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Makedonka Mitreva and colleagues report the genome sequence and transcriptome analysis of the hookworm Necator americanus , a prevalent soil-transmitted human parasite and the cause of necatoriasis. They develop a hookworm protein microarray to examine the host parasite interaction and immune response, tested on blood samples from 200 individuals in an endemic region. The hookworm Necator americanus is the predominant soil-transmitted human parasite. Adult worms feed on blood in the small intestine, causing iron-deficiency anemia, malnutrition, growth and development stunting in children, and severe morbidity and mortality during pregnancy in women. We report sequencing and assembly of the N. americanus genome (244 Mb, 19,151 genes). Characterization of this first hookworm genome sequence identified genes orchestrating the hookworm's invasion of the human host, genes involved in blood feeding and development, and genes encoding proteins that represent new potential drug targets against hookworms. N. americanus has undergone a considerable and unique expansion of immunomodulator proteins, some of which we highlight as potential treatments against inflammatory diseases. We also used a protein microarray to demonstrate a postgenomic application of the hookworm genome sequence. This genome provides an invaluable resource to boost ongoing efforts toward fundamental and applied postgenomic research, including the development of new methods to control hookworm and human immunological diseases.

More than 470 million people globally are infected with the hookworms Ancylostoma ceylanicum and Necator americanus , resulting in an annual loss of 2.1 to 4 million disability-adjusted-life-years. Current infection management approaches are limited by modest drug efficacy, the costs associated with frequent mass drug administration campaigns, and the risk of reinfection and burgeoning drug resistance. Subunit vaccines based on proteins excreted and secreted (ES) by hookworms that reduce worm numbers and associated disease burden are a promising management strategy to overcome these limitations. However, studies on the ES proteomes of hookworms have mainly described proteins from the adult life stage which may preclude the opportunity to target the infective larva. Here, we employed high resolution mass spectrometry to identify 103 and 57 ES proteins from the infective third larvae stage (L3) as well as 106 and 512 ES proteins from the adult N . americanus and A . ceylanicum respectively. Comparisons between these developmental stages identified 91 and 41 proteins uniquely expressed in the L3 ES products of N . americanus and A . ceylanicum , respectively. We characterized these proteins based on functional annotation, KEGG pathway analysis, InterProScan signature and gene ontology. We also performed reciprocal BLAST analysis to identify orthologs across species for both the L3 and adult stages and identified five orthologous proteins in both life stages and 15 proteins that could be detected only in the L3 stage of both species. Last, we performed a three-way reciprocal BLAST on the L3 proteomes from both hookworm species together with a previously reported L3 proteome from the rodent hookworm Nippostrongylus brasiliensis , and identified eight L3 proteins that could be readily deployed for testing using well established rodent models. This novel characterization of L3 proteins and taxonomic conservation across hookworm species provides a raft of potential candidates for vaccine discovery for prevention of hookworm infection and disease.

Key Points Hookworm infection and schistosomiasis are two of the most common neglected tropical diseases of humans and among the most important in terms of their global disease burden in developing countries. Global control of each infection currently relies on mass drug administration using donated or low-cost anthelmintic drugs, but high rates of both drug failure (with mebendazole) and post-treatment reinfection necessitate the development of anthelmintic vaccines. A human hookworm vaccine is being developed as a bivalent injectable product combining two recombinant proteins, derived from the gut of the adult stage of the hookworm Necator americanus , that interfere with parasite blood feeding. One of the leading schistosomiasis vaccines under development targets a tetraspanin antigen involved in biogenesis of the tegument of Schistosoma mansoni , the main etiological agent of intestinal schistosomiasis. Both vaccines are being developed for children living in endemic areas of developing countries and could be linked to anthelmintic treatments in a programme of vaccine-linked chemotherapy. Both the hookworm and schistosome antigens may ultimately be combined as a multivalent anthelmintic vaccine. In terms of disability-adjusted life years, the disease burden resulting from hookworm infection and schistosomiasis is considerable. In this Review, Hotez and colleagues outline the pathology of these parasitic infections and discuss recent progress in vaccine development. Hookworm infection and schistosomiasis rank among the most important health problems in developing countries. Both cause anaemia and malnutrition, and schistosomiasis also results in substantial intestinal, liver and genitourinary pathology. In sub-Saharan Africa and Brazil, co-infections with the hookworm, Necator americanus , and the intestinal schistosome, Schistosoma mansoni , are common. The development of vaccines for these infections could substantially reduce the global disability associated with these helminthiases. New genomic, proteomic, immunological and X-ray crystallographic data have led to the discovery of several promising candidate vaccine antigens. Here, we describe recent progress in this field and the rationale for vaccine development.

