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Last update 08 May 2025

MSP3

Last update 08 May 2025

Basic Info

Synonyms

MSP3, Plasmodium falciparum Merozoite Surface Protein 3

Introduction-

Drugs associated with MSP3

GMZ 2 vaccine(Statens Serum Institute)

Target

MSP3 x PfGARP

Mechanism

MSP3 inhibitors [+2]

Active Org.-

Originator Org.

Statens Serum Institute

Active Indication-

Inactive Indication

Malaria, Falciparum

Drug Highest PhasePending

First Approval Ctry. / Loc.-

First Approval Date20 Jan 1800

Clinical Trials associated with MSP3

NCT00703066

/ Unknown statusPhase 1IIT

A Phase I, Randomized, Controlled, Double-Blind, Single Centre Trial to Evaluate the Safety and Immunogenicity of 30 and 100 µg of GMZ2 in Gabonese Children Aged 1-5 Years

The study aims to show that the candidate malaria vaccine GMZ2 is as safe as the already publicly used vaccine against rabies. 30 Gabonese children aged 1-5 years will be enrolled and randomly allocated to receive either malaria vaccine or rabies vaccine without the investigator or the participants knowing what they received. They will receive 3 doses each at one month intervals, and will be followed up for one year to evaluate safety parameters. 30 and 100µg doses for the candidate malaria vaccine GMZ 2 will be evaluated for safety.
This is the second time that candidate malaria vaccine GMZ 2 is being tested in Africa, the first time being in Gabonese adults where the product was found to be safe.

Start Date01 Jun 2008

Sponsor / Collaborator

African Malaria Network Trust

NCT00424944

/ Unknown statusPhase 1IIT

A Single Centre, Randomised Controlled Trial to Evaluate the Safety and Immunogenicity of Recombinant Lactococcus Lactis Hybrid GMZ 2 [GLURP + MSP 3] Blood Stage Malaria Vaccine Versus Rabies Vaccine in Healthy Gabonese Adult Volunteers

The study aims to show that the candidate malaria vaccine GMZ2 is as safe as the already publicly used vaccine against rabies. 40 adult male Gabonese volunteers will be enrolled and randomly allocated to receive either malaria vaccine or rabies vaccine without the investigator or the participants knowing what they received. They will receive 3 doses each at one month intervals, and will be followed up for one year to evaluate safety parameters.
This is the first time this product will be tested in Africa

Start Date01 Jun 2007

Sponsor / Collaborator

African Malaria Network Trust

NCT00397449

/ Unknown statusPhase 1IIT

Assessment of the Safety and Immunogenicity of the Recombinant Lactococcus Lactis Hybrid GMZ2 [GLURP+MSP3] a Malaria Vaccine in Healthy Adult Volunteers. A Phase I, Double-Blind, Randomised, Dose-Selection, Unicentre Trial

This is a randomized, open, dose-selection Phase 1 study. The study aims to evaluate the safety and immunogenicity of 3 doses (10,30 & 100 micrograms) of the GMZ2 hybrid (GLURP and MSP3) blood stage vaccine in healthy non-immune European adults. The vaccines will be administered with aluminum hydroxide as adjuvant. The safety and the tolerability of the vaccine will be assessed on the rate of solicited and unsolicited events/reactions related to the vaccine. The safety profile will include local and systemic reactions/events as well as the biological safety, based on a clinically significant change of the baseline value of the main biological criteria. The immunogenicity of the different formulation of the vaccine will be assessed on the level and the quality of circulating antibodies as well as the stimulation of the T-cell immune response.

Start Date01 Oct 2006

Sponsor / Collaborator

European Vaccine Initiative

100 Clinical Results associated with MSP3

100 Translational Medicine associated with MSP3

0 Patents (Medical) associated with MSP3

231

Literatures (Medical) associated with MSP3

01 Apr 2025·International Journal of Infectious Diseases

Wider antibody breadth against multiple Plasmodium falciparum antigens is associated with reduced risk of malaria in a transmission hotspot in southern Ghana

Article

Author: Dodoo, Daniel ; Adu, Bright ; Issahaque, Quratul-Ain ; Dwomoh, Duah ; Authur, Fareed K N ; Theisen, Michael ; Singh, Susheel Kumar ; Kumordjie, Selassie ; Owusu-Yeboa, Eunice ; Kyei-Baafour, Eric ; Kusi, Kwadwo Asamoah

OBJECTIVESNaturally acquired immunity to malaria results from repeated infection with Plasmodium parasites. However, identifying immune correlates of immunity against febrile malaria is quite challenging. Here we investigated antigenic targets of malaria protective antibodies in populations residing a malaria transmission hotspot in southern Ghana.METHODWe enrolled 973 children, aged 6 months to 12 years, in southern Ghana out of which 211 were infected at least once with Plasmodium falciparum in a 50-week longitudinal cohort study. Total IgG levels in baseline plasma samples were determined using indirect ELISA.RESULTSWe found a significant association between higher IgG levels to MSP3 (adjusted P-value [aP] = 0.0002), GLURP-R2 (aP = 0.0026), MSP DBL2 (aP = 0.004) and N-MSP3 (aP = 0.002), and protection from febrile malaria. A negative association between higher antibody levels to MSP3, GMZ2, GLURP-R2 and MSPDBL2 and parasite density was also observed. Wider antibody breadth was associated with protection against febrile malaria and single, compared to multiple malaria episodes.CONCLUSIONSSpecific antibody levels and breadth of responses against multiple P. falciparum surface antigens protect against febrile malaria, parasitaemia and multiple malaria episodes. This data supports the development of multivalent vaccines targeting P. falciparum surface antigens in high malaria endemic settings.

