Vaccination of Koalas with a Recombinant Chlamydia pecorum Major Outer Membrane Protein Induces Antibodies of Different Specificity Compared to Those Following a Natural Live Infection

Avinash Kollipara,Adam Polkinghorne,Kenneth W Beagley,Peter Timms,Gilbert Greub

doi:10.1371/journal.pone.0074808

Avinash Kollipara, Adam Polkinghorne + Show 3 more

Open Access

https://doi.org/10.1371/journal.pone.0074808

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Journal: PloS one	Publication Date: Sep 25, 2013
Citations: 36	License type: CC BY 4.0

Affiliation: Queensland University of Technology

Abstract

Chlamydial infection in koalas is common across the east coast of Australia and causes significant morbidity, infertility and mortality. An effective vaccine to prevent the adverse consequences of chlamydial infections in koalas (particularly blindness and infertility in females) would provide an important management tool to prevent further population decline of this species. An important step towards developing a vaccine in koalas is to understand the host immune response to chlamydial infection. In this study, we used the Pepscan methodology to identify B cell epitopes across the Major Outer Membrane Protein (MOMP) of four C . pecorum strains/genotypes that are recognized, either following (a) natural live infection or (b) administration of a recombinant MOMP vaccine. Plasma antibodies from the koalas naturally infected with a C . pecorum G genotype strain recognised the epitopes located in the variable domain (VD) four of MOMP G and also VD4 of MOMP H. By comparison, plasma antibodies from an animal infected with a C . pecorum F genotype strain recognised epitopes in VD1, 2 and 4 of MOMP F, but not from other genotype MOMPs. When Chlamydia-free koalas were immunised with recombinant MOMP protein they produced antibodies not only against epitopes in the VDs but also in conserved domains of MOMP. Naturally infected koalas immunised with recombinant MOMP protein also produced antibodies against epitopes in the conserved domains. This work paves the way for further refinement of a MOMP-based Chlamydia vaccine that will offer wide cross-protection against the variety of chlamydial infections circulating in wild koala populations.

Highlights

The koala is the only surviving member of the family Phascolarctidae and is considered an icon of Australia’s unique biodiversity
We demonstrated that the immune responses in monovalent as well as polyvalent Major Outer Membrane Protein (MOMP) vaccine groups were able to recognize whole chlamydial elementary bodies, illustrating the feasibility of developing an effective MOMP-based C. pecorum vaccine that could protect against a range of strains
Vaccination elicits cross-reactive MOMP antibodies in Chlamydia free animals immunized with recombinant MOMP proteins A, F and G

Summary

Introduction

The koala is the only surviving member of the family Phascolarctidae and is considered an icon of Australia’s unique biodiversity. Despite this esteem, wild koala populations in geographically diverse regions throughout the country continue to decline. Wild koala populations in geographically diverse regions throughout the country continue to decline This decline has been attributed to several variables such as (a) habitat loss, resulting in fragmentation of koala colonies [1]; (b) disease [2]; (c) motor vehicle trauma [3]; and (d) dog attacks [4]. A recent study showed that addressing disease, amongst the many variables affecting koala survival would have the greatest potential impact on stabilising population decline [2].

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