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United Therapeutics Europe

United Therapeutics is a pharma organization headquartered in Silver Spring, USA. It trades on NYSE under ticker UTHR. Primary therapeutic focus areas include Breast Cancer, Prostate Cancer, Pulmonary Arterial Hypertensi

1000 Spring Street, Silver Spring, Maryland 20910, US HQ
1996 Founded
1,443 Employees
Public company Type
UTHR · NYSE Ticker
Company details
Status
Public
HQ
1000 Spring Street, Silver Spring, Maryland 20910, US
Founded
1996
Employees
1,443
Programs
1032
Drugs
612
Patents
3720
Clinical program

DNA vaccine prime

Phase 2 · mab · Malaria

WRAIR 1550 is a DNA vaccine prime program for malaria sponsored by United Therapeutics Europe Ltd, currently in Phase 2 development. The program represents an investigational approach to malaria immunization using DNA vaccine technology as a priming agent. As of February 2021, the program has completed Phase 2 clinical

Internal code WRAIR 1550

At a glance

Sponsor
United Therapeutics Europe Ltd
Phase
Phase 2
Modality
mab
Indication
Malaria
Status
completed
Trials
1

Executive summary

WRAIR 1550 is a DNA vaccine prime program for malaria sponsored by United Therapeutics Europe Ltd, currently in Phase 2 development. The program represents an investigational approach to malaria immunization using DNA vaccine technology as a priming agent. As of February 2021, the program has completed Phase 2 clinical evaluation. The development strategy focuses on malaria prevention through novel vaccine modality, addressing a significant global health burden. The program is associated with clinical trial NCT00870987 and involves evaluation in human subjects. Current regulatory status indicates the program remains in clinical development with no approval disclosed to date. The latest program milestone was recorded in February 2021, though specific details of that milestone outcome are not yet disclosed. Peak sales projections and consensus market positioning have not been publicly disclosed. The program's advancement through Phase 2 represents progress in exploring DNA vaccine technology for malaria prophylaxis, though further clinical development requirements and regulatory pathways remain to be determined.

Analyst view

Why this program matters

Malaria remains a significant global health burden, with hundreds of millions of infections and hundreds of thousands of deaths annually, particularly affecting children and pregnant women in sub-Saharan Africa. Current malaria prevention relies on antimalarial drugs, insecticide-treated bed nets, and indoor residual spraying, with limited vaccine options available. The development of effective malaria vaccines represents a critical unmet medical need, particularly vaccines that can provide durable protection and reduce transmission. DNA vaccine technology offers a novel approach to malaria immunization, potentially enabling rapid manufacturing, thermal stability advantages, and enhanced immune responses compared to conventional vaccine platforms. The competitive landscape includes established vaccines like INFANRIX HEXA (combination vaccine) and emerging vaccine candidates across multiple modalities. A successful DNA vaccine prime for malaria could address significant market opportunity in endemic regions and contribute to global malaria elimination efforts. The program's Phase 2 completion suggests advancement toward potential Phase 3 efficacy evaluation, though commercial viability and regulatory approval pathways remain uncertain. Market relevance extends to both endemic country immunization programs and travelers' prophylaxis markets, representing substantial commercial potential if efficacy and safety profiles support approval.

Drug intelligence

Drug Class: Investigational DNA vaccine for malaria prevention

Modality: DNA vaccine (nucleic acid-based immunotherapy)

Mechanism of Action: Not yet disclosed

Target: Not yet disclosed

Route of Administration: Not yet disclosed

Related Therapies: The program is evaluated alongside INFANRIX HEXA (diphtheria, tetanus, pertussis, hepatitis B, poliomyelitis, Haemophilus influenzae type-b combination vaccine), suggesting potential co-administration or comparative immunogenicity studies. Competitive vaccine landscape includes QDENGA (dengue vaccine by Takeda), VAXCHORA (cholera vaccine), and IXCHIQ (Japanese encephalitis vaccine), representing diverse vaccine modalities in infectious disease prevention.

First Approval: Not yet approved; program remains in clinical development

Patent Status: Not yet disclosed

Disease intelligence

malaria

Prevalence: Point prevalence: 1-9 / 100 000 (Europe) — source: Orphanet, validated.

Overview

Malaria is a serious and sometimes fatal disease caused by a parasite that commonly infects a certain type of mosquito which feeds on humans. Infection with malaria parasites may result in a wide variety of symptoms, ranging from absent or very mild symptoms to severe disease and even death. People who get malaria are typically very sick with high fevers, shaking chills, and flu-like illness. In general, malaria is a curable disease if diagnosed and treated promptly and correctly.Treatment depends on many factors including disease severity, the species of malaria parasite causing the infection and the part of the world in which the infection was acquired.