Hookworms are intestinal parasites that cause major public health problems, especially in developing countries. To differentiate eggs from different hookworm species, it is necessary to use molecular methodologies, since the eggs are morphologically similar. Here, we performed the molecular identification of single hookworm eggs from six Brazilian states. Of the 634 eggs individually analyzed, 98.1% (622/634) represented Necator americanus , and surprisingly, 1.9% (12/634 eggs from the same patient) represented Ancylostoma caninum . DNA analysis of the A. caninum -positive stool sample revealed no contamination with animal feces. This is the first report of the presence of A. caninum eggs in human feces, which may have a direct implication for the epidemiology of hookworm infection caused by this species. This suggests the need for special attention regarding prophylaxis, as different reservoirs, previously not described, may have great relevance for the spread of A. caninum .

Hookworms cause substantial morbidity in children and women of reproductive age. The control strategy of mass drug administration is suboptimal, hence the need for a vaccine. Necator americanus aspartic protease-1 (Na-APR-1) and N americanus glutathione S-transferase-1 (Na-GST-1) are involved in the digestion and detoxification of haemoglobin in the hookworm digestive tract. In animal models, vaccination against these antigens resulted in protection from challenge infection. Both vaccine candidates were shown to be safe and well tolerated when administered separately to healthy adults. We assessed the safety and immunogenicity of co-administered Na-GST-1 and Na-APR-1 (M74) vaccines in healthy Gabonese adults. This randomised, controlled, double-blind, phase 1, dose-escalation trial was done at the Centre de Recherches Médicales de Lambaréné, in a region of Gabon where N americanus and other helminths are prevalent. Healthy adults aged 18–50 years and living in Lambaréné or the surrounding areas were recruited to the study. Participants were enrolled consecutively into two dose cohorts (30 μg or 100 μg of the experimental vaccines) and randomly assigned in blocks (block size four) to receive three doses of either co-administered Na-GST-1 plus Na-APR-1 (M74; 30 μg or 100 μg of each), adjuvanted with Alhydrogel (aluminium hydroxide gel suspension) together with an aqueous formulation of glucopyranosyl lipid A, or hepatitis B vaccine plus saline (control group). Vaccines were administered intramuscularly on days 0, 28, and 180. The primary endpoint was safety, with immunogenicity a secondary endpoint. The intention-to-treat population was used for safety analyses, whereas for immunogenicity analyses, the per-protocol population was used (participants who received all scheduled vaccinations). Control vaccine recipients for both dose cohorts were combined for the analyses. The trial is registered with ClinicalTrials.gov, NCT02126462. Between Oct 27, 2014, and Jan 31, 2015, 56 individuals were screened for eligibility, of whom 32 were enrolled and randomly assigned to one of the three study groups (12 each in the 30 μg and 100 μg experimental vaccine groups and eight in the control group). Both study vaccines were well tolerated in both dose groups. The most common adverse events were mild-to-moderate injection-site pain, headache, myalgia, and nausea. No severe or serious adverse events related to the vaccines were recorded. 52 unsolicited vaccine-related adverse events occurred during the study, but there was no difference in frequency between vaccine groups. IgG antibodies were induced to each of the vaccine antigens, with mean IgG levels increasing after each vaccination. Vaccination with 100 μg of each vaccine antigen consistently induced IgG seroconversion (IgG levels above the reactivity threshold). Peak IgG responses were observed 2 weeks after the third vaccine dose for both antigens, with all participants who received the 100 μg doses seroconverting at that timepoint. IgG levels steadily declined until the final study visit 6 months after the third vaccination, although they remained significantly higher than baseline in the 100 μg dose group. Vaccination with recombinant Na-GST-1 and Na-APR-1 (M74) in healthy adults living in N americanus-endemic areas of Gabon was safe and induced IgG to each antigen. To our knowledge, this study is the first to report results of Na-APR-1 (M74) co-administered with Alhydrogel in participants from an N americanus-endemic area. Further clinical development of these vaccines should involve efficacy studies. European Union Seventh Framework Programme.

