TitleTemporal analysis of the developing Chlamydia psittaci inclusion by use of fluorescence and electron microscopy.
Publication TypeJournal Article
Year of Publication1996
AuthorsRockey, DD, Fischer, ER, Hackstadt, T
JournalInfection and immunity
Volume64
Issue10
Pagination4269-78
Date Published1996 Oct
KeywordsFluorescence, Microscopy
Abstract

The chlamydiae are obligate intracellular parasites that develop and multiply within a vacuole (termed an inclusion) that does not fuse with lysosomes. Inclusion morphology varies dramatically among the different chlamydiae, particularly within the species Chlamydia psittaci. Some strains develop within a single vacuole, while the mature inclusion of other strains consists of several distinct lobes, each filled with chlamydial developmental forms. The development of this lobed structure was investigated in HeLa cells infected with the guinea pig inclusion conjunctivitis (GPIC) strain of C. psittaci. We employed two recently described probes for the chlamydial inclusion to study the development of these unique lobed structures. The novel probes were an antiserum directed at a protein localized to the GPIC inclusion membrane (anti-IncA) and the fluorescent sphingolipid (N-[7-(4-nitrobenzo-2-oxa-1,3-)]) aminocaproyl sphingosine (NBD-ceramide). Lobed inclusions developed in cells infected at very low multiplicities of infection, suggesting that the structure is not a function of infection by more than one elementary body (EB). Double-label fluorescent-antibody analysis with anti-IncA and an antibody directed at a chlamydial outer membrane protein showed that, prior to 18 h postinfection (p.i.), the inclusion membrane and the chlamydial membrane were tightly associated. After 18 to 20 h p.i., the lobes began to expand and fill with developmental forms and the inclusion membrane and chlamydial membrane became distinct. At times from 8 to 48 h p.i., GPIC inclusions were shown to receive fluorescent derivatives of NBD-ceramide and to be localized to the perinuclear region of the host cell. Labeled lectins with affinity for carbohydrate moieties localized to the Golgi apparatus showed that the lobes of mature inclusions surround the Golgi apparatus. Labeling with NBD-ceramide and the Golgi apparatus-specific lectins therefore demonstrated a functional and physical association of the inclusion with the Golgi apparatus throughout the developmental cycle. Collectively, these results lead to a model for the development of the lobed chlamydial inclusion. We propose that the lobed structure is a result of division of inclusions occurring in parallel with the multiplication of reticulate bodies (RB) early in the developmental cycle. The division of inclusions slows or stops in mid-cycle, and dividing RB accumulate within the enlarging lobes. The RB then differentiate to EBs, the inclusion and cell are lysed, and EBs are freed to infect another cell.