Benavente, Jody Phelan, Taane G. Clark, Jacob Moran-Gilad, and Jim F. Huggett

Subjects

Medicine, Science

Abstract

Abstract Despite the advent of whole genome metagenomics, targeted approaches (such as 16S rRNA gene amplicon sequencing) continue to be valuable for determining the microbial composition of samples. Amplicon microbiome sequencing can be performed on clinical samples from a normally sterile site to determine the aetiology of an infection (usually single pathogen identification) or samples from more complex niches such as human mucosa or environmental samples where multiple microorganisms need to be identified. The methodologies are frequently applied to determine both presence of micro-organisms and their quantity or relative abundance. There are a number of technical steps required to perform microbial community profiling, many of which may have appreciable precision and bias that impacts final results. In order for these methods to be applied with the greatest accuracy, comparative studies across different laboratories are warranted. In this study we explored the impact of the bioinformatic approaches taken in different laboratories on microbiome assessment using 16S rRNA gene amplicon sequencing results. Data were generated from two mock microbial community samples which were amplified using primer sets spanning five different variable regions of 16S rRNA genes. The PCR-sequencing analysis included three technical repeats of the process to determine the repeatability of their methods. Thirteen laboratories participated in the study, and each analysed the same FASTQ files using their choice of pipeline. This study captured the methods used and the resulting sequence annotation and relative abundance output from bioinformatic analyses. Results were compared to digital PCR assessment of the absolute abundance of each target representing each organism in the mock microbial community samples and also to analyses of shotgun metagenome sequence data. This ring trial demonstrates that the choice of bioinformatic analysis pipeline alone can result in different estimations of the composition of the microbiome when using 16S rRNA gene amplicon sequencing data. The study observed differences in terms of both presence and abundance of organisms and provides a resource for ensuring reproducible pipeline development and application. The observed differences were especially prevalent when using custom databases and applying high stringency operational taxonomic unit (OTU) cut-off limits. In order to apply sequencing approaches with greater accuracy, the impact of different analytical steps needs to be clearly delineated and solutions devised to harmonise microbiome analysis results.

Published

2021

15. Drug resistance profile and clonality of Plasmodium falciparum parasites in Cape Verde: the 2017 malaria outbreak

Author

Silvania Da Veiga Leal, Daniel Ward, Susana Campino, Ernest Diez Benavente, Amy Ibrahim, Tânia Claret, Varela Isaías, Davidson Monteiro, Taane G. Clark, Luzia Gonçalves, Tomas Valdez, Maria da Luz Lima Mendonça, Henrique Silveira, and Fatima Nogueira

Subjects

Malaria, Plasmodium falciparum, Drug resistance, Genetics, Sequencing, Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Cape Verde is an archipelago located off the West African coast and is in a pre-elimination phase of malaria control. Since 2010, fewer than 20 Plasmodium falciparum malaria cases have been reported annually, except in 2017, when an outbreak in Praia before the rainy season led to 423 autochthonous cases. It is important to understand the genetic diversity of circulating P. falciparum to inform on drug resistance, potential transmission networks and sources of infection, including parasite importation. Methods Enrolled subjects involved malaria patients admitted to Dr Agostinho Neto Hospital at Praia city, Santiago island, Cape Verde, between July and October 2017. Neighbours and family members of enrolled cases were assessed for the presence of anti-P. falciparum antibodies. Sanger sequencing and real-time PCR was used to identify SNPs in genes associated with drug resistance (e.g., pfdhfr, pfdhps, pfmdr1, pfk13, pfcrt), and whole genome sequencing data were generated to investigate the population structure of P. falciparum parasites. Results The study analysed 190 parasite samples, 187 indigenous and 3 from imported infections. Malaria cases were distributed throughout Praia city. There were no cases of severe malaria and all patients had an adequate clinical and parasitological response after treatment. Anti-P. falciparum antibodies were not detected in the 137 neighbours and family members tested. No mutations were detected in pfdhps. The triple mutation S108N/N51I/C59R in pfdhfr and the chloroquine-resistant CVIET haplotype in the pfcrt gene were detected in almost all samples. Variations in pfk13 were identified in only one sample (R645T, E668K). The haplotype NFD for pfmdr1 was detected in the majority of samples (89.7%). Conclusions Polymorphisms in pfk13 associated with artemisinin-based combination therapy (ACT) tolerance in Southeast Asia were not detected, but the majority of the tested samples carried the pfmdr1 haplotype NFD and anti-malarial-associated mutations in the the pfcrt and pfdhfr genes. The first whole genome sequencing (WGS) was performed for Cape Verdean parasites that showed that the samples cluster together, have a very high level of similarity and are close to other parasites populations from West Africa.

Published

2021

16. The antimalarial efficacy and mechanism of resistance of the novel chemotype DDD01034957

Author

Celia Miguel-Blanco, James M. Murithi, Ernest Diez Benavente, Fiona Angrisano, Katarzyna A. Sala, Donelly A. van Schalkwyk, Manu Vanaerschot, Frank Schwach, Matthew J. Fuchter, Oliver Billker, Colin J. Sutherland, Susana G. Campino, Taane G. Clark, Andrew M. Blagborough, David A. Fidock, Esperanza Herreros, Francisco Javier Gamo, Jake Baum, and Michael J. Delves

Subjects

Medicine, Science

Abstract

Abstract New antimalarial therapeutics are needed to ensure that malaria cases continue to be driven down, as both emerging parasite resistance to frontline chemotherapies and mosquito resistance to current insecticides threaten control programmes. Plasmodium, the apicomplexan parasite responsible for malaria, causes disease pathology through repeated cycles of invasion and replication within host erythrocytes (the asexual cycle). Antimalarial drugs primarily target this cycle, seeking to reduce parasite burden within the host as fast as possible and to supress recrudescence for as long as possible. Intense phenotypic drug screening efforts have identified a number of promising new antimalarial molecules. Particularly important is the identification of compounds with new modes of action within the parasite to combat existing drug resistance and suitable for formulation of efficacious combination therapies. Here we detail the antimalarial properties of DDD01034957—a novel antimalarial molecule which is fast-acting and potent against drug resistant strains in vitro, shows activity in vivo, and possesses a resistance mechanism linked to the membrane transporter PfABCI3. These data support further medicinal chemistry lead-optimization of DDD01034957 as a novel antimalarial chemical class and provide new insights to further reduce in vivo metabolic clearance.

Published

2021

17. De Novo Assembly of Plasmodium knowlesi Genomes From Clinical Samples Explains the Counterintuitive Intrachromosomal Organization of Variant SICAvar and kir Multiple Gene Family Members

Author

Damilola R. Oresegun, Peter Thorpe, Ernest Diez Benavente, Susana Campino, Fauzi Muh, Robert William Moon, Taane Gregory Clark, and Janet Cox-Singh

Subjects

Plasmodium knowlesi, genomes, clinical samples, SICAvar, kir, Nanopore, Genetics, QH426-470

Abstract

Plasmodium knowlesi, a malaria parasite of Old World macaque monkeys, is used extensively to model Plasmodium biology. Recently, P. knowlesi was found in the human population of Southeast Asia, particularly Malaysia. P. knowlesi causes uncomplicated to severe and fatal malaria in the human host with features in common with the more prevalent and virulent malaria caused by Plasmodium falciparum. As such, P. knowlesi presents a unique opportunity to develop experimental translational model systems for malaria pathophysiology informed by clinical data from same-species human infections. Experimental lines of P. knowlesi represent well-characterized genetically stable parasites, and to maximize their utility as a backdrop for understanding malaria pathophysiology, genetically diverse contemporary clinical isolates, essentially wild-type, require comparable characterization. The Oxford Nanopore PCR-free long-read sequencing platform was used to sequence and de novo assemble P. knowlesi genomes from frozen clinical samples. The sequencing platform and assembly pipelines were designed to facilitate capturing data and describing, for the first time, P. knowlesi schizont-infected cell agglutination (SICA) var and Knowlesi-Interspersed Repeats (kir) multiple gene families in parasites acquired from nature. The SICAvar gene family members code for antigenically variant proteins analogous to the virulence-associated P. falciparum erythrocyte membrane protein (PfEMP1) multiple var gene family. Evidence presented here suggests that the SICAvar family members have arisen through a process of gene duplication, selection pressure, and variation. Highly evolving genes including PfEMP1family members tend to be restricted to relatively unstable sub-telomeric regions that drive change with core genes protected in genetically stable intrachromosomal locations. The comparable SICAvar and kir gene family members are counter-intuitively located across chromosomes. Here, we demonstrate that, in contrast to conserved core genes, SICAvar and kir genes occupy otherwise gene-sparse chromosomal locations that accommodate rapid evolution and change. The novel methods presented here offer the malaria research community not only new tools to generate comprehensive genome sequence data from small clinical samples but also new insight into the complexity of clinically important real-world parasites.

Published

2022

18. Plasma Testosterone Levels and Atherosclerotic Plaque Gene Expression in Men With Advanced Atherosclerosis

Author

Floor Groepenhoff, Ernest Diez Benavente, Arjan Boltjes, Nathalie Timmerman, Farahnaz Waissi, Robin J. G. Hartman, N. C. Onland-Moret, Gerard Pasterkamp, and Hester Den Ruijter

Subjects

testosterone, atherosclerosis, RNA-expression, transcriptome (RNA-seq), men, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Aims: Low plasma testosterone levels have been shown to predict worse outcome in men with severe atherosclerotic disease. We hypothesized that a low plasma testosterone level affects disease risk through changes in gene expression in atherosclerotic plaques. Therefore, we studied plasma testosterone levels in relation to gene expression levels in atherosclerotic plaque tissue of men with advanced atherosclerotic disease.Methods: Plasma testosterone levels were measured in 203 men undergoing carotid endarterectomy. The corresponding atherosclerotic plaque tissue was used for RNA sequencing. First, we assessed how often the androgen receptor gene was expressed in the plaque. Second, correlations between plasma testosterone levels and pre-selected testosterone-sensitive genes were assessed. Finally, differences within the RNA expression profile of the plaque as a whole, characterized into gene regulatory networks and at individual gene level were assessed in relation to testosterone levels.Results: Testosterone plasma levels were low with a median of 11.6 nmol/L (IQR: 8.6–13.8). RNA-seq of the plaque resulted in reliable expression data for 18,850 genes to be analyzed. Within the RNA seq data, the androgen-receptor gene was expressed in 189 out of 203 (93%) atherosclerotic plaques of men undergoing carotid endarterectomy. The androgen receptor gene expression was not associated with testosterone plasma levels. There were no significant differences in gene expression of atherosclerotic plaques between different endogenous testosterone levels. This remained true for known testosterone-sensitive genes, the complete transcriptomic profile, male-specific gene co-expression modules as well as for individual genes.Conclusion: In men with severe atherosclerotic disease the androgen receptor is highly expressed in plaque tissue. However, plasma testosterone levels were neither associated with pre-selected testosterone sensitive genes, gene expression profiles nor gene regulatory networks in late-stage atherosclerotic plaques. The effect of testosterone on gene expression of the late-stage atherosclerotic plaque appears limited, suggesting that alternate mechanisms explain its effect on clinical outcomes.

