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Immunization with Plasmodium falciparum sporozoites under chemoprophylaxis can protect against controlled human malaria infection with the same strain for at least 10 weeks, and protection correlates with polyfunctional T-cell memory. The search for a malaria vaccine The best candidates for a malaria vaccine so far have been radiation-attenuated Plasmodium falciparum sporozoites (PfSPZ) inoculated by mosquitos, intravenous injection of radiation-attenuated, cryopreserved PfSPZ, and infectious PfSPZ inoculated by mosquitos in people taking chloroquine or mefloquine. Here Stephen Hoffman, Peter Kremsner and colleagues report that inoculation of volunteers taking chloroquine with direct intravenous injection of aseptic, cryopreserved, non-irradiated PfSPZ can induce protection against infection with the same strain for at least ten weeks. The authors show that protection correlates with polyfunctional T-cell memory. A highly protective malaria vaccine would greatly facilitate the prevention and elimination of malaria and containment of drug-resistant parasites 1 . A high level (more than 90%) of protection against malaria in humans has previously been achieved only by immunization with radiation-attenuated Plasmodium falciparum (Pf) sporozoites (PfSPZ) inoculated by mosquitoes 2 , 3 , 4 ; by intravenous injection of aseptic, purified, radiation-attenuated, cryopreserved PfSPZ (‘PfSPZ Vaccine’) 5 , 6 ; or by infectious PfSPZ inoculated by mosquitoes to volunteers taking chloroquine 7 , 8 , 9 , 10 or mefloquine 11 (chemoprophylaxis with sporozoites). We assessed immunization by direct venous inoculation of aseptic, purified, cryopreserved, non-irradiated PfSPZ (‘PfSPZ Challenge’ 12 , 13 ) to malaria-naive, healthy adult volunteers taking chloroquine for antimalarial chemoprophylaxis (vaccine approach denoted as PfSPZ-CVac) 14 . Three doses of 5.12 × 10 4 PfSPZ of PfSPZ Challenge 12 , 13 at 28-day intervals were well tolerated and safe, and prevented infection in 9 out of 9 (100%) volunteers who underwent controlled human malaria infection ten weeks after the last dose (group III). Protective efficacy was dependent on dose and regimen. Immunization with 3.2 × 10 3 (group I) or 1.28 × 10 4 (group II) PfSPZ protected 3 out of 9 (33%) or 6 out of 9 (67%) volunteers, respectively. Three doses of 5.12 × 10 4 PfSPZ at five-day intervals protected 5 out of 8 (63%) volunteers. The frequency of Pf-specific polyfunctional CD4 memory T cells was associated with protection. On a 7,455 peptide Pf proteome array, immune sera from at least 5 out of 9 group III vaccinees recognized each of 22 proteins. PfSPZ-CVac is a highly efficacious vaccine candidate; when we are able to optimize the immunization regimen (dose, interval between doses, and drug partner), this vaccine could be used for combination mass drug administration and a mass vaccination program approach to eliminate malaria from geographically defined areas.

The identification of antibodies targeting a conserved site of vulnerability in the Plasmodium falciparum circumsporozoite protein reveals opportunities for passive prevention of malaria in vulnerable individuals and provides insights for rational vaccine design. Development of a highly effective vaccine or antibodies for the prevention and ultimately elimination of malaria is urgently needed. Here we report the isolation of a number of human monoclonal antibodies directed against the Plasmodium falciparum (Pf) circumsporozoite protein (PfCSP) from several subjects immunized with an attenuated Pf whole-sporozoite (SPZ) vaccine (Sanaria PfSPZ Vaccine). Passive transfer of one of these antibodies, monoclonal antibody CIS43, conferred high-level, sterile protection in two different mouse models of malaria infection. The affinity and stoichiometry of CIS43 binding to PfCSP indicate that there are two sequential multivalent binding events encompassing the repeat domain. The first binding event is to a unique 'junctional' epitope positioned between the N terminus and the central repeat domain of PfCSP. Moreover, CIS43 prevented proteolytic cleavage of PfCSP on PfSPZ. Analysis of crystal structures of the CIS43 antigen-binding fragment in complex with the junctional epitope determined the molecular interactions of binding, revealed the epitope's conformational flexibility and defined Asn-Pro-Asn (NPN) as the structural repeat motif. The demonstration that CIS43 is highly effective for passive prevention of malaria has potential application for use in travelers, military personnel and elimination campaigns and identifies a new and conserved site of vulnerability on PfCSP for next-generation rational vaccine design.