01 Nov 2024·Scandinavian Journal of Immunology

Specific antibody responses to Qβ‐displayed Plasmodium falciparum‐derived UB05 and MSP3 proteins in mother–neonate couples

Article

Author: Lissom, Abel ; Sake, Carole Stephanie ; Ouambo, Herve Fotso ; Waffo, Alain Bopda ; Djontu, Jean Claude ; Tchouangueu, Thibau Flaurant ; Park, Chae Gyu ; Bawage, Swapnil ; Megnekou, Rosette ; Tchadji, Jules Colince ; Godwin, Nchinda Wapimewah ; Tchuandom, Salomon Bonsi ; Okoli, Arinze Stanley ; Ngu, Loveline ; Sanders, Carrie

AbstractMalaria blood‐stage parasite is a critical pathogenic stage responsible for serious adverse outcomes in pregnant women and their neonates. Immunoglobulin G (IgG) antibody responses specific to various asexual blood‐stage antigens were well reported in non‐pregnant individuals. However, little is still known during placental malaria. To assess the antibody responses specific to Plasmodium falciparum‐derived MSP3 and UB05 malaria vaccine candidates in mother‐neonate couples, mother's peripheral blood and neonate's cord blood samples were collected at delivery. After malaria diagnostic, plasma levels of IgG and IgG subclass responses specific to UB05, MSP3 and UB05‐MSP3 were determined using ELISA. As outcomes, both mothers and neonates had significantly higher IgG responses to UB05 and UB05‐MSP3 compared to anti‐MSP3 IgG (p < 0.05), irrespective of malaria status. Significant negative correlations were observed between IgG levels specific to the three antigens and parasitaemia (p < 0.01). Anti‐UB05 and anti‐UB05‐MSP3 IgG levels in neonates showed a significant positive correlation with the corresponding mothers' antibodies (rs = 0.25 with p = 0.04; rs = 0.31 with p = 0.01, respectively). UB05MSP3‐specific IgG3 and IgG1 subclass responses were significantly higher than the IgG4 subclass (p < 0.01). The neonates IgG1 and IgG3 levels positively correlated with the corresponding antibody subclasses of mothers. These findings suggest an association between UB05 and UB05‐MSP3‐specific antibody responses and malaria control during pregnancy. Maternal–foetal transfer of MSP3 and UB05‐specific IgG occurs during pregnancy, suggesting the interest in the future malaria vaccination strategies in pregnant women to generate early protective immunity in baby against malaria.

01 Sep 2024·Infection, Genetics and Evolution

Spatio-temporal analysis of genetic diversity of merozoite surface protein-3 alpha in Myanmar Plasmodium vivax isolates

Article

Author: Kim, Tong-Soo ; Htun, Zaw Than ; Myint, Moe Kyaw ; Kang, Jung-Mi ; Võ, Tuấn Cường ; Naw, Haung ; Lê, Hương Giang ; Na, Byoung-Kuk ; Shin, Ho-Joon

Myanmar aims to eliminate malaria by 2030. However, recent increase of malaria incidence is a great challenge to archive that goal. Increasing prevalence of Plasmodium vivax also hinders this endeavor. Monitoring genetic structure of the parasite is necessary to understand genetic nature and evolutionary aspect of P. vivax population in Myanmar. Partial fragment flanking blocks I and II of merozoite surface protein-3 alpha of P. vivax (pvmsp-3α) was amplified from P. vivax isolates collected in Pyin Oo Lwin, Mandalay Region, Myanmar in 2013-2015. Sequence analysis of pvmsp-3α was performed to determine genetic diversity and natural selection of this gene. Spatio-temporal genetic changes of pvmsp-3α in Myanmar P. vivax population were also investigated via comparative analysis of gene sequences obtained in this study and previously reported Myanmar pvmsp-3α sequences. Genetic diversity of Myanmar pvmsp-3α was detected in P. vivax isolates analyzed. Size polymorphisms in block I and amino acid changes and recombination events in block II were main factors contributing to the genetic diversity of pvmsp-3α. Comparative spatio-temporal analysis with previously reported Myanmar pvmsp-3α populations revealed the presence of genetic differences by population with moderate genetic differentiation between populations. Similar pattern of natural selection was also detected in Myanmar pvmsp-3α populations. These suggested that enough size of the P. vivax population sufficient to generate or maintain the genetic diversity remains in the population. Thus, continuous molecular surveillance of genetic structure of Myanmar P. vivax is necessary.

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