High-yield culture and purification of Chlamydiaceae bacteria

Research on intracellular bacteria of the family Chlamydiaceae, and the diseases they cause, requires large amounts of infectious elementary bodies (EB). We describe an approach that maximizes the generation of Chlamydia pneumoniae, Chlamydia trachomatis, Chlamydia abortus, or Chlamydia pecorum EBs in several replication cycles over approximately 10 days or more in a saturated equilibrium monolayer cell culture system. Buffalo Green Monkey Kidney (BGMK) cells, Human Epidermoid Carcinoma-2 (HEp-2) cells, or mouse McCoy cells were tested. BGMK cells best supported C. pneumoniae replication when cultivated in Iscove's Modified Dulbecco's Medium. From day 1 to day 9 after inoculation, C. pneumoniae genomes per ml culture medium increased from 10(5.1) to 10(8.6) in BGMK, from 10(5.6) to 10(8.1) in HEp-2, and remained at 10(5.2) in McCoy cell cultures. Three-month pre-inoculation maintenance of BGMK cells in different culture media did not influence C. pneumoniae yields. Inoculation at multiplicities of infection (MOI) of 10 or higher and supplementation of the cell culture medium on day 7 after inoculation with 0.1% glucose enhanced C. pneumoniae EB yields in harvested cell culture medium. For purification, EBs in medium were concentrated by sedimentation, followed by low-speed centrifugation for removal of host cell nuclei, and by step-gradient centrifugation of the supernatant in a 30% RenoCal-76-50% sucrose step-gradient. Extensive sonication increased yield and infectivity of chlamydial EB. The combined method typically produced from 1000 ml infected BGMK culture medium 10 ml homogeneous, single-cell, highly infectious EB stock containing approximately 5x10(11) C. pneumoniae genomes equivalent to 4-5x10(11) inclusion forming units.     

Effect of Ionizing Irradiation on Susceptibility of McCoy Cell Cultures to Chlamydia trachomatis

The effect of graded doses of irradiation (cobalt-60) on the morphology of McCoy cells was analyzed, and 4,000 to 5,000 r was selected as a satisfactory dose for production of giant cells. The susceptibility of radiation-induced giant cells to chlamydial infection was compared with that of nonirradiated cells by using three strains of Chlamydia trachomatis and one of C. psittaci. Monolayers of giant cells were more susceptible than normal McCoy cells as indicated by (i) greater numbers of inclusions (four- to eightfold) per unit area of monolayer, (ii) larger inclusions (fourfold greater in area), (iii) higher infective titers (1 log or more greater) of harvested cells, and (iv) greater ease of promoting a second cycle of growth. Graded doses of irradiation were applied also to mouse fibroblast (L) cells, and a similar increase in susceptibility to chlamydial infection was noted. It is concluded that giant cells produced by irradiation possess advantages over nonirradiated cells in culture for growth of Chlamydia.     

Endocytosis of chlamydiae by McCoy cells: measurement and effects of centrifugation

Abstract Chlamydia trachomatis strain 434 and C. psittaci strain guinea pig inclusion conjunctivitis (GPIC) were compared for entry into McCoy cells and expression of productive infection (inclusion body formation). Entry was measured as the difference between extracellular cell-associated organisms, determined directly after fluorescence staining of live cells, and total cell-associated organisms (intracellular and extracellular); the latter were evaluated from radioactivity measurement and known particle: radioactivity ratios for stock radiolabelled suspensions. Under inoculation conditions of natural (spontaneous) infection, 69–82% of cell-associated organisms of both strains were internalised and entry was not enhanced by centrifugation of inocula with monolayers. For 434, inclusion bodies were seen in 10–20% of cells containing organisms and numbers were little influenced by mode of infection. For GPIC, productive infection initiated by centrifugation was comparable with that of 434 but some 15-fold reduced in spontaneous infection. The results suggest that unproductive infection by GPIC occurs, not because of defective entry, but from inhibition at an intracellular step which is circumvented when infection is initiated by centrifugation.     

