Abstract
BackgroundThe introduction and maintenance of plasmids in cells is often associated with a reduction of growth rate. The reason for this growth reduction is unclear in many cases.Methodology/Principal FindingsWe observed a surprisingly large reduction in growth rate of about 50% of Methylobacterium extorquens AM1 during methylotrophic growth in the presence of a plasmid, pCM80 expressing the tetA gene, relative to the wild-type. A less pronounced growth delay during growth under non-methylotrophic growth conditions was observed; this suggested an inhibition of one-carbon metabolism rather than a general growth inhibition or metabolic burden. Metabolome analyses revealed an increase in pool sizes of ethylmalonyl-CoA and methylmalonyl-CoA of more than 6- and 35-fold, respectively, relative to wild type, suggesting a strongly reduced conversion of these central intermediates, which are essential for glyoxylate regeneration in this model methylotroph. Similar results were found for M. extorquens AM1 pCM160 which confers kanamycin resistance. These intermediates of the ethylmalonyl-CoA pathway have in common their conversion by coenzyme B12-dependent mutases, which have cobalt as a central ligand. The one-carbon metabolism-related growth delay was restored by providing higher cobalt concentrations, by heterologous expression of isocitrate lyase as an alternative path for glyoxylate regeneration, or by identification and overproduction of proteins involved in cobalt import.Conclusions/SignificanceThis study demonstrates that the introduction of the plasmids leads to an apparent inhibition of the cobalt-dependent enzymes of the ethylmalonyl-CoA pathway. Possible explanations are presented and point to a limited cobalt concentration in the cell as a consequence of the antibiotic stress.
Highlights
The term ‘‘metabolic burden’’ has been coined to describe the consequences of the presence and maintenance of plasmids in cells usually associated with a reduction of growth rate [1,2,3]
In the presence of succinate, M. extorquens AM1 pCM80 had a growth rate m of 0.16160.001 h21, which is only slightly below the rate observed for M. extorquens AM1 in absence of the plasmid and antibiotic (0.16860.008 h21)
Values shown for M. extorquens AM1 were taken from a previous study [21]. a and b represent two biological replicates. doi:10.1371/journal.pone.0007831.t001 (C1) compound assimilation that are essential for growth in the presence of methanol: the serine cycle [28,29] in combination with the recently uncovered ethylmalonyl-CoA pathway (EMCP) [30,31]
Summary
The term ‘‘metabolic burden’’ has been coined to describe the consequences of the presence and maintenance of plasmids in cells usually associated with a reduction of growth rate [1,2,3]. Alterations in the physiological state of host cells transformed with plasmids, relative to the unmodified cells, are often ascribed to additional demands for ATP and precursors for DNA synthesis This ‘‘metabolic burden’’ is supported by the observation that plasmid size correlates with a decrease in growth [4,5,6] and by a correlation between plasmid copy number and decreased growth [7,8]. Diaz Ricci and Hernandez [10] presented evidence for an alteration of the cellular regulatory status as a primary cause of plasmid-related growth defects This might be the result of enzyme up-regulation leading to futile cycles or other energetically inefficient pathways [11]. The reason for this growth reduction is unclear in many cases
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