The copper P-type ATPase CtpA is involved in the response of Mycobacterium tuberculosis to redox stress

Abstract

The functional difference among the three copper-transporting P-type ATPases (CtpA, CtpB, and CtpV) annotated in genome of Mycobacterium tuberculosis (Mtb) remains unclear. Thus, CtpA and CtpB are believed to deliver copper to extracytoplasmic proteins as a cofactor required to overcome redox and copper stress in the Mtb periplasm. This study investigates an alternative role of CtpA-mediated copper transportation and its possible interaction with the activity of the multicopper oxidase, (MmcO), in response to redox stress. Results from RT-qPCR experiments indicate that the ctpA gene is upregulated in low Cu2+ concentrations, and under oxidative (H2O2) and nitrosative (sodium nitroprusside) conditions in vitro, but not in high doses of Cu2+. Furthermore, the ctpA mutant strain (MtbΔctpA) showed impaired growth in the presence of oxidative and nitrosative stress in vitro. However, it did not display such growth impairments in response to high doses of copper in comparison to the wild-type strain. Disruption of the ctpA gene in the Mtb genome did not induce an accumulation of copper in cells under toxic doses of the metal, suggesting that CtpA is not directly involved in copper detoxification. On the other hand, whole-cell lysates of the MtbΔctpA mutant that were previously stimulated with Cu2+, H2O2 and SNP (sodium nitroprusside), displayed reduced ability to oxidize organic substrates (para-phenylenediamine (pPD) and 2,2-azino-bis (3-ethylbenzothiazo-line-6-sulfonic acid) (ABTS). These finding strongly suggest that the efflux of copper transported by CtpA from the cytoplasm is relevant to the response to the redox stress and may be required for metalation and activity of MmcO in Mtb.