Published

2021

19. Genetic diversity of the Plasmodium falciparum GTP-cyclohydrolase 1, dihydrofolate reductase and dihydropteroate synthetase genes reveals new insights into sulfadoxine-pyrimethamine antimalarial drug resistance.

Author

Anna Turkiewicz, Emilia Manko, Colin J Sutherland, Ernest Diez Benavente, Susana Campino, and Taane G Clark

Subjects

Genetics, QH426-470

Abstract

Plasmodium falciparum parasites resistant to antimalarial treatments have hindered malaria disease control. Sulfadoxine-pyrimethamine (SP) was used globally as a first-line treatment for malaria after wide-spread resistance to chloroquine emerged and, although replaced by artemisinin combinations, is currently used as intermittent preventive treatment of malaria in pregnancy and in young children as part of seasonal malaria chemoprophylaxis in sub-Saharan Africa. The emergence of SP-resistant parasites has been predominantly driven by cumulative build-up of mutations in the dihydrofolate reductase (pfdhfr) and dihydropteroate synthetase (pfdhps) genes, but additional amplifications in the folate pathway rate-limiting pfgch1 gene and promoter, have recently been described. However, the genetic make-up and prevalence of those amplifications is not fully understood. We analyse the whole genome sequence data of 4,134 P. falciparum isolates across 29 malaria endemic countries, and reveal that the pfgch1 gene and promoter amplifications have at least ten different forms, occurring collectively in 23% and 34% in Southeast Asian and African isolates, respectively. Amplifications are more likely to be present in isolates with a greater accumulation of pfdhfr and pfdhps substitutions (median of 1 additional mutations; P

Published

2020

20. A molecular barcode to inform the geographical origin and transmission dynamics of Plasmodium vivax malaria.

Author

Ernest Diez Benavente, Monica Campos, Jody Phelan, Debbie Nolder, Jamille G Dombrowski, Claudio R F Marinho, Kanlaya Sriprawat, Aimee R Taylor, James Watson, Cally Roper, Francois Nosten, Colin J Sutherland, Susana Campino, and Taane G Clark

Subjects

Genetics, QH426-470

Abstract

Although Plasmodium vivax parasites are the predominant cause of malaria outside of sub-Saharan Africa, they not always prioritised by elimination programmes. P. vivax is resilient and poses challenges through its ability to re-emerge from dormancy in the human liver. With observed growing drug-resistance and the increasing reports of life-threatening infections, new tools to inform elimination efforts are needed. In order to halt transmission, we need to better understand the dynamics of transmission, the movement of parasites, and the reservoirs of infection in order to design targeted interventions. The use of molecular genetics and epidemiology for tracking and studying malaria parasite populations has been applied successfully in P. falciparum species and here we sought to develop a molecular genetic tool for P. vivax. By assembling the largest set of P. vivax whole genome sequences (n = 433) spanning 17 countries, and applying a machine learning approach, we created a 71 SNP barcode with high predictive ability to identify geographic origin (91.4%). Further, due to the inclusion of markers for within population variability, the barcode may also distinguish local transmission networks. By using P. vivax data from a low-transmission setting in Malaysia, we demonstrate the potential ability to infer outbreak events. By characterising the barcoding SNP genotypes in P. vivax DNA sourced from UK travellers (n = 132) to ten malaria endemic countries predominantly not used in the barcode construction, we correctly predicted the geographic region of infection origin. Overall, the 71 SNP barcode outperforms previously published genotyping methods and when rolled-out within new portable platforms, is likely to be an invaluable tool for informing targeted interventions towards elimination of this resilient human malaria.

Published

2020

21. Modest heterologous protection after Plasmodium falciparum sporozoite immunization: a double-blind randomized controlled clinical trial

Author

Jona Walk, Isaie J. Reuling, Marije C. Behet, Lisette Meerstein-Kessel, Wouter Graumans, Geert-Jan van Gemert, Rianne Siebelink-Stoter, Marga van de Vegte-Bolmer, Thorsten Janssen, Karina Teelen, Johannes H. W. de Wilt, Quirijn de Mast, André J. van der Ven, Ernest Diez Benavente, Susana Campino, Taane G. Clark, Martijn A. Huynen, Cornelus C. Hermsen, Else M. Bijker, Anja Scholzen, and Robert W. Sauerwein

Subjects

Plasmodium falciparum, Malaria, Vaccine, Sporozoite, Controlled human malaria infection, Heterologous protection, Medicine

Abstract

Abstract Background A highly efficacious vaccine is needed for malaria control and eradication. Immunization with Plasmodium falciparum NF54 parasites under chemoprophylaxis (chemoprophylaxis and sporozoite (CPS)-immunization) induces the most efficient long-lasting protection against a homologous parasite. However, parasite genetic diversity is a major hurdle for protection against heterologous strains. Methods We conducted a double-blind, randomized controlled trial in 39 healthy participants of NF54-CPS immunization by bites of 45 NF54-infected (n = 24 volunteers) or uninfected mosquitoes (placebo; n = 15 volunteers) against a controlled human malaria infection with the homologous NF54 or the genetically distinct NF135.C10 and NF166.C8 clones. Cellular and humoral immune assays were performed as well as genetic characterization of the parasite clones. Results NF54-CPS immunization induced complete protection in 5/5 volunteers against NF54 challenge infection at 14 weeks post-immunization, but sterilely protected only 2/10 and 1/9 volunteers against NF135.C10 and NF166.C8 challenge infection, respectively. Post-immunization plasma showed a significantly lower capacity to block heterologous parasite development in primary human hepatocytes compared to NF54. Whole genome sequencing showed that NF135.C10 and NF166.C8 have amino acid changes in multiple antigens targeted by CPS-induced antibodies. Volunteers protected against heterologous challenge were among the stronger immune responders to in vitro parasite stimulation. Conclusions Although highly protective against homologous parasites, NF54-CPS-induced immunity is less effective against heterologous parasite clones both in vivo and in vitro. Our data indicate that whole sporozoite-based vaccine approaches require more potent immune responses for heterologous protection. Trial registration This trial is registered in clinicaltrials.gov, under identifier NCT02098590 .

Published

2017

22. Genetic diversity of next generation antimalarial targets: A baseline for drug resistance surveillance programmes

Author

Ana Rita Gomes, Matt Ravenhall, Ernest Diez Benavente, Arthur Talman, Colin Sutherland, Cally Roper, Taane G. Clark, and Susana Campino

Subjects

Infectious and parasitic diseases, RC109-216

Abstract

Drug resistance is a recurrent problem in the fight against malaria. Genetic and epidemiological surveillance of antimalarial resistant parasite alleles is crucial to guide drug therapies and clinical management. New antimalarial compounds are currently at various stages of clinical trials and regulatory evaluation. Using ∼2000 Plasmodium falciparum genome sequences, we investigated the genetic diversity of eleven gene-targets of promising antimalarial compounds and assessed their potential efficiency across malaria endemic regions. We determined if the loci are under selection prior to the introduction of new drugs and established a baseline of genetic variance, including potential resistant alleles, for future surveillance programmes. Keywords: Antimalarial drugs, Drug-resistant mutations, Gene targets, Genetic diversity

Published

2017

23. Machine Learning Predicts Accurately Mycobacterium tuberculosis Drug Resistance From Whole Genome Sequencing Data

Author

Wouter Deelder, Sofia Christakoudi, Jody Phelan, Ernest Diez Benavente, Susana Campino, Ruth McNerney, Luigi Palla, and Taane G. Clark

Subjects

Mycobacterium tuberculosis, MDR-TB, XDR-TB, drug resistance, machine learning, Genetics, QH426-470

Abstract

Background: Tuberculosis disease, caused by Mycobacterium tuberculosis, is a major public health problem. The emergence of M. tuberculosis strains resistant to existing treatments threatens to derail control efforts. Resistance is mainly conferred by mutations in genes coding for drug targets or converting enzymes, but our knowledge of these mutations is incomplete. Whole genome sequencing (WGS) is an increasingly common approach to rapidly characterize isolates and identify mutations predicting antimicrobial resistance and thereby providing a diagnostic tool to assist clinical decision making.Methods: We applied machine learning approaches to 16,688 M. tuberculosis isolates that have undergone WGS and laboratory drug-susceptibility testing (DST) across 14 antituberculosis drugs, with 22.5% of samples being multidrug resistant and 2.1% being extensively drug resistant. We used non-parametric classification-tree and gradient-boosted-tree models to predict drug resistance and uncover any associated novel putative mutations. We fitted separate models for each drug, with and without “co-occurrent resistance” markers known to be causing resistance to drugs other than the one of interest. Predictive performance was measured using sensitivity, specificity, and the area under the receiver operating characteristic curve, assuming DST results as the gold standard.Results: The predictive performance was highest for resistance to first-line drugs, amikacin, kanamycin, ciprofloxacin, moxifloxacin, and multidrug-resistant tuberculosis (area under the receiver operating characteristic curve above 96%), and lowest for third-line drugs such as D-cycloserine and Para-aminosalisylic acid (area under the curve below 85%). The inclusion of co-occurrent resistance markers led to improved performance for some drugs and superior results when compared to similar models in other large-scale studies, which had smaller sample sizes. Overall, the gradient-boosted-tree models performed better than the classification-tree models. The mutation-rank analysis detected no new single nucleotide polymorphisms linked to drug resistance. Discordance between DST and genotypically inferred resistance may be explained by DST errors, novel rare mutations, hetero-resistance, and nongenomic drivers such as efflux-pump upregulation.Conclusion: Our work demonstrates the utility of machine learning as a flexible approach to drug resistance prediction that is able to accommodate a much larger number of predictors and to summarize their predictive ability, thus assisting clinical decision making and single nucleotide polymorphism detection in an era of increasing WGS data generation.

