The intracellular level of inorganic polyphosphate (poly-P) is closely associated with stress responses, particularly stringent response (a regulatory mechanism in response to nutrient limitation), substantially impacting a variety of virulence-related phenotypes in pathogenic bacteria.Citation1 Campylobacter jejuni is considered as a leading foodborne pathogen worldwide;Citation2 however, the molecular mechanisms and regulation of the stress response and virulence of this pathogenic bacterium are still not completely understood. C. jejuni possesses several enzymes that are involved in the synthesis and degradation of poly-P and (p)ppGpp.Citation3,Citation4 The intracellular levels of the alarmone (p)ppGpp, which mediates a stringent response, are controlled mainly by RelA and SpoT and significantly influence bacterial adaptation to environmental stress and pathogenicity.Citation5 The synthesis and degradation of poly-P directly affect (p)ppGpp levels and consequently stringent response. In most Gram-negative bacteria, both RelA and SpoT proteins are usually involved in the maintenance of the levels of (p)ppGpp; however, the stringent response of C. jejuni is governed by SpoT.Citation6 The expression of spoT is upregulated during C. jejuni infection of human intestinal epithelial cells, and its mutation renders C. jejuni defective in stationary phase survival, rifampicin resistance, and invasion and intracellular survival.Citation6 Consistently, a mutation of ppk1, whose protein product (PPK1, a polyphosphate kinase) is responsible for the synthesis of poly-P,Citation1,Citation3 reduces C. jejuni survival within human epithelial cells and under stress conditions (e.g., oxidative stress and nutritional starvation).Citation3 Compared with PPK1, PPK2 has an opposite function on poly-P; whereas PPK1 synthesizes poly-P by using ATP, PPK2 degrades poly-P to convert GDP to GTP.Citation1,Citation4 Like a ppk1 mutant, a ppk2 mutation also significantly affects C. jejuni’s capability of surviving under aerobic, osmotic and nutrient stresses.Citation4 Regarding biofilm formation, both ppk1 and ppk2 mutants exhibited augmented formation of biofilms,Citation3,Citation4 despite their completely opposite functions on poly-P. In addition to PPKs, the exopolyphosphatases/guanosine pentaphosphate (pppGpp) phosphohydrolase (PPX/GPPA) also control the levels of poly-P and (p)ppGpp.Citation1 Malde et al. identified and characterized two PPX/GPPAs (PPX1 and PPX2) in C. jejuni, demonstrating that PPXs affect the levels of poly-P and ppGpp and contribute to the virulence of C. jejuni.Citation7 Mutations of ppx1 and ppx2 influenced various virulence-related phenotypes of C. jejuni, such as biofilms, motility, and invasion and intracellular survival.Citation7 These findings are consistent with the previous reports on other poly-P- and (p)ppGpp-associated genes in C. jejuni, such as spoT, ppk1, and ppk2; however, it is not straightforward to correlate some phenotypic changes in the mutants just based on the enzymatic activities on poly-P. For example, ppk1 and ppk2 mutations result in substantial reductions in the survival of C. jejuni under osmotic stress;Citation3,Citation4 however, a single mutation of either ppx1 or ppx2 did not affect C. jejuni survival under osmotic stress and only a double mutation of ppx1 and ppx2 caused marginal reduction in bacterial counting under osmotic stress conditions.Citation7 Mutations of ppk1, ppk2, and spoT increased biofilm formation in C. jejuni,Citation3,Citation4,Citation6 while a single mutation of ppx1 and ppx2 did not affect biofilm formation and only a double mutation of ppx1 and ppx2 rather reduced biofilm formation.Citation7 A ppk1 mutant demonstrates more substantial defects in intracellular survival than ppx mutants,Citation3 although the experimental settings in the studies are not exactly the same. Another difference between ppk mutants and ppx mutants can be found in motility. A ppk1 mutation did not change motility,Citation3 whereas ppx mutations significantly reduced the motility of C. jejuni.Citation7 In addition, the spoT mutation substantially impairs C. jejuni resistance to rifampicin,Citation6 and a ppk2 mutant exhibits increased susceptibility to antibiotics, such as erythromycin and tetracycline.Citation4 However, ppx mutations did not change the resistance to rifampicin, and the authors speculated that ppGpp levels in the ppx mutants would not be significant enough to affect rifampicin sensitivity.Citation7 Overall, comparison of the phonotype changes between ppx mutants and ppk mutants and the spoT mutant suggests that PPXs would be a complementary mechanism related to poly-P and stringent response. Based on the extent of phenotype changes (e.g., osmotic stress resistance and intracellular survival), PPKs appear to be the major mechanism affecting the virulence of C. jejuni through poly-P. As discussed above, some phenotype changes (e.g., motility and biofilms) in spoT, ppk, and ppx mutants cannot be explained simply based on their role in poly-P and (p)ppGpp, suggesting PPXs would be associated with the modulation of regulatory mechanisms other than stringent response. The study improved our understanding of the pathophysiological role of PPXs, but further studies appear to be needed to clarify the role of poly-P in the pathogenicity of C. jejuni.
Disclosure of Potential Conflicts of Interest
No potential conflicts of interest were disclosed.
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