The developmental cycle of Chlamydia trachomatis in McCoy cells treated with cytochalasin B.

The growth of a genital trachoma-inclusion conjunctivitis agent strain of Chlamydia trachomatis in McCoy cells treated with cytochalasin B was studied by quantitative infectivity estimations and by light and electron microscopy. Provided that infection of the monolayer was initiated by centrifuging the infectious particles on to the cells before incubation, this chlamydial strain grew as fast and to as high a titre [approximately 10(7) inclusion-forming units (i.f.u.) per culture] as those chlamydiae which infect cell cultures in vitro without centrifugation. Each i.f.u. inoculated yielded approximately 600 i.f.u., and extracellular infectivity was detected soon after intracellular infectivity appeared. Inclusions were recognized by fluorescent antibody staining techniques early in the developmental cycle when cultures were not infectious and when only reticulate bodies were seen by electron microscopy. Inclusions were recognized in Giemsa-stained preparations examined by dark ground microscopy only when elementary bodies appeared in the inclusions. Iodine staining was not a reliable indicator either of the number of inclusions present or of their infectivity.     

Isolation of Chlamydia trachomatis by Use of 5-Iodo-2-Deoxyuridine—Treated Cells

Irradiated McCoy cells have provided a useful technique for the isolation of Chlamydia trachomatis strains, among which are found the etiological agents of trachoma, inclusion conjunctivitis, and lymphogranuloma venereum. Because irradiation is not always readily available, 5-iodo-2-deoxyuridine (IUDR) treatment of cells was investigated as a substitute procedure. IUDR-treated cells were found to be as sensitive to C. trachomatis infection as were irradiated McCoy cells. Stock chlamydial strains gave similar titers of iodine-stained inclusions in either system. When cells treated with IUDR were compared with irradiated cells for the isolation of C. trachomatis from clinical specimens, 5 of 138 specimens yielded isolates in IUDR-treated cells not found in irradiated ones, and one isolate was obtained from irradiated but not from IUDR-treated cells. In those 56 cases where inclusions were seen in both systems, there were significantly more inclusions in IUDR-treated than in irradiated cells. Although this series of cultures is too small to determine whether IUDR-treated cells are superior to irradiated ones for the isolation of C. trachomatis, the data indicate that IUDR treatment is at least equally effective.     

A predominant role for antibody in acquired immunity to chlamydial genital tract reinfection

Acquired immunity to murine Chlamydia trachomatis genital tract reinfection has long been assumed to be solely dependent on cell-mediated immunity. However, in this study, we identify a previously unrecognized protective role for Ab. Immunity develops in Ab-deficient mice following the resolution of primary chlamydial genital infection. Subsequent depletion of CD4+ T cells, but not CD8+ T cells, in those immune Ab-deficient mice before secondary infectious challenge, resulted in an infection that did not resolve. Passive immunization with immune (convalescent) serum conferred a marked level of protective immunity to reinfection, which was characterized by a striking decrease in bacterial shedding, from >100,000 inclusion forming units to fewer than 10 inclusion forming units, and a shortened duration of infection. Furthermore, mAbs to the chlamydial major outer membrane protein and LPS conferred significant levels of immunity to reinfection and reduced chlamydial shedding by >100-fold. Anti-heat shock protein 60 mAb had no protective effect. In contrast to the marked protective efficacy of immune serum on reinfection, the course of primary infection was essentially unaltered by the passive transfer of immune serum. Our results convincingly demonstrate that Abs contribute importantly to immunity to chlamydial genital tract reinfection, and that Ab-mediated protection is highly dependent on CD4+ T cell-mediated adaptive changes that occur in the local genital tract tissues during primary infection. These results impact our understanding of immunity to chlamydial genital infection and may provide important insight into vaccine development.     