Published

2019

24. Rapid and iterative genome editing in the malaria parasite Plasmodium knowlesi provides new tools for P. vivax research

Author

Franziska Mohring, Melissa Natalie Hart, Thomas A Rawlinson, Ryan Henrici, James A Charleston, Ernest Diez Benavente, Avnish Patel, Joanna Hall, Neil Almond, Susana Campino, Taane G Clark, Colin J Sutherland, David A Baker, Simon J Draper, and Robert William Moon

Subjects

Plasmodium knowlesi, Plasmodium vivax, CRISPR-Cas9, vaccine, genome-editing, Duffy binding protein, Medicine, Science, Biology (General), QH301-705.5

Abstract

Tackling relapsing Plasmodium vivax and zoonotic Plasmodium knowlesi infections is critical to reducing malaria incidence and mortality worldwide. Understanding the biology of these important and related parasites was previously constrained by the lack of robust molecular and genetic approaches. Here, we establish CRISPR-Cas9 genome editing in a culture-adapted P. knowlesi strain and define parameters for optimal homology-driven repair. We establish a scalable protocol for the production of repair templates by PCR and demonstrate the flexibility of the system by tagging proteins with distinct cellular localisations. Using iterative rounds of genome-editing we generate a transgenic line expressing P. vivax Duffy binding protein (PvDBP), a lead vaccine candidate. We demonstrate that PvDBP plays no role in reticulocyte restriction but can alter the macaque/human host cell tropism of P. knowlesi. Critically, antibodies raised against the P. vivax antigen potently inhibit proliferation of this strain, providing an invaluable tool to support vaccine development.

Published

2019

25. Artemisinin resistance-associated markers in Plasmodium falciparum parasites from the China-Myanmar border: predicted structural stability of K13 propeller variants detected in a low-prevalence area.

Author

Yan He, Susana Campino, Ernest Diez Benavente, David C Warhurst, Khalid B Beshir, Inke Lubis, Ana Rita Gomes, Jun Feng, Wang Jiazhi, Xiaodong Sun, Fang Huang, Lin-Hua Tang, Colin J Sutherland, and Taane G Clark

Subjects

Medicine, Science

Abstract

BACKGROUND:Malaria reduction and future elimination in China is made more difficult by the importation of cases from neighboring endemic countries, particularly Myanmar, Laos, and Vietnam, and increased travel to Africa by Chinese nationals. The increasing prevalence of artemisinin resistant parasites across Southeast Asia highlights the importance of monitoring the parasite importation into China. Artemisinin resistance in the Mekong region is associated with variants of genes encoding the K13 kelch domain protein (pf13k), found in specific genetic backgrounds, including certain alleles of genes encoding the chloroquine resistance transporter (pfcrt) and multidrug resistance transporter PgH1 (pfmdr1). METHODS:In this study we investigated the prevalence of drug resistance markers in 72 P. falciparum samples from uncomplicated malaria infections in Tengchong and Yingjiang, counties on the Yunnan-Myanmar border. Variants of pf13k, pfcrt and pfmdr1 are described. RESULTS:Almost all parasites harboured chloroquine-resistant alleles of pfcrt, whereas pfmdr1 was more diverse. Major mutations in the K13 propeller domain associated with artemisinin resistance in the Mekong region (C580Y, R539T and Y493H) were absent, but F446I and two previously undescribed mutations (V603E and V454I) were identified. Protein structural modelling was carried out in silico on each of these K13 variants, based on recently published crystal structures for the K13 propeller domain. Whereas F446I was predicted to elicit a moderate destabilisation of the propeller structure, the V603E substitution is likely to lead to relatively high protein instability. We plotted these stability estimates, and those for all previously described variants, against published values for in vivo parasitaemia half-life, and found that quadratic regression generates a useful predictive algorithm. CONCLUSION:This study provides a baseline of P. falciparum resistance-associated mutations prevalent at the China-Myanmar border. We also show that protein modelling can be used to generate testable predictions as to the impact of pfk13 mutations on in vivo (and potentially in vitro) artemisinin susceptibility.

Published

2019

26. Know Your Heart: Rationale, design and conduct of a cross-sectional study of cardiovascular structure, function and risk factors in 4500 men and women aged 35-69 years from two Russian cities, 2015-18 [version 3; referees: 3 approved]

Author

Sarah Cook, Sofia Malyutina, Alexander V Kudryavtsev, Maria Averina, Natalia Bobrova, Sergey Boytsov, Soren Brage, Taane G. Clark, Ernest Diez Benavente, Anne Elise Eggen, Laila A Hopstock, Alun Hughes, Heidi Johansen, Kamila Kholmatova, Anastasiya Kichigina, Anna Kontsevaya, Michael Kornev, Darryl Leong, Per Magnus, Ellisiv Mathiesen, Martin McKee, Katy Morgan, Odd Nilssen, Ilya Plakhov, Jennifer K Quint, Alicja Rapala, Andrey Ryabikov, Lyudmila Saburova, Henrik Schirmer, Marina Shapkina, Suhail Shiekh, Vladimir M Shkolnikov, Michael Stylidis, Michael Voevoda, Kate Westgate, and David A Leon

Subjects

Medicine, Science

Abstract

Russia has one of the highest rates of cardiovascular disease in the world. The International Project on Cardiovascular Disease in Russia (IPCDR) was set up to understand the reasons for this. A substantial component of this study was the Know Your Heart Study devoted to characterising the nature and causes of cardiovascular disease in Russia by conducting large cross-sectional surveys in two Russian cities Novosibirsk and Arkhangelsk. The study population was 4542 men and women aged 35-69 years recruited from the general population. Fieldwork took place between 2015-18. There were two study components: 1) a baseline interview to collect information on socio-demographic characteristics and cardiovascular risk factors, usually conducted at home, and 2) a comprehensive health check at a primary care clinic which included detailed examination of the cardiovascular system. In this paper we describe in detail the rationale for, design and conduct of these studies.

Published

2018

27. A forward genetic screen reveals a primary role for Plasmodium falciparum Reticulocyte Binding Protein Homologue 2a and 2b in determining alternative erythrocyte invasion pathways.

Author

Susana Campino, Alejandro Marin-Menendez, Alison Kemp, Nadia Cross, Laura Drought, Thomas D Otto, Ernest Diez Benavente, Matt Ravenhall, Frank Schwach, Gareth Girling, Magnus Manske, Michel Theron, Kelda Gould, Eleanor Drury, Taane G Clark, Dominic P Kwiatkowski, Alena Pance, and Julian C Rayner

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Invasion of human erythrocytes is essential for Plasmodium falciparum parasite survival and pathogenesis, and is also a complex phenotype. While some later steps in invasion appear to be invariant and essential, the earlier steps of recognition are controlled by a series of redundant, and only partially understood, receptor-ligand interactions. Reverse genetic analysis of laboratory adapted strains has identified multiple genes that when deleted can alter invasion, but how the relative contributions of each gene translate to the phenotypes of clinical isolates is far from clear. We used a forward genetic approach to identify genes responsible for variable erythrocyte invasion by phenotyping the parents and progeny of previously generated experimental genetic crosses. Linkage analysis using whole genome sequencing data revealed a single major locus was responsible for the majority of phenotypic variation in two invasion pathways. This locus contained the PfRh2a and PfRh2b genes, members of one of the major invasion ligand gene families, but not widely thought to play such a prominent role in specifying invasion phenotypes. Variation in invasion pathways was linked to significant differences in PfRh2a and PfRh2b expression between parasite lines, and their role in specifying alternative invasion was confirmed by CRISPR-Cas9-mediated genome editing. Expansion of the analysis to a large set of clinical P. falciparum isolates revealed common deletions, suggesting that variation at this locus is a major cause of invasion phenotypic variation in the endemic setting. This work has implications for blood-stage vaccine development and will help inform the design and location of future large-scale studies of invasion in clinical isolates.

Published

2018

28. Know Your Heart: Rationale, design and conduct of a cross-sectional study of cardiovascular structure, function and risk factors in 4500 men and women aged 35-69 years from two Russian cities, 2015-18 [version 2; referees: 3 approved]

Author

Sarah Cook, Sofia Malyutina, Alexander V Kudryavtsev, Maria Averina, Natalia Bobrova, Sergey Boytsov, Soren Brage, Taane G. Clark, Ernest Diez Benavente, Anne Elise Eggen, Laila A Hopstock, Alun Hughes, Heidi Johansen, Kamila Kholmatova, Anastasiya Kichigina, Anna Kontsevaya, Michael Kornev, Darryl Leong, Per Magnus, Ellisiv Mathiesen, Martin McKee, Katy Morgan, Odd Nilssen, Ilya Plakhov, Jennifer K Quint, Alicja Rapala, Andrey Ryabikov, Lyudmila Saburova, Henrik Schirmer, Marina Shapkina, Suhail Shiekh, Vladimir M Shkolnikov, Michael Stylidis, Michael Voevoda, Kate Westgate, and David A Leon

Subjects

Medicine, Science

Abstract

Russia has one of the highest rates of cardiovascular disease in the world. The International Project on Cardiovascular Disease in Russia (IPCDR) was set up to understand the reasons for this. A substantial component of this study was the Know Your Heart Study devoted to characterising the nature and causes of cardiovascular disease in Russia by conducting large cross-sectional surveys in two Russian cities Novosibirsk and Arkhangelsk. The study population was 4542 men and women aged 35-69 years recruited from the general population. Fieldwork took place between 2015-18. There were two study components: 1) a baseline interview to collect information on socio-demographic characteristics and cardiovascular risk factors, usually conducted at home, and 2) a comprehensive health check at a primary care clinic which included detailed examination of the cardiovascular system. In this paper we describe in detail the rationale for, design and conduct of these studies.

