Shigella is a gram-negative, non-motile bacillus which serves as a major enteropathogen. Shigella infections mostly have been associated with watery diarrhea, dysentery, as well as some severe complications such as encephalopathy (1). This type of bacteria has four species including S. flexneri, S. sonnei, and S. boydii. These species are distributed worldwide. For instance, S. flexneri has been reported to high prevalence in India and Rwanda, while S. sonnei was commonly distributed in Thailand, Israel, and the USA (2-6). Shigella species is mainly diagnosed based on some symptoms such as fever, blood, mucous diarrhea and abdominal pain. Routine microscopy of fresh stool is a simple, cheap, rapid, and easy test to detect Shigella infections (7). For the treatment of diagnosed Shigella infections, ciprofloxacin is the first-line and pivmecillinam, ceftriaxone or azithromycin are the second-lines of treatment (8).
Shiga toxin (Stx) as a potent bacterial toxin was initially founded in S. dysenteriae and after that, it also was founded in Escherichia coli. Stx at least has two types including Stx1 and Stx2. Despite diverse genetically and immunologically origins, they have the same mechanism of action. Structural analysis indicated that Stxs consist of two major subunits including catalytic domains (A) and binding domain (B) to make an AB5 complex inhibiting eukaryotic protein synthesis (9). In addition, this toxin has also been shown to trigger cytokine production and induce host cell apoptosis (10). Stx toxicity is responsible for severe human disorders such as hemorrhagic colitis and hemolytic uremic syndrome (11).
The gene encoding Stx in S. dysenteriae is located on its chromosome but this gene in E. coli is associated to be a prophage (9). However, recently it has been shown that Stx-converting phages are capable of transferring stx genes from cell to cell through a transduction process called horizontal gene transferring. The exact mechanism underlying such gene transferring is partially unknown however, it has been suggested that after infection with a Stx-converting phage, the integrated stx genes mostly remain silent in the lysogens. In the presence of DNA damaging agents or other factors that induce the bacterial S.O.S. response, the lytic cycle was activated. Infected cell lysis eventually resulted in the releasing of phage particles that enhance stx genes transferring to other bacteria (12, 13). A growing body of evidence indicated that the stx gene has the potential to be transferred to other Shigella species like S. flexneri, S. sonnei, and S. boydii but with a rare prevalence (14-16). Therefore, the presence of stx genes is one of the most important challenges in clinical microbiology. Here, we identified 227 Shigella isolates including 60 S. flexneri, 157 S. sonnei and 10 S. boydii which all have the potentials to encode stx1. The PCR analyses determined that none of the samples encodes stx1.