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Abstract
Introduction: Causative agents of pneumonia, gastroenteritis, typhoid fever, and plague all utilize a type III secretion system (T3SS) to directly inject proteins into human cells and cause disease. These bacterial pathogens are frequently resistant to antibiotics and novel treatment options are needed. The T3SS is essential for virulence and can be inhibited to prevent disease.
Areas covered: T3SS structure and assembly are introduced in this review, highlighting targets for T3SS-specific therapeutics. Promising inhibitors of type III secretion (T3S), their modes of action, and successful techniques for their identification are reviewed. T3S inhibitor research has focused on small molecules identified in high-throughput screens, although recently inhibitors have also been identified or engineered by rational design. Promising compounds have emerged that inhibit T3S and attenuate virulence in several pathogens, including an engineered antibody in clinical trials. T3S inhibitor research may yield effective treatments and prophylactics that are effective against a wide range of human pathogens.
Expert opinion: More techniques are needed to identify the mode of action for compounds identified in high-throughput screens, a long-standing challenge. Although only a few groups have attempted rational design of inhibitors, the approach has seen initial success and mechanistic follow-up studies are greatly simplified.
Note added in proof
While this manuscript was in press, Yang et al. Citation[108] described an inhibitor targeting a T3SS-specific AraC family transcription factor in C. rodentium, RegA. This inhibitor, called regacin, inhibited the secretion of several C. rodentium T3SS substrates, including the effector Tir. When regacin was administered twelve hours after C. rodentium infection, susceptible mice demonstrated significantly decreased pathogen colonization compared to untreated mice. Regacin is therefore one of few T3S inhibitors that has been shown to be effective even when administered after infection and further highlights the success of targeting T3SS-specific transcription factors.
Acknowledgments
The authors gratefully acknowledge W Deng and N Sal-Man as well as K Sedivy-Haley for their critical reading of this manuscript. We thank NF Brown for figure preparation as well as J Bergeron and N Strynadka for the T3SS images in Figure 1B and 1C, which originally appeared in Citation[107] © 2013 Elsevier Books.
Notes
This box summarizes key points contained in the article.