Published

2018

29. Corrigendum to 'Genetic diversity of next generation antimalarial targets: A baseline for drug resistance surveillance programmes' [Int. J. Parasitol. Drugs and Drug Resist. 7 (2017) 174–180]

Author

Ana Rita Gomes, Matt Ravenhall, Ernest Diez Benavente, Arthur Talman, Colin Sutherland, Cally Roper, Taane G. Clark, and Susana Campino

Subjects

Infectious and parasitic diseases, RC109-216

Published

2017

30. Analysis of nuclear and organellar genomes of Plasmodium knowlesi in humans reveals ancient population structure and recent recombination among host-specific subpopulations.

Author

Ernest Diez Benavente, Paola Florez de Sessions, Robert W Moon, Anthony A Holder, Michael J Blackman, Cally Roper, Christopher J Drakeley, Arnab Pain, Colin J Sutherland, Martin L Hibberd, Susana Campino, and Taane G Clark

Subjects

Genetics, QH426-470

Abstract

The macaque parasite Plasmodium knowlesi is a significant concern in Malaysia where cases of human infection are increasing. Parasites infecting humans originate from genetically distinct subpopulations associated with the long-tailed (Macaca fascicularis (Mf)) or pig-tailed macaques (Macaca nemestrina (Mn)). We used a new high-quality reference genome to re-evaluate previously described subpopulations among human and macaque isolates from Malaysian-Borneo and Peninsular-Malaysia. Nuclear genomes were dimorphic, as expected, but new evidence of chromosomal-segment exchanges between subpopulations was found. A large segment on chromosome 8 originating from the Mn subpopulation and containing genes encoding proteins expressed in mosquito-borne parasite stages, was found in Mf genotypes. By contrast, non-recombining organelle genomes partitioned into 3 deeply branched lineages, unlinked with nuclear genomic dimorphism. Subpopulations which diverged in isolation have re-connected, possibly due to deforestation and disruption of wild macaque habitats. The resulting genomic mosaics reveal traits selected by host-vector-parasite interactions in a setting of ecological transition.

Published

2017

31. Genomic variation in Plasmodium vivax malaria reveals regions under selective pressure.

Author

Ernest Diez Benavente, Zoe Ward, Wilson Chan, Fady R Mohareb, Colin J Sutherland, Cally Roper, Susana Campino, and Taane G Clark

Subjects

Medicine, Science

Abstract

Although Plasmodium vivax contributes to almost half of all malaria cases outside Africa, it has been relatively neglected compared to the more deadly P. falciparum. It is known that P. vivax populations possess high genetic diversity, differing geographically potentially due to different vector species, host genetics and environmental factors.We analysed the high-quality genomic data for 46 P. vivax isolates spanning 10 countries across 4 continents. Using population genetic methods we identified hotspots of selection pressure, including the previously reported MRP1 and DHPS genes, both putative drug resistance loci. Extra copies and deletions in the promoter region of another drug resistance candidate, MDR1 gene, and duplications in the Duffy binding protein gene (PvDBP) potentially involved in erythrocyte invasion, were also identified. For surveillance applications, continental-informative markers were found in putative drug resistance loci, and we show that organellar polymorphisms could classify P. vivax populations across continents and differentiate between Plasmodia spp.This study has shown that genomic diversity that lies within and between P. vivax populations can be used to elucidate potential drug resistance and invasion mechanisms, as well as facilitate the molecular barcoding of the parasite for surveillance applications.

Published

2017

32. Transcriptomic-based clustering of human atherosclerotic plaques identifies subgroups with different underlying biology and clinical presentation

Author

Michal Mokry, Arjan Boltjes, Lotte Slenders, Gemma Bel-Bordes, Kai Cui, Eli Brouwer, Joost M. Mekke, Marie A. C. Depuydt, Nathalie Timmerman, Farahnaz Waissi, Maarten C. Verwer, Adam W. Turner, Mohammad Daud Khan, Chani J. Hodonsky, Ernest Diez Benavente, Robin J. G. Hartman, Noortje A. M. van den Dungen, Nico Lansu, Emilia Nagyova, Koen H. M. Prange, Jason C. Kovacic, Johan L. M. Björkegren, Eleftherios Pavlos, Evangelos Andreakos, Heribert Schunkert, Gary K. Owens, Claudia Monaco, Aloke V. Finn, Renu Virmani, Nicholas J. Leeper, Menno P. J. de Winther, Johan Kuiper, Gert J. de Borst, Erik S. G. Stroes, Mete Civelek, Dominique P. V. de Kleijn, Hester M. den Ruijter, Folkert W. Asselbergs, Sander W. van der Laan, Clint L. Miller, and Gerard Pasterkamp

Published

2022

33. X chromosome inactivation skewing is common in advanced carotid atherosclerotic lesions in females and predicts secondary peripheral artery events

Author

Michele Filippo Buono, Ernest Diez Benavente, Mark Daniels, Barend M. Mol, Joost M. Mekke, Gert J. de Borst, Dominique P. V. de Kleijn, Sander W. van der Laan, Gerard Pasterkamp, Charlotte Onland-Moret, Michal Mokry, and Hester M. den Ruijter

Abstract

Background and aim: Sex differences in atherosclerosis have been described with female plaques being mostly perceived as stable and fibrous. Sex-specific mechanisms such as mosaic loss of the Y chromosome in men have been linked to cardiovascular health. In women, X-linked mechanisms such as X chromosome inactivation (XCI) skewing is common in several tissues. Yet, information on the role of XCI in female atherosclerotic plaques is lacking. Here, we investigated the presence of XCI skewing in advanced atherosclerotic lesions and its association with cardiovascular risk factors, histological plaque data, and clinical data. Methods: XCI skewing was quantified in 154 atherosclerotic plaque and 55 blood DNA samples of women included in the Athero-Express study. The skewing status was determined performing the HUMARA assay. Then, we studied the relationship of XCI skewing in female plaque and cardiovascular risk factors using regression models. In addition, we studied if plaque XCI predicted plaque composition, and adverse events during 3-years follow-up using Cox proportional hazard models. Results: XCI skewing was detected in 76 of 154 (49.4%) plaques and in 27 of 55 (67%) blood samples. None of the clinical risk factors were associated with plaque skewing. Plaque skewing was more often detected in plaques with a plaque hemorrhage (OR [95% CI]: 1.44 [1.06 - 1.98], P = 0.02). Moreover, skewed plaques were not associated with a higher incidence of composite and major events but were specifically associated with peripheral artery events during a 3-year follow-up period in a multivariate model (HR [95%CI]: 1.46 [1.09 – 1.97]; P = 0.007). Conclusions: XCI skewing is common in carotid plaques of females and is predictive for the occurrence of peripheral artery events within 3 years after carotid endarterectomy.

Published

2023

34. Atherosclerotic plaque epigenetic age acceleration is characterized by mesenchymal reprogramming and poor prognosis

Author

Robin J. G. Hartman, Ernest Diez Benavente, Lotte Slenders, Arjan Boltjes, Barend M. Mol, Gert J. de Borst, Dominique P. V. de Kleijn, Koen H. M. Prange, Menno P. J. de Winther, Johan Kuiper, Mete Civelek, Sander W. van der Laan, Steve Horvath, Charlotte Onland-Moret, Michal Mokry, Gerard Pasterkamp, and Hester M. den Ruijter

Abstract

Epigenetic age estimators (clocks) are known to be predictive of human mortality risk. However, it is not yet known whether the epigenetic age of atherosclerotic plaques can be used for predicting secondary events. Here we estimated an age adjusted measure of epigenetic age, epigenetic age acceleration (EAA), using DNA methylation of human atherosclerotic plaques and of blood. EAA of plaque, but not blood, independently predicted secondary events in a 3-year follow-up (HR=1.3, p= 0.018). Plaque EAA concurred with a high metabolic epigenetic and transcriptional state in plaques. Patients with diabetes and a high body mass index had a higher plaque EAA. EAA was lower in female plaques compared to male plaques by approximately 2 years. Single-cell RNA-seq revealed mesenchymal smooth muscle cells and endothelial cells as main drivers of EAA. Plaque-specific ageing may help identify processes that explain poor health outcomes.

Published

2023

35. Human primary plaque cell cultures to study mechanisms of atherosclerosis

Author

Michele F. Buono, Ernest Diez Benavente, Lotte Slenders, Daisey Methorst, Daniёlle Tessels, Eloi Mili, Roxy Finger, Daniek Kapteijn, Mark Daniels, Noortje A. M. van den Dungen, Jorg J. A. Calis, Barend M. Mol, Gert J. de Borst, Dominique P. V. de Kleijn, Gerard Pasterkamp, Hester M. den Ruijter, and Michal Mokry

Abstract

Plaque smooth muscle cells are critical players in the initiation and advancement of atherosclerotic disease. They produce extracellular matrix (ECM) components, which play a role in lesion progression and stabilization. Despite clear phenotypic differences between plaque smooth muscle cells and vascular smooth muscle cells (VSMCs), VSMCs are still widely used as a model system in atherosclerotic research.Here we present a conditioned outgrowth method to isolate plaque smooth muscle cells. We obtained plaque cells from 27 donors (24 carotid and 3 femoral endarterectomies). We show that these cells keep their proliferative capacity for eight passages, are transcriptionally stable, retain donor-specific gene expression programs, and express extracellular matrix proteins (FN1, COL1A1, DCN) and smooth muscle cell markers (ACTA2, MYH11, CNN1).Single-cell transcriptomics of plaque tissue and cultured cells reveals that cultured plaque cells closely resemble the myofibroblast fraction of plaque smooth muscle cells. Chromatin immunoprecipitation sequencing (ChIP-seq) shows the presence of histone H3 lysine 4 dimethylation (H3K4me2) at theMYH11promoter, pointing to their smooth muscle cell origin. Finally, we demonstrated that plaque cells can be efficiently transduced (>97%) and are capable to take up oxidized LDL (oxLDL) and undergo calcification.In conclusion, we present a method to isolate and culture primary human plaque cells that retain plaque myofibroblast-like cells’ phenotypical and functional capabilities - making them a suitablein vitromodel for studying selected mechanisms of atherosclerosis.