Ascaris lumbricoides and Necator americanus are soil-transmitted parasites with global geographic distribution, and they represent some of the most common and neglected infections in the world. Periodic treatment with mass drug administration (MDA) in endemic areas is the recommended action put forth by the World Health Organization. However, MDA can cause the selection of subpopulations that possess the genetic ability to overcome the mechanism of drug action. In fact, beta-tubulin gene mutations (codons 167, 198 and 200) are correlated with benzimidazole resistance in nematodes of veterinary importance. It is possible that these SNPs also have strong correlation with treatment resistance in the human geohelminths A. lumbricoides, Trichuris trichiura and hookworms. Here, we aimed to investigate the presence of some of these canonical molecular markers associated with parasite resistance to benzimidazole in N. americanus and A. lumbricoides collected from six Brazilian states. Nested-PCR and PCR-RFLP were used to detect mutations at codons 167 and 198 in 601 individual eggs of A. lumbricoides collected from 62 human stool samples; however, no mutations were found. Codons 198 and 200 were tested in 552 N. americanus eggs collected from 48 patients using the same methodology, which presented a relative frequency of 1.4% and 1.1%, respectively. The presence of these SNPs in N. americanus eggs is an important finding, indicating that with high benzimidazole drug pressure there is potential for benzimidazole resistance to be selected in this hookworm. However, at these low frequencies it does not indicate that there is at present any benzimidazole resistance problem. This is the first systematic study performed in South America, and the study yielded a landscape of the genetic variants in the beta-tubulin gene and anthelmintic resistance to soil-transmitted parasites detected by a simple, rapid and affordable genotyping assay of individual eggs.

Recombinant Necator americanus Glutathione-S-Transferase-1 (Na-GST-1) formulated on Alhydrogel (Na-GST-1/Alhydrogel) is being developed to prevent anemia and other complications of N. americanus infection. Antibodies induced by vaccination with recombinant Na-GST-1 are hypothesized to interfere with the blood digestion pathway of adult hookworms in the host. Phase 1 trials have demonstrated the safety of Na-GST-1 formulated on Alhydrogel, but further optimization of the vaccine adjuvant formulation may improve humoral immune responses, thereby increasing the likelihood of vaccine efficacy. A randomized, observer-blind, dose escalation Phase 1 trial was conducted in 24 healthy, hookworm-naïve adults. In each cohort of 12 participants, 4 were randomized to receive 100 µg of Na-GST-1/Alhydrogel and 8 to receive 30 µg or 100 µg of Na-GST-1/Alhydrogel plus the Cytosine-phospho-Guanine (CpG) oligodeoxynucleotide Toll-like receptor-9 agonist, CpG 10104, in the first and second cohorts, respectively. Progression to the second cohort was dependent upon evaluation of 7-day safety data after all participants in the first cohort had received the first dose of vaccine. Three intramuscular injections of study product were administered on days 0, 56, and 112, after which participants were followed for 6 months. IgG and IgG subclass antibody responses to Na-GST-1 were measured by qualified indirect ELISAs at pre- and post-vaccination time points. Na-GST-1/Alhydrogel administered with or without CpG 10104 was well-tolerated. The most common solicited adverse events were mild injection site tenderness and pain, and mild headache. There were no vaccine-related serious adverse events or adverse events of special interest. Both dose concentrations of Na-GST-1/Alhydrogel plus CpG 10104 had significantly higher post-vaccination levels of antigen-specific IgG antibody compared to Na-GST-1/Alhydrogel without CpG, starting after the second injection. Peak anti-Na-GST-1 IgG levels were observed between 2 and 4 weeks following the third dose, regardless of Na-GST-1 formulation. IgG levels decreased but remained significantly above baseline in all groups by day 290, at which point all participants (20 of 20 evaluable participants) still had detectable IgG. Longitudinal antigen-specific IgG1 and IgG3 subclass responses mirrored those of total IgG, whereas IgG4 responses were lower in the groups that received the vaccine with the CpG adjuvant compared to the non-CpG group. Vaccination of hookworm-naïve adults with Na-GST-1/Alhydrogel plus CpG 10104 was safe and minimally reactogenic. Addition of CpG 10104 to Na-GST-1/Alhydrogel resulted in significant improvement in IgG responses against the vaccine antigen. These promising results have led to inclusion of the CpG 10104 formulation of Na-GST-1/Alhydrogel in a Phase 2 proof-of-concept controlled human infection trial.

