An estimated >10 million new cases of syphilis occur worldwide every year with ~40% of congenital syphilis cases resulting in fetal loss or perinatal death. Moreover, approximately half of the surviving infants suffer serious sequelae. The successful control of syphilis requires a better understanding of critical virulence factors of Treponema pallidum, the syphilis spirochete, and additional knowledge of the antigenic markers of severe disease is warranted. Based upon our preliminary data, we hypothesize that (1) specific adhesins of T. pallidum are associated with invasion and colonization of placenta, (2) the presence of anti- adhesin maternal antibodies capable of blocking adherence might result in less severe or no congenital infections, and (3) these antigens could serve as vaccine candidates. Testing of this hypothesis will help achieve our long-term goals to understand congenital syphilis pathogenesis and develop effective vaccine. We propose to perform the first comprehensive molecular exploration of the role of three known and putative T. pallidum adhesins in congenital syphilis ex-vivo and in vivo, and to test the association of antibodies against these proteins with the congenital syphilis outcomes. Using a highly novel immunization approach, we will also assess the potential of these antigens as vaccine candidates in the rabbit infection model of syphilis. Due to the inability to cultivate T. pallidum in vitro, and its genetc intractability, we will employ several innovative approaches to perform our proposed studies. For instance, using a bioluminescent, non-infectious, non-adherent spirochete Borrelia burgdorferi to express T. pallidum genes, we discovered that T. pallidum TP0435 lipoprotein is a placental cell adhesin. We will also examine the role of two other putative placental adhesins, TP0954 and the laminin/fibronectin-binding lipoprotein TP0136. TP0954 exhibits similarity with the var2CSA domain of PfEMP1 of Plasmodium falciparum, which facilitates placental colonization by the malaria parasite causing great harm to the developing fetus. The goals of this project are to: determine the role of T. pallidum adhesins in binding to placental tissue usin a heterologous expression system (Aim 1); determine the impact of the adaptive immune response against syphilis in pregnant women on both placental colonization and on pregnancy outcomes (Aim 2); and determine whether specific adhesins or a combination of adhesins can be used as vaccine to induce protective immunity against syphilis (Aim 3). Significance. This application takes advantage of unique resources: clinical and molecular expertise of Dr. Centurion-Lara on treponemes and access to samples from syphilitic pregnant women in Peru for studying congenital syphilis, coupled with the experimental know-how and proficiency of using rabbit model of syphilis of Dr. Giacani along with the strong expertise of Dr. Parveen in spirochetes-host interactions. This will be the first such all-inclusive study that will enhance th understanding of congenital syphilis and will also lead to development of better diagnostic tools and vaccine strategy against syphilis.

Public Health Relevance

Syphilis affects millions of people around the world and transmission of its causative agent, Treponema pallidum, from the mother to the fetus can result in stillbirths, abortions, low birth weights or premature births. Understanding the mechanisms this bacterium uses to reach the fetus and cause different clinical presentations could help in developing new ways to prevent congenital transmission, decrease morbidity and mortality of the fetus and thus, have a profound and global impact on mother-child health. Assays involving maternal antibodies against selected proteins could prove useful in identifying novel vaccine candidates against syphilis.

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project--Cooperative Agreements (U01)
Project #
5U01AI115497-03
Application #
9197601
Study Section
Special Emphasis Panel (ZAI1-AWA-M (S2))
Program Officer
David, Hagit S
Project Start
2015-08-18
Project End
2020-01-31
Budget Start
2017-02-01
Budget End
2018-01-31
Support Year
3
Fiscal Year
2017
Total Cost
$659,423
Indirect Cost
$108,027
Name
Rutgers University
Department
Microbiology/Immun/Virology
Type
Schools of Medicine
DUNS #
078795851
City
Newark
State
NJ
Country
United States
Zip Code
07103