Abstract
ADP-glucose is the precursor of glycogen biosynthesis in bacteria, and a compound abundant in the starchy plant organs ingested by many mammals. Here we show that the enteric species Escherichia coli is capable of scavenging exogenous ADP-glucose for use as a glycosyl donor in glycogen biosynthesis and feed the adenine nucleotide pool. To unravel the molecular mechanisms involved in this process, we screened the E. coli single-gene deletion mutants of the Keio collection for glycogen content in ADP-glucose-containing culture medium. In comparison to wild-type (WT) cells, individual ∆nupC and ∆nupG mutants lacking the cAMP/CRP responsive inner-membrane nucleoside transporters NupC and NupG displayed reduced glycogen contents and slow ADP-glucose incorporation. In concordance, ∆cya and ∆crp mutants accumulated low levels of glycogen and slowly incorporated ADP-glucose. Two-thirds of the glycogen-excess mutants identified during screening lacked functions that underlie envelope biogenesis and integrity, including the RpoE specific RseA anti-sigma factor. These mutants exhibited higher ADP-glucose uptake than WT cells. The incorporation of either ∆crp, ∆nupG or ∆nupC null alleles sharply reduced the ADP-glucose incorporation and glycogen content initially witnessed in ∆rseA cells. Overall, the data showed that E. coli incorporates extracellular ADP-glucose through a cAMP/CRP-regulated process involving the NupC and NupG nucleoside transporters that is facilitated under envelope stress conditions.
Highlights
Escherichia coli is the predominant facultative anaerobe of the commensal microbiota inhabiting the mammalian intestine, and arguably the best understood of all model bacterial organisms[1,2]
As a first step to exploring the possibility of mechanism(s) that enable the direct incorporation of ADPG in E. coli, we analyzed the glycogen content in cells belonging to different E. coli lineages, including K-12 and B, cultured in solid Kornberg medium (KM) with or without 1.5 mM ADPG supplementation using the iodine staining technique[12]
No substantial glycogen accumulation was observed in the same cells grown in KM supplemented with UDP-glucose (UDPG), CDP-glucose (CDPG) or GDP-glucose (GDPG) or, as expected, in ∆glgA cells cultured in KM supplemented with ADPG (KM-ADPG)
Summary
Escherichia coli is the predominant facultative anaerobe of the commensal microbiota inhabiting the mammalian intestine, and arguably the best understood of all model bacterial organisms[1,2]. We found that ADPG incorporation into E. coli cells is a cAMP/ CRP-regulated process involving the NupC and NupG inner membrane transporters that is facilitated under conditions of extracytoplasmic stress This finding extends our knowledge of the diverse mechanisms underlying physiological modulation in E. coli, and sheds light on the adaptive traits evolved by this organism to survive the conditions prevailing on the harsh, highly competitive environment of the intestine. This is the first report showing the capacity of a bacterial species of directly taking up ADPG from the external medium, identifying the responsible mechanisms and regulatory component of this process
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