Necator americanus is the predominant species causing hookworm infections in humans. Despite advancements in prevention strategies, mild cases of infection still occur, highlighting the need for improved detection technology. Recombinase Polymerase Amplification (RPA) is an isothermal molecular diagnostic known for its sensitivity, speed, portability, and widespread application in detecting various pathogens. Although several molecular assays are available for N. americanus, they have limitations in detecting mild N. americanus infections. Fluorescent RPA primers and probes targeting the N. americanus internal transcribed spacer 2 (ITS2) gene were developed. The method's detection limit was assessed via serial dilution of genomic DNA. Specificity was confirmed against Clonorchis sinensis, Schistosoma japonicum, Fasciola hepatica, Ascaris lumbricoides, Enterobius vermicularis and Ancylostoma duodenale. Thirty samples identified as positive by Kato-Katz, along with 11 samples identified as negative by the method, were tested to evaluate the sensitivity and specificity of fluorescent RPA. Additionally, 287 field samples were tested for validation with these methods. All positive samples were identified as either N. americanus or A. duodenale. This study successfully developed a fluorescent RPA assay targeting the ITS2 gene of N. americanus. The length of the amplified fragment was 237 bp. Optimized conditions were achieved, resulting in a minimum detection limit of 1fg/µL, with no cross-reactivity with other pathogens. In laboratory validation, the fluorescent RPA assay demonstrated 100% sensitivity (30/30) and 100% specificity (11/11) compared to the Kato-Katz, and 100% sensitivity (29/29) and 91.7% specificity (11/12) when compared to the semi-nested PCR. In field validation using human fecal samples, the fluorescent RPA assay showed a sensitivity of 90.0% (36/40) and a specificity of 91.1% (225/247) compared to the Kato-Katz. And the sensitivity of the fluorescent RPA method compared to the semi-nested PCR method was 100% (34/34), while the specificity was 90.5% (229/252). The fluorescent RPA assay presents a rapid and dependable method for detecting N. americanus in fecal samples. Its high sensitivity and specificity provide significant utility for field surveillance and early identification of N. americanus infections. This advancement could facilitate the rapid molecular diagnosis of N. americanus disease in hookworm-endemic regions.

A human hookworm vaccine is being developed to protect children against iron deficiency and anaemia associated with chronic infection with hookworms. Necator americanus aspartic protease-1 (Na-APR-1) and N americanus glutathione S-transferase-1 (Na-GST-1) are components of the blood digestion pathway critical to hookworm survival in the host. Recombinant Na-GST-1 and catalytically inactive Na-APR-1 (Na-APR-1[M74]) adsorbed to Alhydrogel were safe and immunogenic when delivered separately or co-administered to adults in phase 1 trials in non-endemic and endemic areas. We aimed to investigate the safety and immunogenicity of these antigens in healthy children in a hookworm-endemic area. This was a randomised, controlled, observer-blind, phase 1, dose-escalation trial, conducted in a clinical research centre, in 60 children aged six to ten years in Lambaréné, a hookworm-endemic region of Gabon. Healthy children (determined by clinical examination and safety laboratory testing) were randomised 4:1 to receive co-administered Na-GST-1 on Alhydrogel plus Na-APR-1(M74) on Alhydrogel and glucopyranosyl lipid A in aqueous formulation (GLA-AF), or co-administered ENGERIX-B hepatitis B vaccine (HBV) and saline placebo, injected into the deltoid of each arm. Allocation to vaccine groups was observer-masked. In each vaccine group, children were randomised 1:1 to receive intramuscular injections into each deltoid on two vaccine schedules, one at months 0, 2, and 4 or at months 0, 2, and 6. 10 μg, 30 μg, and 100 μg of each antigen were administered in the first, second, and third cohorts, respectively. The intention-to-treat population was used for safety analyses; while for immunogenicity analyses, the per-protocol population was used (children who received all scheduled vaccinations). The primary outcome was to evaluate the vaccines' safety and reactogenicity in healthy children aged between six and ten years. The secondary outcome was to measure antigen-specific serum IgG antibody levels at pre-vaccination and post-vaccination timepoints by qualified ELISAs. The trial is registered with ClinicalTrials.gov, NCT02839161, and is completed. Between Jan 23 and Oct 3, 2017, 137 children were screened, of whom 76 were eligible for this trial. 60 children were recruited, and allocated to either 10 μg of the co-administered antigens (n=8 for each injection schedule), 30 μg (n=8 for each schedule), 100 μg (n=8 for each schedule), or HBV and placebo (n=6 for each schedule) in three sequential cohorts. Co-administration of the vaccines was well tolerated; the most frequent solicited adverse events were mild-to-moderate injection-site pain, observed in up to 12 (75%) of 16 participants per vaccine group, and mild headache (12 [25%] of 48) and fever (11 [23%] of 48). No vaccine-related serious adverse events were observed. Significant anti-Na-APR-1(M74) and anti-Na-GST-1 IgG levels were induced in a dose-dependent manner, with peaks seen 14 days after the third vaccinations, regardless of dose (for Na-APR-1[M74], geometric mean levels [GML]=2295·97 arbitrary units [AU] and 726·89 AU, while for Na-GST-1, GMLs=331·2 AU and 21·4 AU for the month 0, 2, and 6 and month 0, 2, and 4 schedules, respectively). The month 0, 2, and 6 schedule induced significantly higher IgG responses to both antigens (p=0·01 and p=0·04 for Na-APR-1[M74] and Na-GST-1, respectively). Co-administration of recombinant Na-APR-1(M74) and Na-GST-1 to school-aged Gabonese children was well tolerated and induced significant IgG responses. These results justify further evaluation of this antigen combination in proof-of-concept controlled-infection and efficacy studies in hookworm-endemic areas. European Union Seventh Framework Programme.