Effect of listeriolysin O-loaded erythrocytes on Mycobacterium avium replication within macrophages.

OBJECTIVE: To evaluate the efficacy of erythrocytes loaded with the haemolytic toxin listeriolysin O against Mycobacterium avium replication within human macrophages. METHODS: Recombinant listeriolysin O was loaded in human erythrocytes by a procedure of hypotonic dialysis and isotonic resealing. Loaded erythrocytes were modified to allow them to be recognized and taken up by human macrophages infected with M. avium. The antimycobacterial activity of the erythrocytes loaded with listeriolysin O was evaluated by supernatant and intracellular cfu counts on days 4 and 7 post-erythrocyte administration. RESULTS: Recombinant listeriolysin O was encapsulated in human erythrocytes to reach final concentrations ranging from 1 to 4 ng/mL of erythrocytes. Erythrocytes loaded with increasing quantities of recombinant protein were able to reduce (at most by 50%) M. avium replication in a dose-dependent fashion when administered to infected macrophages. CONCLUSIONS: Erythrocytes loaded with listeriolysin O are effective against M. avium replication within macrophages. We are confident that the strategy presented could be useful against mycobacteria other than M. avium (such as Mycobacterium tuberculosis and Mycobacterium leprae) by itself or as part of an antimycobacterial treatment.

Efficacy of macrolides used in combination with ethambutol, with or without other drugs, against Mycobacterium avium within human macrophages.

The activities of clarithromycin or roxithromicin used in combination with other antimicrobial drugs were tested in human macrophages experimentally infected with 23 strains of Mycobacterium avium. Overall, clarithromycin-ethambutol-rifampicin was the most active combination tested. The reduction in intracellular viable bacilli was found to be more than 1 log(10) for 95% and more than 2 logs(10) for 65% of the strains. The second most active combination was roxithromycin-ethambutol-rifampicin, which was found to be bactericidal for about 80% and highly bactericidal for 20% of the strains. Others combinations were only bacteriostatic or weakly bactericidal for many of the strains. The addition of a third drug did not necessarily promote enhanced bacterial killing inside the macrophage.

Inhibition of murine AIDS by alternate administration of azidothymidine and fludarabine monophosphate.

Anti-HIV-1 combination therapies, including protease and reverse transcriptase inhibitors, can reduce plasma viremia to undetectable levels within the first 2 weeks of treatment. This reduction is followed by a slower decline that primarily results from the presence of viral reservoirs such as CD4+ memory cells, dendritic cells, and macrophages. For this reason, we evaluated a new drug combination therapy that includes a lympholytic drug: (2-fluoro-ara-AMP, fludarabine) to eliminate cells already infected and an antiviral drug (azidothymidine [AZT]) to protect cells not yet infected. We used C57BL/6 mice infected with the retroviral complex LP-BM5, which developed severe immunodeficiency (i.e., murine AIDS), to select the most effective fludarabine regimen to inhibit disease progression, and then to evaluate the efficacy and toxicity of the fludarabine and AZT combinations. The results obtained show that intraperitoneal administration of fludarabine at 3 mg/mouse twice a day for 4 weeks is the most effective regimen in reducing splenomegaly, lymphadenopathy, hypergammaglobulinemia, and proviral DNA content in spleen and lymph nodes and in restoring the architecture of lymph nodes. Subsequently, we evaluated the combined or sequential administration of fludarabine and AZT. The data reported in this paper show that the sequential administration of the two drugs provides additive antiviral effects that reduce spleen and lymph node weights to normal values and proviral DNA content by approximately 95% in all infected organs; the phenotypes of blood T and B cells moved toward control values, although the number of B cells was significantly reduced by fludarabine treatment. Finally, we evaluated the outcome of the disease after suspension or continuation of different treatment regimens. In all treatment groups, the disease progressed and increased proviral DNA content was found in infected organs, but animals receiving the sequential administration of fludarabine and AZT were less affected than those receiving only fludarabine or the simultaneous administration of both. The results obtained suggest that fludarabine could be part of a new therapeutic approach aiming at eradicating HIV from those cells that have been already infected and that are not protected by highly active antiretroviral therapy (HAART).

New treatment protocol including lympholytic and antiretroviral drugs to inhibit murine AIDS.

Highly active antiretroviral therapy (HAART), although very efficient in reducing viral load to undetectable levels within 2 weeks, does not eradicate HIV-1 infection and after the suspension of therapy, HIV RNA rebounds to pretherapy levels. This limited efficacy is mainly due to the existence of viral reservoirs such as CD4+ T cells, macrophages, and dendritic cells in which the virus can remain latent. Elimination of these latent reservoirs would be a possible solution to this problem and various efforts are now being directed to this end. With this goal in mind, we investigated a lympholytic drug with known activity against lymphoproliferative malignancies, 2-fluoro-ara-AMP (fludarabine). The murine model of AIDS was used to evaluate the efficacy of alternating administration of fludarabine and azidothymidine (AZT). The aim of this experiment was to eliminate infected cells with fludarabine and protect noninfected cells with AZT. LP-BM5-infected mice were treated with two different therapeutic protocols: one group was treated with two alternating 3-week cycles of fludarabine and AZT (treatment A), whereas the other was treated with three alternating 2-week cycles of fludarabine and AZT (treatment B); both treatments lasted 12 weeks and the animals in the two groups received the same amount of drug. At different times of infection, disease-related findings (i.e., splenomegaly, lymphadenopathy, hypergammaglobulinemia, T-cell and B-cell spleen cell proliferative index, and phenotypes of peripheral blood lymphocytes) were analyzed and the content of proviral DNA in the lymph nodes was quantified. The results obtained show that treatment B was more effective in inhibiting disease progression than treatment A. In fact, all parameters investigated were almost within control values. These results were also confirmed by the quantification of proviral DNA content in the lymph nodes, which after 12 weeks of treatment A declined by approximately 50%, whereas treatment B decreased proviral DNA content by approximately 85% with respect to infected/untreated mice. The data obtained suggest that a therapeutic protocol including three cycles rather than two of a lympholytic drug and antiretroviral drugs is more advantageous. The efficacy of the treatment could likely increase if other drugs were used in addition to AZT and more cycles of fludarabine were added. This approach appears to be of potential interest in an HIV-1 eradication protocol.