Chlamydia trachomatis infection of human fallopian tube organ cultures

The pathogenic events that precede Chlamydia trachomatis salpingitis in the human fallopian tube have not been fully described. We used a model of human fallopian tubes in organ culture (HFTOC) infected with strain E/UW-5/CX of C. trachomatis to study these events. The model supported sustained C. trachomatis infection as demonstrated by recovery of viable C. trachomatis from medium and tissue over 5-7 d. However, the level of infectivity was low. Maximal infection occurred at 72 h after initial inoculation. In contrast to gonococcal infection of the HFTOC, C. trachomatis did not damage overall ciliary function of HFTOC. However, a local direct cytotoxic effect characterized by loss of microvilli and disruption of cell junctions was noted when multiple chlamydial elementary bodies attached to mucosal cells. Beginning at 24 h, and continuing throughout the course of C. trachomatis infection of HFTOC, ruptured epithelial cells releasing elementary bodies were noted. Chlamydial inclusions were seen in the mucosa by 72 h in approximately 6% of both ciliated and nonciliated epithelial cells. Mucosal inclusions contained all forms of the C. trachomatis developmental cycle. These data suggest that factors present in the human fallopian tube may limit susceptibility to chlamydial infection but support the use of the HFTOC model in the study of the pathogenesis of C. trachomatis salpingitis.     

Centrosome abnormalities during a Chlamydia trachomatis infection are caused by dysregulation of the normal duplication pathway

The presence of supernumerary centrosomes in cells infected with Chlamydia trachomatis may provide a mechanism to explain the association of C. trachomatis genital infection with cervical cancer. We show that the amplified centrosomal foci induced during a chlamydial infection contain both centriolar and pericentriolar matrix markers, demonstrating that they are bona fide centrosomes. As there were multiple immature centrioles but approximately one mature centriole per cell, aborted cytokinesis alone cannot account for centrosome amplification during a chlamydial infection. Production of supernumerary centrosomes required the kinase activities of Cdk2 and Plk4, which are known regulators of centrosome duplication, and progression through S-phase, which is the stage in the cell cycle when duplication of the centrosome occurs. These requirements indicate that centrosome amplification during a chlamydial infection depends on the host centrosome duplication pathway, which normally produces a single procentriole from each template centriole. However, C. trachomatis induces a loss of numerical control so that multiple procentrioles are formed per template.     

Inhibition of chlamydial infection in the genital tract of female mice by topical application of a peptide deformylase inhibitor

Chlamydia trachomatis is an obligate intracellular bacterium responsible for a number of health problems, including sexually transmitted infection in humans. We recently discovered that C. trachomatis infection in cell culture is highly susceptible to inhibitors of peptide deformylase, an enzyme that removes the N-formyl group from newly synthesized polypeptides. In this study, one of the deformylase inhibitors, GM6001, was tested for potential antichlamydial activity using a murine genital C. muridarum infection model. Topical application of GM6001 significantly reduced C. muridarum loading in BALB/c mice that were vaginally infected with the pathogen. In striking contrast, growth of the probiotic Lactobacillus plantarum is strongly resistant to the PDF inhibitor. GM6001 demonstrated no detectable toxicity against host cells. On the basis of these data and our previous observations, we conclude that further evaluation of PDF inhibitors for prevention and treatment of sexually transmitted chlamydial infection is warranted.     