Published

2023

36. Female gene networks are expressed in myofibroblast-like smooth muscle cells in vulnerable atherosclerotic plaques

Author

Ernest Diez Benavente, Santosh Karnewar, Michele Buono, Eloi Mili, Robin J. G. Hartman, Daniek Kapteijn, Lotte Slenders, Mark Daniels, Redouane Aherrahrou, Tobias Reinberger, Barend M. Mol, Gert J. de Borst, Dominique P. V. de Kleijn, Koen H. M. Prange, Marie A. C. Depuydt, Menno P. J. de Winther, Johan Kuiper, Johan L. M. Björkegren, Jeanette Erdmann, Mete Civelek, Michal Mokry, Gary K Owens, Gerard Pasterkamp, and Hester M. den Ruijter

Subjects

Article

Abstract

Women presenting with coronary artery disease (CAD) more often present with fibrous atherosclerotic plaques, which are currently understudied. Phenotypically modulated smooth muscle cells (SMCs) contribute to atherosclerosis in women. How these phenotypically modulated SMCs shape female versus male plaques is unknown. Here, we show sex-stratified gene regulatory networks (GRNs) from human carotid atherosclerotic tissue. Prioritization of these networks identified two main SMC GRNs in late-stage atherosclerosis. Single-cell RNA-sequencing mapped these GRNs to two SMC phenotypes: a phenotypically modulated myofibroblast-like SMC network and a contractile SMC network. The myofibroblast-like GRN was mostly expressed in plaques that were vulnerable in females. Finally, mice orthologs of the female myofibroblast-like genes showed retained expression in advanced plaques from female mice but were downregulated in male mice during atherosclerosis progression. Female atherosclerosis is driven by GRNs that promote a fibrous vulnerable plaque rich in myofibroblast-like SMCs.

Published

2023

37. Genetic Regulation of SMC Gene Expression and Splicing Predict Causal CAD Genes

Author

Rédouane Aherrahrou, Dillon Lue, R. Noah Perry, Yonathan Tamrat Aberra, Mohammad Daud Khan, Joon Yuhl Soh, Tiit Örd, Prosanta Singha, Qianyi Yang, Huda Gilani, Ernest Diez Benavente, Doris Wong, Jameson Hinkle, Lijiang Ma, Gloria M. Sheynkman, Hester M. den Ruijter, Clint L. Miller, Johan L.M. Björkegren, Minna U. Kaikkonen, and Mete Civelek

Subjects

Physiology, Cardiology and Cardiovascular Medicine

Abstract

Background: Coronary artery disease (CAD) is the leading cause of death worldwide. Recent meta-analyses of genome-wide association studies have identified over 175 loci associated with CAD. The majority of these loci are in noncoding regions and are predicted to regulate gene expression. Given that vascular smooth muscle cells (SMCs) play critical roles in the development and progression of CAD, we aimed to identify the subset of the CAD loci associated with the regulation of transcription in distinct SMC phenotypes. Methods: We measured gene expression in SMCs isolated from the ascending aortas of 151 heart transplant donors of various genetic ancestries in quiescent or proliferative conditions and calculated the association of their expression and splicing with ~6.3 million imputed single-nucleotide polymorphism markers across the genome. Results: We identified 4910 expression and 4412 splicing quantitative trait loci (sQTLs) representing regions of the genome associated with transcript abundance and splicing. A total of 3660 expression quantitative trait loci (eQTLs) had not been observed in the publicly available Genotype-Tissue Expression dataset. Further, 29 and 880 eQTLs were SMC-specific and sex-biased, respectively. We made these results available for public query on a user-friendly website. To identify the effector transcript(s) regulated by CAD loci, we used 4 distinct colocalization approaches. We identified 84 eQTL and 164 sQTL that colocalized with CAD loci, highlighting the importance of genetic regulation of mRNA splicing as a molecular mechanism for CAD genetic risk. Notably, 20% and 35% of the eQTLs were unique to quiescent or proliferative SMCs, respectively. One CAD locus colocalized with a sex-specific eQTL ( TERF2IP ), and another locus colocalized with SMC-specific eQTL ( ALKBH8 ). The most significantly associated CAD locus, 9p21, was an sQTL for the long noncoding RNA CDKN2B-AS1 , also known as ANRIL , in proliferative SMCs. Conclusions: Collectively, our results provide evidence for the molecular mechanisms of genetic susceptibility to CAD in distinct SMC phenotypes.

Published

2023

38. Failure of rapid diagnostic tests in Plasmodium falciparum malaria cases among travelers to the UK and Ireland: Identification and characterisation of the parasites

Author

Peter L. Chiodini, Amy Ibrahim, Khalid B. Beshir, Adam Gray, Debbie Nolder, Gisela Henriques, Colin J. Sutherland, Ernest Diez Benavente, Julie Tucker, Lindsay B. Stewart, Edel O’Brien, Donelly A. van Schalkwyk, Nuno Sepúlveda, Tumena Corrah, Carmel Gallagher, Dinesh Aggarwal, Susana Campino, and Laurence John

Subjects

0301 basic medicine, Microbiology (medical), Plasmodium, 030106 microbiology, Plasmodium falciparum, Protozoan Proteins, pfhrp3, Antigens, Protozoan, Parasitemia, Infectious and parasitic diseases, RC109-216, Biology, Reference laboratory, Article, pfhrp2, Deletion, 03 medical and health sciences, 0302 clinical medicine, parasitic diseases, medicine, East africa, Animals, Humans, Parasites, 030212 general & internal medicine, Malaria, Falciparum, RDT, Imported malaria, Diagnostic Tests, Routine, Diagnostic test, nutritional and metabolic diseases, food and beverages, General Medicine, medicine.disease, biology.organism_classification, equipment and supplies, Virology, United Kingdom, nervous system diseases, Malaria, Infectious Diseases, Ireland, Gene Deletion

Abstract

Highlights • Malaria cases in UK and Ireland travellers can give false-negative HRP-RDT results. • Histidine-rich protein (HRP2/3) deletions can cause false-negative HRP-RDT results. • High parasitemia may give false-negative RDT results due to a prozone-like effect. • False-negative RDT results may also be a result of low parasite density. • Next-generation sequencing can elaborate the breakpoints of HRP2/3 deletions., Objectives Our objective was to systematically investigate false-negative histidine-rich protein 2 rapid diagnostic tests (HRP2-RDT) in imported Plasmodium falciparum malaria cases from travelers to the UK and the Republic of Ireland (RoI). Methods Five imported malaria cases in travellers returning to the UK and RoI from East Africa were reported to the PHE Malaria Reference Laboratory as negative according to histidine-rich protein (HRP2)-RDT. The cases were systematically investigated using microscopic, RDT, molecular, genomic, and in in vitro approaches. Results In each case, HRP2-RDT was negative, whereas microscopy confirmed the presence of P. falciparum. Further analysis revealed that the genes encoding HRP2 and HRP3 were deleted in three of the five cases. Whole-genome sequencing in one of these isolates confirmed deletions in P. falciparum chromosomes 8 and 13. Our study produced evidence that the fourth case, which had high parasitemia at clinical presentation, was a rare example of antigen saturation (‘prozone-like effect’), leading to a false negative in the HRP2-RDT, while the fifth case was due to low parasitemia. Conclusions False-negative HRP2-RDT results with P. falciparum are concerning. Our findings emphasise the necessity of supporting the interpretation of RDT results with microscopy, in conjunction with clinical observations, and sets out a systematic approach to identifying parasites carrying pfhrp2 and pfhrp3 deletions.

Published

2021

39. Flavivirus integrations in Aedes aegypti are limited and highly conserved across samples from different geographic regions unlike integrations in Aedes albopictus

Author

Ernest Diez Benavente, Lara Ferrero Gomez, Taane G. Clark, Susana Campino, Monica Campos, Anton Spadar, Jody Phelan, and Fady R. Mohareb

Subjects

0106 biological sciences, Aedes albopictus, animal structures, Virus Integration, viruses, Genome, Insect, education, Mosquito Vectors, Aedes aegypti, Infectious and parasitic diseases, RC109-216, 010603 evolutionary biology, 01 natural sciences, Arbovirus, Genome, 03 medical and health sciences, Mosquito, Aedes, medicine, Animals, Phylogeny, 030304 developmental biology, 0303 health sciences, biology, Phylogenetic tree, Endogenous viral element, Research, Flavivirus, fungi, virus diseases, medicine.disease, biology.organism_classification, Infectious Diseases, Evolutionary biology, Parasitology, Reference genome

Abstract

Mosquitoes of the genus Aedes are the main vectors of many viruses, e.g. dengue and Zika, which affect millions of people each year and for which there are limited treatment options. Understanding how Aedes mosquitoes tolerate high viral loads may lead to better disease control strategies. Elucidating endogenous viral elements (EVEs) within vector genomes may give exploitable biological insights. Previous studies have reported the presence of a large number of EVEs in Aedes genomes. Here we investigated if flavivirus EVEs are conserved across populations and different Aedes species by using ~ 500 whole genome sequence libraries from Aedes aegypti and Aedes albopictus, sourced from colonies and field mosquitoes across continents. We found that nearly all flavivirus EVEs in the Ae. aegypti reference genome originate from four separate putative viral integration events, and that they are highly conserved across geographically diverse samples. By contrast, flavivirus EVEs in the Ae. albopictus reference genome originate from up to nine distinct integration events and show low levels of conservation, even within samples from narrow geographical ranges. Our analysis suggests that flaviviruses integrated as long sequences and were subsequently fragmented and shuffled by transposable elements. Given that EVEs of Ae. aegypti and Ae. albopictus belong to different phylogenetic clades and have very differing levels of conservation, they may have different evolutionary origins and potentially different functional roles. Graphical Abstract