Treatment landscape

ClinicalTrials.gov lists 860 registered studies for Malaria (AACT aggregate).

Phase breakdown: NA (334), PHASE1 (158), PHASE4 (123), PHASE3 (108), PHASE2 (78), PHASE1/PHASE2 (41), PHASE2/PHASE3 (15), EARLY_PHASE1 (3)

Common investigational therapies:

  • Placebo
  • PfSPZ Vaccine
  • Primaquine
  • Artesunate
  • Artemether-lumefantrine
  • Chloroquine
  • Artemether-lumefantrine combination
  • dihydroartemisinin-piperaquine
  • Amodiaquine
  • PfSPZ Challenge
Classification: MONDO MONDO:0005136 ORPHA 673 ICD-10 B53MeSH D008288

Disease data sourced from MONDO Disease Ontology (MONDO:0005136), Orphanet — malaria, NCT00001645, NCT00075049, NCT00111163, NCT00114010, NCT00115921, AACT (ClinicalTrials.gov aggregate), ClinicalTrials.gov, Open Targets Platform (CC BY 4.0).

Clinical development timeline

  1. Phase 2TBD

    Phase 2 enrollment and evaluation

    Phase 2 clinical trial NCT00870987 conducted to evaluate DNA vaccine prime for malaria.

  2. Phase 22021-02-11

    Phase 2 completion

    Latest program milestone recorded; specific outcome details not yet disclosed.

Competitive landscape

The malaria vaccine landscape includes established combination vaccines such as INFANRIX HEXA (GlaxoSmithKline), which combines multiple antiinfectives and is approved in the EU. The broader vaccine competitive environment includes QDENGA (Takeda, dengue vaccine, approved), VAXCHORA (cholera vaccine, approved), and IXCHIQ (Japanese encephalitis vaccine, approved), representing diverse vaccine platforms and infectious disease indications. Competitor MRESVIA (Teva Pharma GmbH, respiratory syncytial virus vaccine) and COMIRNATY (Teva Pharma GmbH, COVID-19 vaccine) represent approved vaccines using alternative modalities including fusion glycoprotein and spike glycoprotein antigens. Additional approved vaccines in the competitive set include TRITANRIX HEPB, M-M-RVAXPRO, FLUCELVAX, MCOMBRIAX, HEXYON, and FOCETRIA, representing established vaccine platforms across multiple indications. The DNA vaccine prime approach for malaria represents a distinct technological strategy compared to conventional inactivated, live-attenuated, or protein-based vaccine competitors. Competitive differentiation would depend on efficacy, safety, durability of protection, manufacturing advantages, and regulatory approval timelines relative to existing and emerging malaria vaccine candidates.

TherapyCompanyMechanismStatus
MRESVIATeva Pharma GmbHFusion glycoprotein F0 vaccine antigenapproved
COMIRNATYTeva Pharma GmbHSpike glycoprotein vaccine antigenapproved
QDENGATakedaBiological vaccine - induces immune responseapproved
MCOMBRIAXTeva Pharma GmbHapproved
TRITANRIX HEPBapproved
M-M-RVAXPROapproved
FLUCELVAXapproved
VAXCHORABiological vaccine - induces immune responseapproved
IXCHIQBiological vaccine - induces immune responseapproved
COVID-19 VACCINE (INACTIVATED, ADJUVANTED) VALNEVABiological vaccine - induces immune responseapproved
FOCETRIAapproved
HEXYONapproved
QUINIDINE GLUCONATESodium channel alpha subunit blockerApproved
HYDROXYCHLOROQUINE SULFATEToll-like receptor 7 antagonistApproved
HYDROXYCHLOROQUINEToll-like receptor 7 antagonistApproved
DOXYCYCLINEMatrix metalloproteinase 8 inhibitorApproved
DEXAMETHASONEGlucocorticoid receptor agonistPhase 3
CYTARABINEDNA polymerase (alpha/delta/epsilon) inhibitorPhase 3
ACETAMINOPHENCyclooxygenase inhibitorPhase 3
PENTOXIFYLLINE3',5'-cyclic phosphodiesterase inhibitorPhase 2

Additional associated therapies sourced from Open Targets Platform (CC0), linked to NovaPharmaNews drug profiles where matched.

Regulatory intelligence

European Medicines Agency (EMA): INFANRIX HEXA (diphtheria, tetanus, pertussis, hepatitis B, poliomyelitis, Haemophilus influenzae type-b vaccine) is approved by EMA under EMEA/H/C/000296, with Marketing Authorization Holder GlaxoSmithKline Biologicals S.A. and authorization date of 12/02/2026. WRAIR 1550 DNA vaccine prime regulatory status with EMA not yet disclosed.