Cell-mediated immune responses to Chlamydia trachomatis in mothers and infants

Cell-mediated immunity to Chlamydia trachomatis was studied in pregnant women with chlamydial infection of the cervix, in infants born vaginally to these women, and in infants presenting with chlamydial conjunctivitis. Uninfected pregnant women and their infants were studied as controls. McCoy cell cultures were used to isolate C. trachomatis from clinical specimens. Cell-mediated immunity was measured by lymphocyte proliferative responses in vitro to stimulation by chlamydial antigens. Chlamydial IgG antibody in serum specimens was detected by a microenzyme-linked immunosorbent assay technique. The mean lymphocyte proliferative responses to chlamydial antigens were greater in infected women than in uninfected women both during pregnancy and in the postpartum period. Lymphocyte responsiveness in infected pregnant women, however, was less than in postpartum women. Despite failure to detect chlamydial infection in exposed infants, lymphocyte proliferative responses were greater in umbilical cord blood and later in peripheral blood samples from neonates born to infected mothers than in infants born to uninfected mothers. These responses were also greater in infants with chlamydial conjunctivitis than in infants of uninfected mothers. These data suggest that cellular immune responses to chlamydial antigens are increased in infected mothers and infants and that infants may acquire chlamydial cell-mediated immunity transplacentally.     

Chlamydia trachomatis infections in infants.

In recent years considerable progress has been made in understanding chlamydial infections. The spectrum of pediatric Chlamydia trachomatis infection includes neonatal inclusion conjunctivitis, infantile pneumonia, occasional respiratory or genital tract infections in older children and sexually transmitted diseases in adolescents. The role of maternal chlamydial infection in prematurity and in perinatal death is currently an area of active study. We outline the current knowledge of the biologic characteristics of C. trachomatis, the epidemiologic features of chlamydial infection, and the clinical aspects, diagnosis and treatment of neonatal chlamydial infections.     

Chlamydia trachomatis in cell culture. II. Susceptibility of seven established mammalian cell types in vitro. Adaptation of trachoma organisms to McCoy and BHK-21 cells

Trachoma organisms of serotype B were grown serially in irradiated cells (McCoy, BHK-21, Microbiological Associates, and BHK-21, Lister) and tested for infectivity in monolayers of five mammalian cell lines (BHK-21, CHO, HeLa S3, McCoy and OWMK) and two diploid strains (ST/BTL and WI-38). All cell types had low susceptibility to chlamydial infection but the number of inclusions increased when the inoculum was centrifuged onto the monolayers, or when the cells were irradiated. Infection was higher in non-irradiated CHO than in irradiated CHO in three out of a total of six experiments. Inclusion number was increased 300 times in HeLa S3 and up to three times in the other cell types after treatment with diethylaminoethyl-dextran (DEAE-D). Serial passage of Chlamydia trachomatis serotype B (strain Har-36) in CO60 McCoy and CO60 BHK-21 Lister resulted in partial adaptation of the strain to the host cell. The phenomenon of adaptation of serotype B to McCoy compensated for the lower susceptibility of this cell revealed when McCoy cells were inoculated with trachoma elementary bodies grown in BHK-21 Lister or in chick embryo yolk sac. Trachoma organisms of immunotypes A, B and C prepared in yolk sac produced more inclusion-forming units per ml in CO60 BHK-21 Lister than in CO60 McCoy.     

Immunoelectron microscopic localization of chlamydial lipopolysaccharide (LPS) in McCoy cells inoculated with Chlamydia trachomatis.

Interactions between Chlamydia trachomatis, host cells, and the immune system are believed to involve lipopolysaccharide (LPS). We used immunogold techniques to study the distribution of chlamydial LPS in cultured cells infected with C. trachomatis LGV-L1. McCoy cells inoculated with C. trachomatis were cultured and then fixed and embedded in situ with acrylic resins. Sections were immunolabeled with a protein A-gold method using antisera to the genus-specific, periodate-sensitive epitope on chlamydial LPS. Pre-embedding immunogold labeling on permeabilized cells was also done. By post-embedding methods, labeling for LPS was equally abundant over the outer membranes of elementary (EB) and reticulate bodies (RB). By post-embedding labeling, the sub-surface side of the EB outer membrane was more heavily labeled than the surface side. By pre-embedding labeling, LPS was found to be less abundant on the surface of EBs than RBs. Labeling for LPS was found over apparent lysosomes in McCoy cells and over electron-dense blebs on or near the surface of the plasma membranes of McCoy cells. These results indicate that the concentration of LPS in chlamydial membranes is constant during development but that with development its location changes from being mostly cell-surface to sub-surface. These results show that the post-embedding immunogold technique can be a useful approach for the cell culture-based study of chlamydial LPS.     