Published

2021

40. Deep neural networks reveal novel sex-specific electrocardiographic features relevant for mortality risk

Author

Klaske R Siegersma, Rutger R van de Leur, N Charlotte Onland-Moret, David A Leon, Ernest Diez-Benavente, Liesbeth Rozendaal, Michiel L Bots, Ruben Coronel, Yolande Appelman, Leonard Hofstra, Pim van der Harst, Pieter A Doevendans, Rutger J Hassink, Hester M den Ruijter, René van Es, Cardiology, ACS - Atherosclerosis & ischemic syndromes, and ACS - Microcirculation

Abstract

Aims Incorporation of sex in study design can lead to discoveries in medical research. Deep neural networks (DNNs) accurately predict sex based on the electrocardiogram (ECG) and we hypothesized that misclassification of sex is an important predictor for mortality. Therefore, we first developed and validated a DNN that classified sex based on the ECG and investigated the outcome. Second, we studied ECG drivers of DNN-classified sex and mortality. Methods and results A DNN was trained to classify sex based on 131 673 normal ECGs. The algorithm was validated on internal (68 500 ECGs) and external data sets (3303 and 4457 ECGs). The survival of sex (mis)classified groups was investigated using time-to-event analysis and sex-stratified mediation analysis of ECG features. The DNN successfully distinguished female from male ECGs {internal validation: area under the curve (AUC) 0.96 [95% confidence interval (CI): 0.96, 0.97]; external validations: AUC 0.89 (95% CI: 0.88, 0.90), 0.94 (95% CI: 0.93, 0.94)}. Sex-misclassified individuals (11%) had a 1.4 times higher mortality risk compared with correctly classified peers. The ventricular rate was the strongest mediating ECG variable (41%, 95% CI: 31%, 56%) in males, while the maximum amplitude of the ST segment was strongest in females (18%, 95% CI: 11%, 39%). Short QRS duration was associated with higher mortality risk. Conclusion Deep neural networks accurately classify sex based on ECGs. While the proportion of ECG-based sex misclassifications is low, it is an interesting biomarker. Investigation of the causal pathway between misclassification and mortality uncovered new ECG features that might be associated with mortality. Increased emphasis on sex as a biological variable in artificial intelligence is warranted.

Published

2022

41. Bayesian Compositional Regression with Microbiome Features via Variational Inference

Author

DARREN A. V. SCOTT, ERNEST DIEZ BENAVENTE, JULIAN LIBISELLER-EGGER, DMITRY FEDEROV, JODY PHELAN, ELENA ILINA, POLINA TIKHONOVA, ALEXANDER KUDRYAVSTEV, JULIA GALEEVA, TAANE CLARK, and ALEX LEWIN

Subjects

Structural Biology, Applied Mathematics, Molecular Biology, Biochemistry, Computer Science Applications

Abstract

The microbiome plays a key role in the health of the human body. Interest often lies in finding features of the microbiome, alongside other covariates, which are associated with a phenotype of interest. One important property of microbiome data, which is often overlooked, is its compositionality as it can only provide information about the relative abundance of its constituting components. Typically, these proportions vary by several orders of magnitude in datasets of high dimensions. To address these challenges we develop a Bayesian hierarchical linear log-contrast model which is estimated by mean field Monte-Carlo coordinate ascent variational inference (CAVI-MC) and easily scales to high dimensional data. We use novel priors which account for the large differences in scale and 1 constrained parameter space associated with the compositional covariates. A reversible jump Monte Carlo Markov chain guided by the data through univariate approximations of the variational posterior probability of inclusion, with proposal parameters informed by approximating variational densities via auxiliary parameters, is used to estimate intractable marginal expectations. We demonstrate that our proposed Bayesian method performs favourably against existing frequentist state of the art compositional data analysis methods. We then apply the CAVI-MC to the analysis of real data exploring the relationship of the gut microbiome to body mass index.

Published

2022

42. Genetic regulation of human aortic smooth muscle cell gene expression and splicing predict causal coronary artery disease genes

Author

Rédouane Aherrahrou, Dillon Lue, R Noah Perry, Yonathan Tamrat Aberra, Mohammad Daud Khan, Joon Yuhl Soh, Tiit Örd, Prosanta Singha, Huda Gilani, Ernest Diez Benavente, Doris Wong, Jameson Hinkle, Lijiang Ma, Gloria M Sheynkman, Hester M den Ruijter, Clint L Miller, Johan LM Björkegren, Minna U Kaikkonen, and Mete Civelek

Abstract

Coronary artery disease (CAD) is the leading cause of death worldwide. Recent meta-analyses of genome-wide association studies (GWAS) have identified over 175 loci associated with CAD. The majority of these loci are in non-coding regions and are predicted to regulate gene expression. Given that vascular smooth muscle cells (SMCs) play critical roles in the development and progression of CAD, we hypothesized that a subset of the CAD GWAS risk loci are associated with the regulation of transcription in distinct SMC phenotypes. Here, we measured gene expression in SMCs isolated from the ascending aortas of 151 ethnically diverse heart transplant donors in quiescent or proliferative conditions and calculated the association of their expression and splicing with ∼6.3 million imputed single nucleotide polymorphism (SNP) markers across the genome. We identified 4,910 expression and 4,412 splice quantitative trait loci (sQTL) that represent regions of the genome associated with transcript abundance and splicing. 3,660 of the eQTLs had not been observed in the publicly available Genotype-Tissue Expression dataset. Further, 29 and 880 of the eQTLs were SMC- and sex-specific, respectively. To identify the effector transcript(s) regulated by CAD GWAS loci, we used four distinct colocalization approaches and identified 84 eQTL and 164 sQTLs that colocalized with CAD loci, highlighting the importance of genetic regulation of mRNA splicing as a molecular mechanism for CAD genetic risk. Notably, 20% and 35% of the eQTLs were unique to quiescent or proliferative SMCs, respectively. Two CAD loci colocalized with a SMC sex-specific eQTL (AL160313.1 and TERF2IP) and another locus colocalized with SMC-specific eQTL (ALKBH8). Also, 27% and 37% of the sQTLs were unique to quiescent or proliferative SMCs, respectively. The most significantly associated CAD locus, 9p21, was an sQTL for the long non-coding RNA CDKN2B-AS1, also known as ANRIL, in proliferative SMCs. Collectively, these results provide evidence for the molecular mechanisms of genetic susceptibility to CAD in distinct SMC phenotypes.

Published

2022

43. Getting close to nature – Plasmodium knowlesi reference genome sequences from contemporary clinical isolates

Author

Damilola R. Oresegun, Peter Thorpe, Ernest Diez Benavente, Susana Campino, Fauzi Muh, Robert Moon, Taane G. Clark, and Janet Cox-Singh

Subjects

parasitic diseases

Abstract

Plasmodium knowlesi, a malaria parasite of old-world macaque monkeys, is used extensively to model Plasmodium biology. Recently P. knowlesi was found in the human population of Southeast Asia, particularly Malaysia. P. knowlesi causes un-complicated to severe and fatal malaria in the human host with features in common with the more prevalent and virulent malaria caused by Plasmodium falciparum.As such P. knowlesi presents a unique opportunity to inform an experimental model for malaria with clinical data from same-species human infections.Experimental lines of P. knowlesi represent well characterised genetically static parasites and to maximise their utility as a backdrop for understanding malaria pathophysiology, genetically diverse contemporary clinical isolates, essentially wild-type, require comparable characterization.The Oxford Nanopore PCR-free long-read sequencing platform was used to sequence P. knowlesi parasites from archived clinical samples. The sequencing platform and assembly pipeline was designed to facilitate capturing data on important multiple gene families, including the P. knowlesi schizont-infected cell agglutination (SICA) var genes and the Knowlesi-Interspersed Repeats (KIR) genes.The SICAvar and KIR gene families code for antigenically variant proteins that have been difficult to resolve and characterise. Analyses presented here suggest that the family members have arisen through a process of gene duplication, selection pressure and variation. Highly evolving genes tend to be located proximal to genetic elements that drive change rather than regions that support core gene conservation. For example, the virulence-associated P. falciparum erythrocyte membrane protein (PfEMP1) gene family members are restricted to relatively unstable sub-telomeric regions. In contrast the SICAvar and KIR genes are located throughout the genome but as the study presented here shows, they occupy otherwise gene-sparse chromosomal locations.The novel methods presented here offer the malaria research community new tools to generate comprehensive genome sequence data from small clinical samples and renewed insight into these complex real-world parasites.Author summaryMalaria is a potentially severe disease caused by parasite species within genus Plasmodium. Even though the number of cases is in decline there were over 200 million reported cases of malaria in 2019 that resulted in >400,000 deaths. Despite huge research efforts we still do not understand precisely how malaria makes some individuals very ill and by extension how to successfully augment and manage severe disease.Here we developed a novel method to generate comprehensive robust genome sequences from the malaria parasite Plasmodium knowlesi collected from clinical samples.We propose to use the method and initial data generated here to begin to build a resource to identify disease associated genetic traits of P. knowlesi taken from patient’s samples. In addition to the methodology, what further sets this work apart is the unique opportunity to utilize same-species experimental P. knowlesi parasites to discover a potential role for particular parasite traits in the differential disease progression we observe in patients with P. knowlesi malaria.While we developed the methods to study severe malaria, they are affordable and accessible, and offer the wider malaria research community the means to add context and insight into real-world malaria parasites.