PfSPZ-CVac combines ‘PfSPZ Challenge’, which consists of infectious Plasmodium falciparum sporozoites (PfSPZ), with concurrent antimalarial chemoprophylaxis. In a previously-published PfSPZ-CVac study, three doses of 5.12x10 4 PfSPZ-CVac given 28 days apart had 100% vaccine efficacy (VE) against controlled human malaria infection (CHMI) 10 weeks after the last immunization, while the same dose given as three injections five days apart had 63% VE. Here, we conducted a dose escalation trial of similarly condensed schedules. Of the groups proceeding to CHMI, the first study group received three direct venous inoculations (DVIs) of a dose of 5.12x10 4 PfSPZ-CVac seven days apart and the next full dose group received three DVIs of a higher dose of 1.024x10 5 PfSPZ-CVac five days apart. CHMI (3.2x10 3 PfSPZ Challenge) was performed by DVI 10 weeks after the last vaccination. In both CHMI groups, transient parasitemia occurred starting seven days after each vaccination. For the seven-day interval group, the second and third vaccinations were therefore administered coincident with parasitemia from the prior vaccination. Parasitemia was associated with systemic symptoms which were severe in 25% of subjects. VE in the seven-day group was 0% (7/7 infected) and in the higher-dose, five-day group was 75% (2/8 infected). Thus, the same dose of PfSPZ-CVac previously associated with 63% VE when given on a five-day schedule in the prior study had zero VE here when given on a seven-day schedule, while a double dose given on a five-day schedule here achieved 75% VE. The relative contributions of the five-day schedule and/or the higher dose to improved VE warrant further investigation. It is notable that administration of PfSPZ-CVac on a schedule where vaccine administration coincided with blood-stage parasitemia was associated with an absence of sterile protective immunity. Clinical trials registration : NCT02773979 .

A live-attenuated malaria vaccine, Plasmodium falciparum sporozoite vaccine (PfSPZ Vaccine), confers sterile protection against controlled human malaria infection (CHMI) with Plasmodium falciparum (Pf) parasites homologous to the vaccine strain up to 14 mo after final vaccination. No injectable malaria vaccine has demonstrated long-term protection against CHMI using Pf parasites heterologous to the vaccine strain. Here, we conducted an open-label trial with PfSPZ Vaccine at a dose of 9.0 × 10⁵ PfSPZ administered i.v. three times at 8-wk intervals to 15 malaria-naive adults. After CHMI with homologous Pf parasites 19 wk after final immunization, nine (64%) of 14 (95% CI, 35–87%) vaccinated volunteers remained without parasitemia compared with none of six nonvaccinated controls (P = 0.012). Of the nine nonparasitemic subjects, six underwent repeat CHMI with heterologous Pf7G8 parasites 33 wk after final immunization. Five (83%) of six (95% CI, 36–99%) remained without parasitemia compared with none of six nonvaccinated controls. PfSPZ-specific T-cell and antibody responses were detected in all vaccine recipients. Cytokine production by T cells from vaccinated subjects after in vitro stimulation with homologous (NF54) or heterologous (7G8) PfSPZ were highly correlated. Interestingly, PfSPZspecific T-cell responses in the blood peaked after the first immunization and were not enhanced by subsequent immunizations. Collectively, these data suggest durable protection against homologous and heterologous Pf parasites can be achieved with PfSPZ Vaccine. Ongoing studies will determine whether protective efficacy can be enhanced by additional alterations in the vaccine dose and number of immunizations.