Chlamydia trachomatis in cell culture

Summary Trachoma organisms of serotype B were grown serially in irradiated cells (McCoy, BHK-21, Microbiological Associates, and BHK-21, Lister) and tested for infectivity in monolayers of five mammalian cell lines (BHK-21, CHO, HeLa S₃, McCoy and OWMK) and two diploid strains (ST/BTL and WI-38). All cell types had low susceptibility to chlamydial infection but the number of inclusions increased when the inoculum was centrifuged onto the monolayers, or when the cells were irradiated. Infection was higher in non-irradiated CHO than in irradiated CHO in three out of a total of six experiments. Inclusion number was increased 300 times in HeLa S₃ and up to three times in the other cell types after treatment with diethylaminoethyl-dextran (DEAE-D). Serial passage of Chlamydia trachomatis serotype B (strain Har-36) in CO₆₀ McCoy and CO₆₀ BHK-21 Lister resulted in partial adaptation of the strain to the host cell. The phenomenon of adaptation of serotype B to McCoy compensated for the lower susceptibility of this cell revealed when McCoy cells were inoculated with trachoma elementary bodies grown in BHK-21 Lister or in chick embryo yolk sac. Trachoma organisms of immunotypes A, B and C prepared in yolk sac produced more inclusion-forming units per ml in CO₆₀ BHK-21 Lister than in CO₆₀ McCoy. This research was supported by a grant from the National Eye Institute (EI-00812-08), and by the Arabian American Oil Company. The paper is dedicated to the memory of Francis B. Gordon, who pioneered research methods for the cultivation of trachoma and inclusion conjunctivitis (TRIC) agents in cell culture. Dr. Gordon patiently studied tables and photographs which accompany this text when he visited our laboratory on the day prior to his sailing to England on the ill-fated voyage in which he and Mrs. Gordon perished (October 1973).     

The anti-chlamydial and anti-proliferative activities of recombinant murine interferon-gamma are not dependent on tryptophan concentrations

The effect of recombinant murine interferon-gamma on the growth of Chlamydia trachomatis was analyzed in a mouse fibroblast cell line (McCoy cells). Murine interferon-gamma had a very potent anti-chlamydial activity, although minimally affecting cellular proliferation. Over 95% inhibition of chlamydial inclusions was obtained at a concentration of 1 U/ml of interferon. At a concentration of 1 U/ml of murine interferon-gamma, there was minimal inhibition of the proliferative capacity of McCoy cells. Approximately 50% inhibition of cell growth was obtained with a concentration of 10 U/ml of interferon. Varying concentrations of tryptophan in the medium did not alter either the anti-chlamydial or the anti-proliferative activity of the interferon.     

Differential amino acid utilization by Chlamydia psittaci (strain guinea pig inclusion conjunctivitis) and its regulatory effect on chlamydial growth

The effect of omission of individual amino acids from growth medium on the multiplication of Chlamydia psittaci (strain guinea pig inclusion conjunctivitis) in cycloheximide-treated McCoy cells has been examined. Marked differences were observed in the amounts of particular amino acids required for normal chlamydial multiplication: omission of either leucine, phenylalanine or valine completely inhibited multiplication, whereas absence of any one of another 10 amino acids had no effect on numbers of cells infected. Threshold concentrations of 80, 80 and approx. 8 nmol ml-1 for leucine, valine and phenylalanine, respectively, were needed for normal chlamydial multiplication. These requirements could not be related either to unusually high content in the whole organism, to degradation in the medium, or, from studies with leucine, to deficient association of leucine with host cells. Leucine deprivation at late stages of the developmental cycle also appeared to regulate multiplication. Possible mechanisms responsible for these effects are discussed.     

