Leishmaniasis is a neglected disease caused by the Leishmania parasite and transmitted by the bite of an infective sand fly. Despite the importance of this disease there is no vaccine available for humans. Studies have shown that vector-transmitted infections are more virulent, promoting parasite establishment and abrogating protection observed against needle-injected parasites in vaccinated mice. KSAC and L110f, derived from Leishmania-based polyproteins, protected mice against the needle-injected parasites. Here, we tested the two molecules for their capacity to protect mice against cutaneous leishmaniasis transmitted by an infective sand fly. Our results show that KSAC, but not L110f, confers protection against Leishmania transmitted by sand fly bites where protection was correlated to a strong immune response to Leishmania antigens by memory T cells before and after sand fly transmission of the parasite. This is the first report of a Leishmania-based vaccine that confers protection against a virulent sand fly challenge. Our results support the importance of screening Leishmania vaccine candidates using infective sand flies before moving forward with the costly steps of vaccine development

A Llanos-Cuentas

A Nadim

Ajay Bhatia

Ben L. Kelly

CH Costa

CL Greenblatt

Clarissa Teixeira

Claudio Meneses

D Sacks

Dia-Eldin Elnaiem

E Handman

E Nascimento

F Oliveira

Fabiano Oliveira

FY Liew

I Muller

J Chakravarty

J Miret

J Trigo

JE Uzonna

Jesus G. Valenzuela

JR Webb

L Kedzierski

L Nicolas

ME Rogers

NC Peters

P Desjeux

P Scott

PA Darrah

Phillip G. Lawyer

Randall F. Howard

RC Anderson

Regis Gomes

RN Coler

S Bertholet

S Kamhawi

Shaden Kamhawi

SL Reiner

Steven G. Reed

Y Belkaid

Y Goto

YA Skeiky

Yasuyuki Goto

English

PubMed

Recombinant KSAC and L110f are promising Leishmania vaccine candidates. Both antigens formulated in stable emulsions (SE) with the natural TLR4 agonist MPL® and L110f with the synthetic TLR4 agonist GLA in SE protected BALB/c mice against L. major infection following needle challenge. Considering the virulence of vector-transmitted Leishmania infections, we vaccinated BALB/c mice with either KSAC+GLA-SE or L110f+GLA-SE to assess protection against L. major transmitted via its vector Phlebotomus duboscqi.Mice receiving the KSAC or L110f vaccines were challenged by needle or L. major-infected sand flies. Weekly disease progression and terminal parasite loads were determined. Immunological responses to KSAC, L110f, or soluble Leishmania antigen (SLA) were assessed throughout vaccination, three and twelve weeks after immunization, and one week post-challenge.Following sand fly challenge, KSAC-vaccinated mice were protected while L110f-vaccinated animals showed partial protection. Protection correlated with the ability of SLA to induce IFN-γ-producing CD4(+)CD62L(low)CCR7(low) effector memory T cells pre- and post-sand fly challenge.This study demonstrates the protective efficacy of KSAC+GLA-SE against sand fly challenge; the importance of vector-transmitted challenge in evaluating vaccine candidates against Leishmania infection; and the necessity of a rapid potent Th1 response against Leishmania to attain true protection

Phillip G Lawyer

Randall F Howard

Steven G Reed

Jesus G Valenzuela

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PLoS Neglected Tropical Diseases

KSAC, a defined Leishmania antigen, plus adjuvant protects against the virulence of L. major transmitted by its natural vector Phlebotomus duboscqi.

<div><h3>Background</h3><p>Recombinant KSAC and L110f are promising <em>Leishmania</em> vaccine candidates. Both antigens formulated in stable emulsions (SE) with the natural TLR4 agonist MPL® and L110f with the synthetic TLR4 agonist GLA in SE protected BALB/c mice against <em>L. major</em> infection following needle challenge. Considering the virulence of vector-transmitted <em>Leishmania</em> infections, we vaccinated BALB/c mice with either KSAC+GLA-SE or L110f+GLA-SE to assess protection against <em>L. major</em> transmitted via its vector <em>Phlebotomus duboscqi</em>.</p> <h3>Methods</h3><p>Mice receiving the KSAC or L110f vaccines were challenged by needle or <em>L. major</em>-infected sand flies. Weekly disease progression and terminal parasite loads were determined. Immunological responses to KSAC, L110f, or soluble <em>Leishmania</em> antigen (SLA) were assessed throughout vaccination, three and twelve weeks after immunization, and one week post-challenge.</p> <h3>Results</h3><p>Following sand fly challenge, KSAC-vaccinated mice were protected while L110f-vaccinated animals showed partial protection. Protection correlated with the ability of SLA to induce IFN-γ-producing CD4<sup>+</sup>CD62L<sup>low</sup>CCR7<sup>low</sup> effector memory T cells pre- and post-sand fly challenge.</p> <h3>Conclusions</h3><p>This study demonstrates the protective efficacy of KSAC+GLA-SE against sand fly challenge; the importance of vector-transmitted challenge in evaluating vaccine candidates against <em>Leishmania</em> infection; and the necessity of a rapid potent Th1 response against <em>Leishmania</em> to attain true protection.</p> </div

Regis Gomes (173639)

Clarissa Teixeira (173644)

Fabiano Oliveira (41562)

Phillip G. Lawyer (44888)

Dia-Eldin Elnaiem (41564)

Claudio Meneses (173655)

Yasuyuki Goto (22965)

Ajay Bhatia (173661)

Randall F. Howard (173666)

Steven G. Reed (173670)

Jesus G. Valenzuela (44889)

Shaden Kamhawi (35598)

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KSAC, a Defined <em>Leishmania</em> Antigen, plus Adjuvant Protects against the Virulence of <em>L. major</em> Transmitted by Its Natural Vector <em>Phlebotomus duboscqi</em>

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KSAC, a Defined Leishmania Antigen, plus Adjuvant Protects against the Virulence of L. major Transmitted by Its Natural Vector Phlebotomus duboscqi

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KSAC, a Defined Leishmania Antigen, plus Adjuvant Protects against the Virulence of L. major Transmitted by Its Natural Vector Phlebotomus duboscqi

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