Background Plasmodium falciparum (Pf) sporozoite (SPZ) vaccines are the only candidate malaria vaccines that induce > 90% vaccine efficacy (VE) against controlled human malaria infection and the only malaria vaccines to have achieved reproducible VE against malaria in adults in Africa. The goal is to increase the impact and reduce the cost of PfSPZ vaccines by optimizing vaccine potency and manufacturing, which will benefit from identification of immunological responses contributing to protection in humans. Currently, there is no authentic animal challenge model for assessing P. falciparum malaria VE. Alternatively, Plasmodium knowlesi (Pk), which infects humans and non-human primates (NHPs) in nature, can be used to experimentally infect rhesus macaques ( Macaca mulatta ) to assess VE. Methods Sanaria has, therefore, produced purified, vialed, cryopreserved PkSPZ and conducted challenge studies in several naïve NHP cohorts. In the first cohort, groups of three rhesus macaques each received doses of 5 × 10 2 , 2.5 × 10 3 , 1.25 × 10 4 and 2.5 × 10 4 PkSPZ administered by direct venous inoculation. The infectivity of 1.5 × 10 3  PkSPZ cryopreserved with an altered method and of 1.5 × 10 3  PkSPZ cryopreserved for four years was tested in a second and third cohort of rhesus NHPs. The lastly, three pig-tailed macaques ( Macaca nemestrina ), a natural P. knowlesi host, were challenged with 2.5 × 10 3 PkSPZ cryopreserved six years earlier. Results In the first cohort, all 12 animals developed P. knowlesi parasitaemia by thick blood smear, and the time to positivity (prepatent period) followed a non-linear 4-parameter logistic sigmoidal model with a median of 11, 10, 8, and 7 days, respectively (r 2  = 1). PkSPZ cryopreserved using a modified rapid-scalable method infected rhesus with a pre-patent period of 10 days, as did PkSPZ cryopreserved four years prior to infection, similar to the control group. Cryopreserved PkSPZ infected pig-tailed macaques with median time to positivity by thin smear, of 11 days. Conclusion This study establishes the capacity to consistently infect NHPs with purified, vialed, cryopreserved PkSPZ, providing a foundation for future studies to probe protective immunological mechanisms elicited by PfSPZ vaccines that cannot be established in humans.

Background The World Health Organization (WHO) has called for new malaria vaccines with > 90% efficacy against Plasmodium falciparum infection to expand the anti-disease benefit provided by the RTS,S/AS01 and R21/Matrix M subunit vaccines currently administered to infants and young children in sub-Saharan Africa. Attenuated P. falciparum sporozoites (PfSPZ) are being developed as a traveller’s vaccine and to fulfill WHO’s call for high-level efficacy in endemic countries to support malaria elimination. Methods PfSPZ Vaccine, comprised of radiation-attenuated PfSPZ, was compared with normal saline placebo in a randomized, double-blind trial targeting 60 malaria-naive US adults to assess safety, tolerability, immunogenicity, and efficacy against heterologous controlled human malaria infection three and twelve weeks after immunization. Pharmacists provided syringes to blinded clinicians using 3:1 (vaccine:placebo) blocked randomization, for administration by direct venous inoculation on days 1 and 8 (multidose prime) and day 29 (boost), a condensed regimen with superior efficacy. Primary outcomes included adverse events and antibody responses to the P. falciparum circumsporozoite protein (PfCSP). Results 31 participants were screened, randomized and immunized twice (V1, V2) 5–7 days apart, with one withdrawal after an intercurrent adverse event. A vial issue, later traced to the vial manufacturer, halted further immunizations. Solicited local and systemic adverse events recorded for 2 and 7 days after immunizations, respectively, occurred with equal frequency and severity in the 23 vaccinees and 7 controls receiving two immunizations, as did unsolicited adverse events recorded for 28 days and laboratory abnormalities 1 and 5 weeks after V2. Four of 23 vaccinees and one of 7 controls (p = 1.00) developed grade 2 adverse events including subjective fever, headache, malaise, fatigue, rigors, arthralgia and myalgia after V2 but not V1, these symptoms generally resolving within 24 h. Twenty-two of 23 (96%) vaccinees developed IgG (median 99-fold increase over baseline) and IgM (median 1,110-fold increase) antibodies to PfCSP one week after V2. Antibody responses were not associated with reactogenicity. Conclusions The two-dose priming immunization regimen was safe, well tolerated and highly immunogenic. Larger studies may better define the adverse event profile of condensed regimens of PfSPZ Vaccine in malaria-naive adults. Trial registration number: clinicaltrial.gov NCT05604521.

