Nitrite impacts the survival of Mycobacterium tuberculosis in response to isoniazid and hydrogen peroxide

When access to molecular oxygen is restricted, Mycobacterium tuberculosis (Mtb) can respire an alternative electron acceptor, nitrate. We found that Mtb within infected primary human macrophages in vitro at physiologic tissue oxygen tensions respired nitrate, generating copious nitrite. A strain of Mtb lacking a functioning nitrate reductase was more susceptible than wild‐type Mtb to treatment with isoniazid during infection of macrophages. Likewise, nitrate reductase‐deficient Mtb was more susceptible to isoniazid than wild‐type Mtb in axenic culture, and more resistant to hydrogen peroxide. These phenotypes were reversed by the addition of exogenous nitrite. Further investigation suggested that nitrite might inhibit the bacterial catalase. To the extent that Mtb itself is the most relevant source of nitrite acting within Mtb, these findings suggest that inhibitors of Mtb's nitrate transporter or nitrate reductase could enhance the efficacy of isoniazid. We document the novel observation that the mycobacterial respiratory product, nitrite, dramatically enhances the survival of Mycobacterium tuberculosis treated with isoniazid and synergizes with hydrogen peroxide to effect killing.