Litcius/Paper detail

Computational Modeling of the Chlamydial Developmental Cycle Reveals a Potential Role for Asymmetric Division

Travis J. Chiarelli, Nicole A. Grieshaber, Cody Appa, Scott S. Grieshaber

2023mSystems17 citationsDOIOpen Access PDF

Abstract

are reliant on a complex developmental cycle, consisting of both infectious and noninfectious cell forms. The EB cell form initiates infection, whereas the RB cell replicates. The infectious cycle requires both cell types, as RB replication increases the cell population while EB formation disseminates the infection to new hosts. The mechanisms of RB-to-EB development are largely unknown. Here, we developed unique dual promoter reporters and used live-cell imaging and confocal microscopy to visualize the cycle at the single-cell and kinetic levels. These data were used to develop and test two agent-based models, simulating either direct conversion of RBs to EBs or production of EBs via asymmetric RB division. Our results suggest that RBs mature into a stem cell-like population producing intermediate cell forms through asymmetric division, followed by maturation of the intermediate cell type into the infectious EB. Ultimately, a more complete mechanistic understanding of the developmental cycle will lead to novel therapeutics targeting cell type development to eliminate chlamydial dissemination.

Topics & Concepts

ChlamydiaeChlamydia trachomatisObligatePathogenChlamydiaBiologyChlamydialesCell divisionChlamydiaceaeMicrobiologyIntracellular parasiteHuman pathogenIntracellularVirologyCell biologyImmunologyBacteriaGeneticsCellEcologyReproductive tract infections researchCervical Cancer and HPV ResearchReproductive Physiology in Livestock