The global decline in malaria has stalled 1 , emphasizing the need for vaccines that induce durable sterilizing immunity. Here we optimized regimens for chemoprophylaxis vaccination (CVac), for which aseptic, purified, cryopreserved, infectious Plasmodium falciparum sporozoites (PfSPZ) were inoculated under prophylactic cover with pyrimethamine (PYR) (Sanaria PfSPZ-CVac(PYR)) or chloroquine (CQ) (PfSPZ-CVac(CQ))—which kill liver-stage and blood-stage parasites, respectively—and we assessed vaccine efficacy against homologous (that is, the same strain as the vaccine) and heterologous (a different strain) controlled human malaria infection (CHMI) three months after immunization ( https://clinicaltrials.gov/ , NCT02511054 and NCT03083847). We report that a fourfold increase in the dose of PfSPZ-CVac(PYR) from 5.12 × 10 4 to 2 × 10 5 PfSPZs transformed a minimal vaccine efficacy (low dose, two out of nine (22.2%) participants protected against homologous CHMI), to a high-level vaccine efficacy with seven out of eight (87.5%) individuals protected against homologous and seven out of nine (77.8%) protected against heterologous CHMI. Increased protection was associated with Vδ2 γδ T cell and antibody responses. At the higher dose, PfSPZ-CVac(CQ) protected six out of six (100%) participants against heterologous CHMI three months after immunization. All homologous (four out of four) and heterologous (eight out of eight) infectivity control participants showed parasitaemia. PfSPZ-CVac(CQ) and PfSPZ-CVac(PYR) induced a durable, sterile vaccine efficacy against a heterologous South American strain of P. falciparum , which has a genome and predicted CD8 T cell immunome that differs more strongly from the African vaccine strain than other analysed African P. falciparum strains. Two malaria vaccines comprising Plasmodium falciparum sporozoites and treatment with either pyrimethamine or chloroquine induced durable protective responses against both the African vaccine strain and a heterologous South American strain of P. falciparum .

The radiation-attenuated Plasmodium falciparum sporozoite (PfSPZ) vaccine provides protection against P. falciparum infection in malaria-naïve adults. Preclinical studies show that T cell-mediated immunity is required for protection and is readily induced in humans after vaccination. However, previous malaria exposure can limit immune responses and vaccine efficacy (VE) in adults. We hypothesized that infants with less previous exposure to malaria would have improved immunity and protection. We conducted a multi-arm, randomized, double-blind, placebo-controlled trial in 336 infants aged 5–12 months to determine the safety, tolerability, immunogenicity and efficacy of the PfSPZ Vaccine in infants in a high-transmission malaria setting in western Kenya ( NCT02687373 ). Groups of 84 infants each received 4.5 × 10 5 , 9.0 × 10 5 or 1.8 × 10 6 PfSPZ Vaccine or saline three times at 8-week intervals. The vaccine was well tolerated; 52 (20.6%) children in the vaccine groups and 20 (23.8%) in the placebo group experienced related solicited adverse events (AEs) within 28 d postvaccination and most were mild. There was 1 grade 3-related solicited AE in the vaccine group (0.4%) and 2 in the placebo group (2.4%). Seizures were more common in the highest-dose group (14.3%) compared to 6.0% of controls, with most being attributed to malaria. There was no significant protection against P. falciparum infection in any dose group at 6 months (VE in the 9.0 × 10 5 dose group = −6.5%, P  = 0.598, the primary statistical end point of the study). VE against clinical malaria 3 months after the last dose in the highest-dose group was 45.8% ( P  = 0.027), an exploratory end point. There was a dose-dependent increase in antibody responses that correlated with VE at 6 months in the lowest- and highest-dose groups. T cell responses were undetectable across all dose groups. Detection of Vδ2 + Vγ9 + T cells, which have been correlated with induction of PfSPZ Vaccine T cell immunity and protection in adults, were infrequent. These data suggest that PfSPZ Vaccine-induced T cell immunity is age-dependent and may be influenced by Vδ2 + Vγ9 + T cell frequency. Since there was no significant VE at 6 months in these infants, these vaccine regimens will likely not be pursued further in this age group. The PfSPZ Vaccine does not protect infants from infection with Plasmodium falciparum , the major cause of malaria.