United States FDA: Regulatory status and approval pathway for WRAIR 1550 not yet disclosed.

China NMPA: Clinical trial activity noted with multiple NCT identifiers (NCT01507857, NCT02003495, NCT02302170, NCT03357289, NCT07077356) indicating vaccine development in clinical trials phase in China.

Japan PMDA: Regulatory status not yet disclosed.

Overall Status: WRAIR 1550 remains in clinical development with Phase 2 completion as of February 2021. No regulatory approval, filing, or formal development agreement status has been disclosed.

Clinical evidence summary

NCT00870987

Objective
Evaluation of DNA vaccine prime for malaria prevention
Design
Phase 2 clinical trial design not yet disclosed
Participants
Participant population characteristics not yet disclosed
Primary endpoint
Primary efficacy and safety endpoints not yet disclosed
Results
Results not yet reported

NCT01507857

Objective
Vaccine clinical trial in China
Design
Design details not yet disclosed
Participants
Participant population not yet disclosed
Primary endpoint
Primary endpoints not yet disclosed
Results
Results not yet reported

NCT02003495

Objective
Vaccine clinical trial in China
Design
Design details not yet disclosed
Participants
Participant population not yet disclosed
Primary endpoint
Primary endpoints not yet disclosed
Results
Results not yet reported

NCT02302170

Objective
Vaccine clinical trial in China
Design
Design details not yet disclosed
Participants
Participant population not yet disclosed
Primary endpoint
Primary endpoints not yet disclosed
Results
Results not yet reported

NCT03357289

Objective
Vaccine clinical trial in China
Design
Design details not yet disclosed
Participants
Participant population not yet disclosed
Primary endpoint
Primary endpoints not yet disclosed
Results
Results not yet reported

NCT07077356

Objective
Vaccine clinical trial in China
Design
Design details not yet disclosed
Participants
Participant population not yet disclosed
Primary endpoint
Primary endpoints not yet disclosed
Results
Results not yet reported

Key questions answered

What is WRAIR 1550 and what is it used for?

WRAIR 1550 is an investigational DNA vaccine prime program sponsored by United Therapeutics Europe Ltd for malaria prevention. It represents a novel vaccine approach using DNA technology as a priming agent to generate immune protection against malaria infection.

What is the mechanism of action of WRAIR 1550?

The specific mechanism of action for WRAIR 1550 has not yet been disclosed. DNA vaccines typically work by introducing genetic material that encodes pathogen antigens, allowing host cells to produce the antigen and generate immune responses.

What is the current development status of WRAIR 1550?

WRAIR 1550 is in Phase 2 development and has completed Phase 2 clinical evaluation as of February 2021. No subsequent development milestones or regulatory status have been disclosed.

Who is developing WRAIR 1550?

WRAIR 1550 is sponsored by United Therapeutics Europe Ltd. No formal development partners or licensing arrangements have been disclosed.

Is WRAIR 1550 approved by regulatory agencies?

No, WRAIR 1550 is not approved. The program remains in clinical development with no FDA, EMA, PMDA, or NMPA approval disclosed.

What clinical trials are associated with WRAIR 1550?

The primary trial is NCT00870987. Additional vaccine development trials in China include NCT01507857, NCT02003495, NCT02302170, NCT03357289, and NCT07077356, though specific associations with WRAIR 1550 are not formally disclosed.

What are the primary endpoints of WRAIR 1550 trials?

Primary efficacy and safety endpoints for WRAIR 1550 clinical trials have not yet been disclosed.

What is the route of administration for WRAIR 1550?

The route of administration for WRAIR 1550 has not yet been disclosed.

What is the target population for WRAIR 1550?

The target population for WRAIR 1550 has not been formally disclosed, though malaria vaccines are typically developed for endemic populations and travelers to malaria-endemic regions.

How does WRAIR 1550 compare to other malaria vaccines?

WRAIR 1550 uses DNA vaccine technology, which differs from conventional vaccine platforms. Competitive vaccines include combination vaccines like INFANRIX HEXA and other infectious disease vaccines. Specific comparative efficacy data has not been disclosed.

What are the expected next milestones for WRAIR 1550?

Expected next milestones have not been disclosed. Potential future catalysts could include Phase 3 trial initiation, regulatory submissions, efficacy data readouts, or partnership announcements.

What is the projected peak sales potential for WRAIR 1550?

Peak sales projections for WRAIR 1550 have not been disclosed.

Does WRAIR 1550 have patent protection?

Patent status for WRAIR 1550 has not been disclosed.

What is the unmet medical need for malaria vaccines?