Published

2021

44. Artemether-lumefantrine treatment failure of uncomplicated Plasmodium falciparum malaria in travellers coming from Angola and Mozambique

Author

Ernest Diez Benavente, Kamal Mansinho, André Silva-Pinto, João Paulo Caldas, Ana Balcão Reis, Fátima Nogueira, Cristina Toscano, Susana Campino, João Domingos, Margarida G. M. S. Cardoso, Cláudia Conceição, Taane G. Clark, Teresa Baptista-Fernandes, Global Health and Tropical Medicine (GHTM), Instituto de Higiene e Medicina Tropical (IHMT), Population health, policies and services (PPS), Vector borne diseases and pathogens (VBD), and Individual Health Care (IHC)

Subjects

Microbiology (medical), medicine.medical_specialty, Artemether/lumefantrine, Combination therapy, Therapeutic failure, education, Plasmodium falciparum, malaria, Case Report, Infectious and parasitic diseases, RC109-216, Drug resistance, Treatment failure, SDG 17 - Partnerships for the Goals, SDG 3 - Good Health and Well-being, Internal medicine, parasitic diseases, Medicine, Artemisinin, biology, business.industry, General Medicine, medicine.disease, biology.organism_classification, Infectious Diseases, Parasitology, Artemether-Lumefantrine, business, SDG 12 - Responsible Consumption and Production, Malaria, medicine.drug

Abstract

HIGHLIGHTS • Artemether-lumefantrine (AL) treatment failure of imported malaria in Portugal • AL treatment failure in the presence of wild-type pfk13 and pfmdr1 • Is the standard 3-day course of AL sufficient to ensure parasite clearance? • AL increasing treatment failures urges closer immediate follow up of malaria patients, The failure of artemisinin combination therapy (ACT) in malaria patients returning from endemic regions may be driven by parasite resistance to this treatment. ACT is used globally as the first-line treatment for Plasmodium falciparum malaria. However, artemisinin-resistant strains of P. falciparum have emerged and spread across Southeast Asia, with the risk of reaching high malaria burden regions in Africa and elsewhere. Here, we report on two malaria imported cases from Africa with possible parasite resistance to the ACT artemether-lumefantrine (AL). Case presentation: Two middle-aged males returning from Angola and Mozambique developed malaria symptoms in Portugal, where they were diagnosed and received treatment with AL as hospital inpatients. After apparent cure and discharge from hospital, these individuals returned to hospital showing signs of late clinical failure. Molecular analysis was performed across a number of drug resistance associated genes. No evidence of pfk13-mediated artemisinin resistance was found. Both subjects had complete parasite clearance after treatment with non-ACT antimalarials. Conclusion: Our case-studies highlights the need for close monitoring of signs of unsatisfactory antimalarial efficacy among AL treated patients and the possible implication of other genes or mutations in the parasite response to ACTs.

Published

2021

45. An inter-laboratory study to investigate the impact of the bioinformatics component on microbiome analysis using mock communities

Author

Grace Logan, Kathryn A. Harris, Josef Wagner, Jiabin Huang, Justin O'Grady, Julian R. Marchesi, Robert D. Finn, Sasithon Temisak, Huihai Wu, Nicole Fischer, Julian Parkhill, Ronan Doyle, Gregory C. A. Amos, Mark D. Preston, Denise M. O'Sullivan, Jacob Moran-Gilad, Nicholas Redshaw, Hubert Denise, Jim F. Huggett, Yair Motro, Jody Phelan, Alexandra S. Whale, Taane G. Clark, Emma Ransom-Jones, Ernest Diez Benavente, David J. Studholme, Emma Laing, Gemma L. Kay, Apollo - University of Cambridge Repository, and Parkhill, Julian [0000-0002-7069-5958]

Subjects

0301 basic medicine, FASTQ format, Operational taxonomic unit, Science, 030106 microbiology, Computational biology, Biology, Genome, 03 medical and health sciences, RNA, Ribosomal, 16S, Sequencing, Digital polymerase chain reaction, Microbiome, 631/326/2565/2142, Multidisciplinary, Microbiota, 631/1647/514, article, Computational Biology, Sequence Analysis, DNA, Amplicon, 16S ribosomal RNA, 030104 developmental biology, Metagenomics, Medicine

Abstract

Funder: UK National Measurement System, Funder: NIHR BRC and NIHR Policy Research Programme (NIBSC Regulatory Science Research Unit), Funder: National Institute of Health Research (NIHR) Imperial Biomedical Research Centre (BRC), Funder: EMBL core funds, Funder: Quadram Institute Bioscience BBSRC Strategic Programme: Microbes in the Food Chain; Grant(s): BB/R012504/1) and its constituent projects BBS/E/F/000PR10348 and BBS/E/F/000PR10349, Despite the advent of whole genome metagenomics, targeted approaches (such as 16S rRNA gene amplicon sequencing) continue to be valuable for determining the microbial composition of samples. Amplicon microbiome sequencing can be performed on clinical samples from a normally sterile site to determine the aetiology of an infection (usually single pathogen identification) or samples from more complex niches such as human mucosa or environmental samples where multiple microorganisms need to be identified. The methodologies are frequently applied to determine both presence of micro-organisms and their quantity or relative abundance. There are a number of technical steps required to perform microbial community profiling, many of which may have appreciable precision and bias that impacts final results. In order for these methods to be applied with the greatest accuracy, comparative studies across different laboratories are warranted. In this study we explored the impact of the bioinformatic approaches taken in different laboratories on microbiome assessment using 16S rRNA gene amplicon sequencing results. Data were generated from two mock microbial community samples which were amplified using primer sets spanning five different variable regions of 16S rRNA genes. The PCR-sequencing analysis included three technical repeats of the process to determine the repeatability of their methods. Thirteen laboratories participated in the study, and each analysed the same FASTQ files using their choice of pipeline. This study captured the methods used and the resulting sequence annotation and relative abundance output from bioinformatic analyses. Results were compared to digital PCR assessment of the absolute abundance of each target representing each organism in the mock microbial community samples and also to analyses of shotgun metagenome sequence data. This ring trial demonstrates that the choice of bioinformatic analysis pipeline alone can result in different estimations of the composition of the microbiome when using 16S rRNA gene amplicon sequencing data. The study observed differences in terms of both presence and abundance of organisms and provides a resource for ensuring reproducible pipeline development and application. The observed differences were especially prevalent when using custom databases and applying high stringency operational taxonomic unit (OTU) cut-off limits. In order to apply sequencing approaches with greater accuracy, the impact of different analytical steps needs to be clearly delineated and solutions devised to harmonise microbiome analysis results.

Published

2021

46. Drug resistance profile and clonality of Plasmodium falciparum parasites in Cape Verde: the 2017 malaria outbreak

Author

Daniel Ward, Henrique Silveira, Susana Campino, Amy Ibrahim, Varela Isaías, Luzia Gonçalves, Tomas Valdez, Davidson Daniel Sousa Monteiro, Ernest Diez Benavente, Tânia Claret, Fátima Nogueira, Taane G. Clark, Silvania Da Veiga Leal, and Maria da Luz Lima Mendonça

Subjects

Adult, Male, lcsh:Arctic medicine. Tropical medicine, Adolescent, lcsh:RC955-962, Plasmodium falciparum, Drug Resistance, Protozoan Proteins, Drug resistance, Biology, lcsh:Infectious and parasitic diseases, Disease Outbreaks, Cape verde, symbols.namesake, Antimalarials, Young Adult, parasitic diseases, medicine, Genetics, Cabo Verde, Sequencing, Humans, lcsh:RC109-216, Malaria, Falciparum, Child, Aged, Sanger sequencing, Aged, 80 and over, Polymorphism, Genetic, Research, Haplotype, Outbreak, Middle Aged, medicine.disease, biology.organism_classification, Virology, Malaria, Infectious Diseases, Parasitology, Child, Preschool, symbols, Female

Abstract

BackgroundCape Verde is an archipelago located off the West African coast and is in a pre-elimination phase of malaria control. Since 2010, fewer than 20Plasmodium falciparummalaria cases have been reported annually, except in 2017, when an outbreak in Praia before the rainy season led to 423 autochthonous cases. It is important to understand the genetic diversity of circulatingP. falciparumto inform on drug resistance, potential transmission networks and sources of infection, including parasite importation.MethodsEnrolled subjects involved malaria patients admitted to Dr Agostinho Neto Hospital at Praia city, Santiago island, Cape Verde, between July and October 2017. Neighbours and family members of enrolled cases were assessed for the presence of anti-P. falciparumantibodies. Sanger sequencing and real-time PCR was used to identify SNPs in genes associated with drug resistance (e.g.,pfdhfr, pfdhps, pfmdr1, pfk13, pfcrt), and whole genome sequencing data were generated to investigate the population structure ofP. falciparumparasites.ResultsThe study analysed 190 parasite samples, 187 indigenous and 3 from imported infections. Malaria cases were distributed throughout Praia city. There were no cases of severe malaria and all patients had an adequate clinical and parasitological response after treatment. Anti-P. falciparumantibodies were not detected in the 137 neighbours and family members tested. No mutations were detected inpfdhps. The triple mutation S108N/N51I/C59R inpfdhfrand the chloroquine-resistant CVIET haplotype in thepfcrtgene were detected in almost all samples. Variations inpfk13were identified in only one sample (R645T, E668K). The haplotype NFD forpfmdr1was detected in the majority of samples (89.7%).ConclusionsPolymorphisms inpfk13associated with artemisinin-based combination therapy (ACT) tolerance in Southeast Asia were not detected, but the majority of the tested samples carried thepfmdr1haplotype NFD and anti-malarial-associated mutations in the thepfcrtandpfdhfrgenes. The first whole genome sequencing (WGS) was performed for Cape Verdean parasites that showed that the samples cluster together, have a very high level of similarity and are close to other parasites populations from West Africa.

