GrgA controls Chlamydia trachomatis growth and development by regulating expression of transcription factors Euo and HrcA

The obligate intracellular bacterium is an important human pathogen whose biphasic developmental cycle consists of an infectious elementary body and a replicative reticulate body. Whereas σ, the primary sigma factor, is necessary for transcription of most chlamydial genes throughout the developmental cycle, σ is required for expression of some late genes. We previously showed that the specific transcription factor GrgA physically interacts with both of these sigma factors and activates transcription from σ- and σ-dependent promoters . Here, we investigate the organismal functions of GrgA. We show that GrgA overexpression decreased RB proliferation via time-dependent transcriptomic changes. Significantly, σ-dependent genes that code for two important transcription repressors are among the direct targets of GrgA. One of these repressors is Euo, which prevents the expression of late genes during early phases. The other is HrcA, which regulates gene expression in response to heat shock. The direct regulon of GrgA also includes a σ-dependent gene that codes for the putative virulence factor PmpI. Conditional overexpression of Euo and HrcA also inhibited chlamydial growth and affected GrgA expression. Transcriptomic studies suggest that GrgA, Euo, and HrcA have distinct but overlapping indirect regulons. Furthermore, overexpression of either GrgA leads to decreased expression of numerous tRNAs. These findings indicate that a GrgA-mediated transcriptional regulatory network controls growth and development.