Highly effective malaria vaccines are crucial to further reduce the burden of malaria. The radiation-attenuated Plasmodium falciparum sporozoite (PfSPZ) Vaccine protects adults; however, there are insufficient efficacy data in child populations. We aimed to assess the safety and efficacy of the PfSPZ Vaccine in children aged 1–12 years in Gabon. This randomised, double-blind, placebo-controlled, phase 2 trial was conducted at the Centre de Recherches Médicales de Lambaréné, Lambaréné, Gabon. Healthy children were stratified by age (1–2, 3–6, and 7–12 years) and allocated 2:1 by block randomisation to receive 9·0 × 105 PfSPZ Vaccine or placebo (normal saline), administered by direct venous inoculation on days 1, 8, and 29. Artemether–lumefantrine was given before the third vaccination to clear latent parasitaemia. The co-primary endpoints were safety, evaluated in the intention-to-treat population by severe adverse events within 7 days (solicited) and 28 days (unsolicited) of vaccination and by serious adverse events; and vaccine efficacy, measured as time to first P falciparum-positive thick blood smear (TBS), 2–26 weeks after immunisation in those who received three vaccinations (ie, the modified intention-to-treat population). The trial was registered at ClinicalTrials.gov, NCT03521973, and is complete. Between June 21, 2018, and April 30, 2019, 345 children were assessed for eligibility, of whom 200 were enrolled to the study: 134 were allocated to receive PfSPZ Vaccine and 66 to receive placebo. 192 participants received three vaccinations and comprised the modified intention-to-treat population. Systemic adverse events were reported by 33 (25%) of 134 participants in the vaccine group (47 events) and 15 (23%) of 66 participants in the placebo group (25 events); subjective fever was the most reported event in both groups. Three grade 3 systemic adverse events were reported (two cases of elevated body temperature and one case of subjective fever), all in the placebo group. 32 serious adverse events were reported across 22 study participants, 13 (10%) of 134 in the vaccine group and nine (14%) of 66 in the placebo group, all of which were considered unrelated to the intervention. There were no treatment-related deaths. 25 (19%) of 129 vaccine recipients and 14 (23%) of 63 placebo recipients became TBS-positive for P falciparum at 2–26 weeks after vaccination. The age-stratum-adjusted vaccine efficacy (1 − hazard ratio) was 9% (95% CI −75 to 53; p=0·78). PfSPZ Vaccine is well tolerated and safe, but it did not prevent P falciparum infection in children in Gabon. Whether presumptive treatment during immunisation or more potent PfSPZ vaccines can establish vaccine efficacy is currently under investigation. German Center for Infection Research, European and Developing Countries Clinical Trials Partnership, National Institute of Allergy and Infectious Diseases, National Institutes of Health, and Sanaria.

Immunization with Plasmodium falciparum (Pf) sporozoites under chemoprophylaxis (PfSPZ-CVac) is the most efficacious approach to malaria vaccination. Implementation is hampered by a complex chemoprophylaxis regimen and missing evidence for efficacy against heterologous infection. We report the results of a double-blinded, randomized, placebo-controlled trial of a simplified, condensed immunization regimen in malaria-naive volunteers (EudraCT-Nr: 2018-004523-36). Participants are immunized by direct venous inoculation of 1.1 × 10 5 aseptic, purified, cryopreserved PfSPZ (PfSPZ Challenge) of the PfNF54 strain or normal saline (placebo) on days 1, 6 and 29, with simultaneous oral administration of 10 mg/kg chloroquine base. Primary endpoints are vaccine efficacy tested by controlled human malaria infection (CHMI) using the highly divergent, heterologous strain Pf7G8 and safety. Twelve weeks following immunization, 10/13 participants in the vaccine group are sterilely protected against heterologous CHMI, while (5/5) participants receiving placebo develop parasitemia (risk difference: 77%, p = 0.004, Boschloo’s test). Immunization is well tolerated with self-limiting grade 1–2 headaches, pyrexia and fatigue that diminish with each vaccination. Immunization induces 18-fold higher anti-Pf circumsporozoite protein (PfCSP) antibody levels in protected than in unprotected vaccinees (p = 0.028). In addition anti-PfMSP2 antibodies are strongly protection-associated by protein microarray assessment. This PfSPZ-CVac regimen is highly efficacious, simple, safe, well tolerated and highly immunogenic. In this placebo-controlled trial, 10/13 malaria naïve subjects immunized with a simplified regimen of chemoattenuated P. falciparum sporozoites, PfSPZ-CVac, show sterile protection from heterologous malaria challenge. Immunization was well tolerated and induced high levels of anti-PfCSP antibodies.