The therapeutic potential of D-Serine in reducing expression of the cytopathic genotoxin colibactin

Abstract

AbstractSome Escherichia coli strains belonging mainly to the B2 phylogroup harbour the pks island, a 54 kb genomic island encoding the biosynthesis genes for a genotoxic compound named colibactin. In eukaryotic cells, colibactin can induce DNA damage, cell cycle arrest and chromosomal instability. Moreover, production of colibactin has been implicated in the development of colorectal cancer. In this study, we demonstrate the inhibitory effect of D-Serine on the expression of the pks island in two colibactin-producing strains, CFT073 and Nissle 1917, and determine the implications for cytopathic effects on host cells. To investigate the specificity of the inhibitory effect of D-Serine, we also tested a comprehensive panel of proteinogenic L-amino acids and corresponding D-enantiomers for their ability to modulate clbB transcription using RT-qPCR. Several D-amino acids exhibited the ability to inhibit expression of clbB, with D-Serine exerting the strongest repressing activity (3.81-fold in CFT073; 3.80-fold in Nissle 1917) and thus, we focussed additional experiments on D-Serine. To investigate the cellular effect, we investigated if repression of colibactin by D-Serine could reduce the cytopathic responses normally observed during infection of HeLa cells with pks+ strains. Levels of γ-H2AX (a marker of DNA double strand breaks) were reduced 2.75-fold in cells infected with D-Serine treatment. Moreover, exposure of pks+E. coli to D-Serine during infection caused a reduction in cellular senescence that was observable at 72 h post infection. The recent finding of an association between pks-carrying commensal E. coli and CRC, highlights the necessity for the development of colibactin targeting therapeutics. Here we show that D-Serine can reduce expression of colibactin, and inhibit downstream cellular cytopathy, illuminating its therapeutic potential to prevent colibactin-associated disease.