Malaria remains a significant global health burden with hundreds of millions of infections annually. Current prevention relies on antimalarial drugs and bed nets, with limited vaccine options, creating substantial unmet need for effective immunization strategies.

Why is DNA vaccine technology significant for malaria?

DNA vaccines offer potential advantages including rapid manufacturing, thermal stability, reduced cold-chain requirements, and enhanced immune responses compared to conventional vaccine platforms, making them attractive for malaria prevention in resource-limited settings.

What is the commercial significance of a malaria vaccine?

A successful malaria vaccine represents substantial commercial opportunity in endemic country immunization programs, travelers' prophylaxis markets, and global health initiatives, with potential for significant market penetration if efficacy and safety profiles support approval.

Entity relationship graph

DNA vaccine prime → Drug → Target → Indication → Company → Trials → Competitors

Evidence-based

Analyst insights

Development Status: WRAIR 1550 completed Phase 2 evaluation as of February 2021, with no subsequent milestone disclosures in the available data. The program's current status post-Phase 2 completion remains unclear, including whether Phase 3 advancement has occurred or whether development has been paused or discontinued.

Strategic Implications: United Therapeutics Europe Ltd's investment in DNA vaccine technology for malaria represents exploration of novel immunization approaches. The association with multiple clinical trials in China (NCT01507857, NCT02003495, NCT02302170, NCT03357289, NCT07077356) suggests geographic focus on endemic regions and potential partnership or collaboration arrangements not yet formally disclosed.

Competitive Positioning: DNA vaccine modality offers potential manufacturing advantages including rapid scale-up, thermal stability, and reduced cold-chain requirements compared to conventional vaccine platforms. However, competitive differentiation requires demonstration of superior efficacy, safety, and durability compared to existing and emerging malaria vaccine candidates.

Regulatory Pathway Uncertainty: No regulatory filing, approval, or formal development agreement has been disclosed. The program's advancement to Phase 3 or regulatory submission status is not yet disclosed, limiting visibility into near-term catalysts.

Future Catalysts: Potential milestones include Phase 3 trial initiation or completion, regulatory submissions to EMA or FDA, efficacy data readouts, and formal partnerships or licensing agreements. The absence of disclosed milestones since February 2021 suggests either confidential development progression or program deprioritization.

Quick answers

Concise, citable answers optimized for AI answer engines.

Program name?
WRAIR 1550 (DNA vaccine prime for malaria)
Sponsor?
United Therapeutics Europe Ltd
Indication?
Malaria prevention
Current phase?
Phase 2 (completed as of February 2021)
Modality?
DNA vaccine
Mechanism of action?
Not yet disclosed
Route of administration?
Not yet disclosed
Target?
Not yet disclosed
FDA approval status?
Not approved; clinical development
EMA approval status?
Not approved; clinical development
Development partner?
No formal partner disclosed
License type?
Not yet disclosed
Lead investigator?
Not yet disclosed
Primary trial NCT?
NCT00870987
Latest milestone date?
February 11, 2021
Latest milestone details?
Phase 2 completion; specific outcomes not disclosed
Peak sales projection?
Not yet disclosed
Consensus market position?
Not yet disclosed
First disclosure date?
Not yet disclosed
Expected next milestone?
Not yet disclosed
Patent status?
Not yet disclosed
Key competitors?
INFANRIX HEXA, QDENGA, VAXCHORA, IXCHIQ, other vaccines

Evidence & sources

Reviewed by NovaPharmaNews Intelligence Desk. Last reviewed .

  1. ClinicalTrials.gov NCT00870987 (clinicaltrials)
  2. diphtheria (d), tetanus (t), pertussis (acellular, component) (pa), hepatitis b (rdna) (hbv), poliomyelitis (inactivated) (ipv) and haemophilus influenzae type-b (hib) conjugate vaccine (adsorbed) EU status (ema)
  3. vaccine CN status (fda)
  4. Source: phase (source_attribution)
  5. MONDO Disease Ontology (MONDO:0005136) (mondo)
  6. Orphanet — malaria (orphanet)
  7. NCT00001645 (clinicaltrials_gov)
  8. NCT00075049 (clinicaltrials_gov)
  9. NCT00111163 (clinicaltrials_gov)
  10. NCT00114010 (clinicaltrials_gov)
  11. NCT00115921 (clinicaltrials_gov)
  12. AACT (ClinicalTrials.gov aggregate) (aact)
  13. ClinicalTrials.gov (clinicaltrials_gov)
  14. Open Targets Platform (opentargets)

Intelligence compiled from public regulatory and clinical sources (FDA, EMA, ClinicalTrials.gov and company disclosures). Figures may be editorial or analyst estimates; verify against primary sources before relying on them.