Identification and characterization of T helper cell epitopes of the major outer membrane protein of Chlamydia trachomatis.

Abstract

Chlamydia trachomatis serovars A, B, and C are the causative agents of trachoma, the world's leading cause of preventable blindness. Immunoprophylaxis is a possible approach to control trachoma. The chlamydial major outer membrane protein (MOMP) is thought to play an important role in the development of protective immunity against chlamydial infection, and is therefore considered to be a promising candidate antigen in the development of a trachoma vaccine. Much effort has been focused on the molecular characterization of B cell sites of the MOMP that elicit neutralizing antibodies. Neutralizing sites have been identified as linear epitopes that reside within variable domains (VDs) of the protein whose primary sequences vary among different serovars. No information exists on MOMP T helper (Th) cell antigenic determinants, which are likely critical components for the development of a successful chlamydial vaccine. We used overlapping synthetic peptides (25 mers) representing the entire primary sequence of serovar A MOMP in T cell proliferation assays to identify T cell antigenic determinants of this molecule. Eight synthetic peptides (A-2, A-3, A-7, A-8, A-11, A-22, A-23, and A-24) stimulated proliferative responses of splenic T cells isolated from MOMP-immunized A/J mice. To ascertain if these peptides functioned as Th cell antigens, we determined their ability to prime A/J mice in vivo to produce an anamnestic IgG response specific to the MOMP. Mice primed with synthetic peptides A-8 (106-130) or A-23 (331-355) produced IgG antibodies reactive with the native MOMP and with the synthetic peptides corresponding to surface-accessible serovar-specific epitopes located in VD I and serogroup-specific epitopes located in VD IV of the protein. We synthesized the A-8 and A-23 peptides with the VD I sequence as colinear chimeric peptides. Immunization of mice with the T/B cell peptides produced high titered antibodies against the VD I sequence, and these antibodies reacted with the native MOMP and intact chlamydiae. The MOMP sequences containing these Th cell epitopes are conserved among the MOMP genes of different C. trachomatis serovars, indicating that they are common Th cell antigenic sites. Thus, the Th cell epitopes contained within these peptides, in combination with different trachoma serovar-specific B cell neutralizing determinants, may be useful in the development of a synthetic or recombinant trivalent trachoma vaccine.