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DNA Vaccine encoding Trypanosoma brucei MSP-B elicited IgG and γ-IFN responses and partial protection in immunized mice
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  • Aminu Bashir Yusuf,
  • Gouegni Edwige Flore,
  • Amaya Jobin Habila,
  • Ismai’ila Alhaji Umar,
  • Sani Ibrahim,
  • Junaid Kabir,
  • Kenji Hirayama,
  • Kentaro Kato,
  • Clara Vasquez Velasquez,
  • Daniel INAOKA,
  • Emmanuel Oluwadare Balogun,
  • Mohammed Nasir Shuaibu
Aminu Bashir Yusuf
Ahmadu Bello University

Corresponding Author:[email protected]

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Gouegni Edwige Flore
Ahmadu Bello University
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Amaya Jobin Habila
Ahmadu Bello University
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Ismai’ila Alhaji Umar
Ahmadu Bello University
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Sani Ibrahim
Ahmadu Bello University
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Junaid Kabir
Ahmadu Bello University
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Kenji Hirayama
Nagasaki University
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Kentaro Kato
Nagasaki University
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Clara Vasquez Velasquez
Nagasaki University
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Daniel INAOKA
University of Nagasaki
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Emmanuel Oluwadare Balogun
Ahmadu Bello University
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Mohammed Nasir Shuaibu
Ahmadu Bello University
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Abstract

As an effort towards vaccine development against African trypanosomiasis, we studied key parasite molecules that mediate VSG functions, specifically the major surface protease-B of Trypanosoma brucei that catalyzes proteolytic removal of old VSGs for expression of new ones, an important stage-specific function that allows the parasite to survive in its host, thus making it an attractive candidate for vaccine development. Herein, Tbmsp-b gene was cloned into a pVAX-1 plasmid to produce pVAX-1-Tbmsp-b construct for DNA vaccine trials. BALB/c mice were immunized by intradermal injection with 100 µg dose of the construct thrice on days 0, 21 and 42, then inoculated with 2000 parasites on day 56. Anti-trypanosomes specific antibody (IgG) and cytokine (γ-IFN) were monitored by ELISA from sera of immunized and unimmunized mice. Immunized mice showed significantly (p < 0.05) higher IgG and γ-IFN responses, lower parasitaemia (by 75% and 51.2% of parasitaemic scores on first and fifth week of infection) and longevity by up to 22 days compared to unimmunized mice. These results showed that the construct provided partial protection to virulent T. b. brucei (Federe strain) infection in susceptible BALB/c mice suggesting the potentials for using MSP-B as an antigen in DNA vaccine development against African trypanosomiasis.
21 Sep 2024Submitted to Parasite Immunology
25 Sep 2024Submission Checks Completed
25 Sep 2024Assigned to Editor
25 Sep 2024Review(s) Completed, Editorial Evaluation Pending
09 Oct 2024Reviewer(s) Assigned
09 Nov 2024Editorial Decision: Revise Major
22 Nov 20241st Revision Received