Published

2021

47. Studying accelerated cardiovascular ageing in Russian adults through a novel deep-learning ECG biomarker

Author

Paul A. Friedman, Suraj Kapa, Pablo Perel, Zachi I. Attia, Francisco Jimenez-Lopez, Alun D. Hughes, David A. Leon, Sofia Malyutina, Alexander Kudryavtsev, Taane G. Clark, Andrew Ryabikov, Ernest Diez Benavente, Henrik Schirmer, and M I Voevoda

Subjects

0301 basic medicine, medicine.medical_specialty, medicine.drug_class, business.industry, Medicine (miscellaneous), VDP::Medisinske Fag: 700::Basale medisinske, odontologiske og veterinærmedisinske fag: 710, Disease, 030204 cardiovascular system & hematology, General Biochemistry, Genetics and Molecular Biology, VDP::Medical disciplines: 700::Basic medical, dental and veterinary science disciplines: 710, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Blood pressure, Ageing, Internal medicine, Etiology, medicine, Cardiology, Natriuretic peptide, Biomarker (medicine), business, Body mass index, Pulse wave velocity

Abstract

Background: A non-invasive, easy-to-access marker of accelerated cardiac ageing would provide novel insights into the mechanisms and aetiology of cardiovascular disease (CVD) as well as contribute to risk stratification of those who have not had a heart or circulatory event. Our hypothesis is that differences between an ECG-predicted and chronologic age of participants (δage) would reflect accelerated or decelerated cardiovascular ageing Methods: A convolutional neural network model trained on over 700,000 ECGs from the Mayo Clinic in the U.S.A was used to predict the age of 4,542 participants in the Know Your Heart study conducted in two cities in Russia (2015-2018). Thereafter, δage was used in linear regression models to assess associations with known CVD risk factors and markers of cardiac abnormalities. Results: The biomarker δage (mean: +5.32 years) was strongly and positively associated with established risk factors for CVD: blood pressure, body mass index (BMI), total cholesterol and smoking. Additionally, δage had strong independent positive associations with markers of structural cardiac abnormalities: N-terminal pro b-type natriuretic peptide (NT-proBNP), high sensitivity cardiac troponin T (hs-cTnT) and pulse wave velocity, a valid marker of vascular ageing. Conclusion: The difference between the ECG-age obtained from a convolutional neural network and chronologic age (δage) contains information about the level of exposure of an individual to established CVD risk factors and to markers of cardiac damage in a way that is consistent with it being a biomarker of accelerated cardiovascular (vascular) ageing. Further research is needed to explore whether these associations are seen in populations with different risks of CVD events, and to better understand the underlying mechanisms involved.

Published

2021

48. Using deep learning to identify recent positive selection in malaria parasite sequence data

Author

Susana Campino, Ernest Diez Benavente, Emilia Manko, Wouter Deelder, Jody Phelan, Taane G. Clark, and Luigi Palla

Subjects

0301 basic medicine, Plasmodium vivax, Plasmodium falciparum, RC955-962, Computational biology, Drug resistance, Infectious and parasitic diseases, RC109-216, Population genomics, 03 medical and health sciences, 0302 clinical medicine, Deep Learning, Genome Size, Arctic medicine. Tropical medicine, parasitic diseases, Machine learning, medicine, drug resistance, machine learning, plasmodium falciparum, plasmodium vivax, population genomics, positive selection, Selection, Genetic, Genome size, Selection (genetic algorithm), biology, Research, Sequence Analysis, DNA, medicine.disease, biology.organism_classification, Positive selection, 030104 developmental biology, Infectious Diseases, Parasitology, Genome, Protozoan, 030217 neurology & neurosurgery, Malaria

Abstract

Background Malaria, caused by Plasmodium parasites, is a major global public health problem. To assist an understanding of malaria pathogenesis, including drug resistance, there is a need for the timely detection of underlying genetic mutations and their spread. With the increasing use of whole-genome sequencing (WGS) of Plasmodium DNA, the potential of deep learning models to detect loci under recent positive selection, historically signals of drug resistance, was evaluated. Methods A deep learning-based approach (called “DeepSweep”) was developed, which can be trained on haplotypic images from genetic regions with known sweeps, to identify loci under positive selection. DeepSweep software is available from https://github.com/WDee/Deepsweep. Results Using simulated genomic data, DeepSweep could detect recent sweeps with high predictive accuracy (areas under ROC curve > 0.95). DeepSweep was applied to Plasmodium falciparum (n = 1125; genome size 23 Mbp) and Plasmodium vivax (n = 368; genome size 29 Mbp) WGS data, and the genes identified overlapped with two established extended haplotype homozygosity methods (within-population iHS, across-population Rsb) (~ 60–75% overlap of hits at P DeepSweep hits included regions proximal to known drug resistance loci for both P. falciparum (e.g. pfcrt, pfdhps and pfmdr1) and P. vivax (e.g. pvmrp1). Conclusion The deep learning approach can detect positive selection signatures in malaria parasite WGS data. Further, as the approach is generalizable, it may be trained to detect other types of selection. With the ability to rapidly generate WGS data at low cost, machine learning approaches (e.g. DeepSweep) have the potential to assist parasite genome-based surveillance and inform malaria control decision-making.

Published

2021

49. External validation of a deep learning electrocardiogram algorithm to detect ventricular dysfunction

Author

Andrew Ryabikov, Pablo Perel, David A. Leon, Alexander Kudryavtsev, Jose R. Medina-Inojosa, Francisco Lopez-Jimenez, Rickey E. Carter, Sofia Malyutina, Andrew S. Tseng, Ernest Diez Benavente, Henrik Schirmer, Suraj Kapa, Paul A. Friedman, Taane G. Clark, Peter A. Noseworthy, and Itzhak Zachi Attia

Subjects

Adult, Artificial intelligence, Population, 030204 cardiovascular system & hematology, Asymptomatic, Ventricular Function, Left, Article, Russia, AI-ECG, artificial-intelligence electrocardiogram algorithm, AUC, area under the curve, Electrocardiography, Ventricular Dysfunction, Left, 03 medical and health sciences, Deep Learning, 0302 clinical medicine, LVEF, left ventricular ejection fraction, Machine learning, medicine, Humans, 030212 general & internal medicine, Derivation, education, Aged, education.field_of_study, Ejection fraction, LVSD, left ventricular systolic dysfunction, Receiver operating characteristic, business.industry, Left ventricular systolic dysfunction, External validation, Area under the curve, Stroke Volume, VDP::Medisinske Fag: 700::Basale medisinske, odontologiske og veterinærmedisinske fag: 710, Middle Aged, PPV, positive predictive value, VDP::Medical disciplines: 700::Basic medical, dental and veterinary science disciplines: 710, Electrocardiogram, CNN, convoluted neural network, Intensive Care Units, Cross-Sectional Studies, NPV, negative predictive value, TTE, transthoracic echocardiography, Test performance, medicine.symptom, Cardiology and Cardiovascular Medicine, business, Algorithm

Abstract

Objective - To validate a novel artificial-intelligence electrocardiogram algorithm (AI-ECG) to detect left ventricular systolic dysfunction (LVSD) in an external population. Background - LVSD, even when asymptomatic, confers increased morbidity and mortality. We recently derived AI-ECG to detect LVSD using ECGs based on a large sample of patients treated at the Mayo Clinic. Methods - We performed an external validation study with subjects from the Know Your Heart Study, a cross-sectional study of adults aged 35–69 years residing in two cities in Russia, who had undergone both ECG and transthoracic echocardiography. LVSD was defined as left ventricular ejection fraction ≤ 35%. We assessed the performance of the AI-ECG to identify LVSD in this distinct patient population. Results - Among 4277 subjects in this external population-based validation study, 0.6% had LVSD (compared to 7.8% of the original clinical derivation study). The overall performance of the AI-ECG to detect LVSD was robust with an area under the receiver operating curve of 0.82. When using the LVSD probability cut-off of 0.256 from the original derivation study, the sensitivity, specificity, and accuracy in this population were 26.9%, 97.4%, 97.0%, respectively. Other probability cut-offs were analysed for different sensitivity values. Conclusions - The AI-ECG detected LVSD with robust test performance in a population that was very different from that used to develop the algorithm. Population-specific cut-offs may be necessary for clinical implementation. Differences in population characteristics, ECG and echocardiographic data quality may affect test performance.

Published

2021

50. The antimalarial efficacy and mechanism of resistance of the novel chemotype DDD01034957

Author

Ernest Diez Benavente, Francisco-Javier Gamo, Jake Baum, Esperanza Herreros, James M. Murithi, David A. Fidock, Fiona Angrisano, Frank Schwach, Susana Campino, Oliver Billker, Katarzyna A. Sala, Andrew M. Blagborough, Taane G. Clark, Michael J. Delves, Manu Vanaerschot, Matthew J. Fuchter, Colin J. Sutherland, Celia Miguel-Blanco, Donelly A. van Schalkwyk, Apollo - University of Cambridge Repository, Bill & Melinda Gates Foundation, Wellcome Trust, Medicines for Malaria Venture, van Schalkwyk, Donelly A [0000-0002-7375-3439], and Clark, Taane G [0000-0001-8985-9265]

Subjects

0301 basic medicine, Drug, Plasmodium, Erythrocytes, Plasmodium berghei, Science, media_common.quotation_subject, Cell- och molekylärbiologi, Plasmodium falciparum, 030106 microbiology, Drug Resistance, Drug resistance, Apicomplexan parasite, Pharmacology, Host-Parasite Interactions, Antimalarials, Inhibitory Concentration 50, Mice, 03 medical and health sciences, Species Specificity, In vivo, medicine, Animals, Humans, 692/699/255/1629, Drug discovery and development, 631/154/309/2144, media_common, Multidisciplinary, Molecular Structure, biology, Mechanism (biology), article, Immunology in the medical area, biology.organism_classification, medicine.disease, Malaria, Cell and molecular biology, 030104 developmental biology, Immunologi inom det medicinska området, Medicine, Cell and Molecular Biology

Abstract

Funder: Public Health England; doi: https://doi.org/10.13039/501100002141, Funder: European Developing Countries Trials Platform, Funder: Isaac Newton Trust, Funder: Alborada Fund, Funder: Global Health Innovative Technology Fund; doi: https://doi.org/10.13039/501100013996, Funder: Royal Society, New antimalarial therapeutics are needed to ensure that malaria cases continue to be driven down, as both emerging parasite resistance to frontline chemotherapies and mosquito resistance to current insecticides threaten control programmes. Plasmodium, the apicomplexan parasite responsible for malaria, causes disease pathology through repeated cycles of invasion and replication within host erythrocytes (the asexual cycle). Antimalarial drugs primarily target this cycle, seeking to reduce parasite burden within the host as fast as possible and to supress recrudescence for as long as possible. Intense phenotypic drug screening efforts have identified a number of promising new antimalarial molecules. Particularly important is the identification of compounds with new modes of action within the parasite to combat existing drug resistance and suitable for formulation of efficacious combination therapies. Here we detail the antimalarial properties of DDD01034957—a novel antimalarial molecule which is fast-acting and potent against drug resistant strains in vitro, shows activity in vivo, and possesses a resistance mechanism linked to the membrane transporter PfABCI3. These data support further medicinal chemistry lead-optimization of DDD01034957 as a novel antimalarial chemical class and provide new insights to further reduce in vivo metabolic clearance.

Published

2021