Trifluoperazine inhibits the infectivity of Chlamydia trachomatis for McCoy cells

Abstract Trifluoperazine (TFP), an inhibitor of the Ca²⁺-binding protein calmodulin, was used to study the infectivity of Chlamydia trachomatis for McCoy cells. TFP inhibited the number of chlamydial inclusions and the chlamydia-dependent amino acid incorporation when added within 9 h after inoculation with chlamydiae. However, TFP did not affect the attachment of chlamydiae to the cells or the protease-removable fraction of cell-bound chlamydiae.
These results suggest that an early step in the intracellular development of chlamydiae, partly coinciding with the elementary body-reticulate body conversion, is sensitive to TFP and that clathrin coats are not crucial in the ingestion of chlamydiae by McCoy cells.     

Division and transmission of inclusions of Chlamydia trachomatis in replicating McCoy cell monolayers

Abstract When Chlamydia trachomatis serotype E was grown in monolayers of replicating McCoy cells, dividing inclusions were seen by indirect immunofluorescence. Transmission of inclusions occurred within the McCoy cell population, so that clusters of inclusions in adjacent cells had formed by 72 h. Inclusion division and transmission may provide an important mechanism for persistence of naturally occurring chlamydial infections.     

Comparison of Chlamydia trachomatis serovar L2 growth in polarized genital epithelial cells grown in three-dimensional culture with non-polarized cells

A common model for studying Chlamydia trachomatis and growing chlamydial stocks uses Lymphogranuloma venereum serovar L2 and non-polarized HeLa cells. However, recent publications indicate that the growth rate and progeny yields can vary considerably for a particular strain depending on the cell line/type used, and seem to be partially related to cell tropism. In the present study, the growth of invasive serovar L2 was compared in endometrial HEC-1B and endocervical HeLa cells polarized on collagen-coated microcarrier beads, as well as in HeLa cells grown in tissue culture flasks. Microscopy analysis revealed no difference in chlamydial attachment/entry patterns or in inclusion development throughout the developmental cycle between cell lines. Very comparable growth curves in both cell lines were also found using real-time PCR analysis, with increases in chlamydial DNA content of 400-500-fold between 2 and 36 h post-inoculation. Similar progeny yields with comparable infectivity were recovered from HEC-1B and HeLa cell bead cultures, and no difference in chlamydial growth was found in polarized vs. non-polarized HeLa cells. In conclusion, unlike other C. trachomatis strains such as urogenital serovar E, invasive serovar L2 grows equally well in physiologically different endometrial and endocervical environments, regardless of the host cell polarization state.     

Chlamydia trachomatis utilizes the host cell microtubule network during early events of infection

The host cell cytoskeleton is known to play a vital role in the life cycles of several pathogenic intracellular microorganisms by providing the basis for a successful invasion and by promoting movement of the pathogen once inside the host cell cytoplasm. McCoy cells infected with Chlamydia trachomatis serovars E or L2 revealed, by indirect immunofluorescence microscopy, collocation of microtubules and Chlamydia -containing vesicles during the process of migration from the host cell surface to a perinuclear location. The vast majority of microtubule-associated Chlamydia vesicles also collocated with tyrosine-phosphorylated McCoy cell proteins. After migration, the Chlamydia -containing vesicles were positioned exactly at the centre of the microtubule network, indicating a microtubule-dependent mode of chlamydial redistribution. Inhibition of host cell dynein, a microtubule-dependent motor protein known to be involved in directed vesicle transport along microtubules, was observed to have a pronounced effect on C. trachomatis infectivity. Furthermore, dynein was found to collocate with perinuclear aggregates of C. trachomatis E and L2 but not C. pneumoniae VR-1310, indicating a marked difference in the cytoskeletal requirements for C. trachomatis and C. pneumoniae during early infection events. In support of this view, C. pneumoniae VR-1310 was shown to induce much less tyrosine phosphorylation of HeLa cell proteins during uptake than that seen for C. trachomatis .