This is a systematic review on the role of metalloproteases in the pathogenicity of the American tegumentary leishmaniasis (ATL) caused by New World Leishmania species. The review followed the PRISMA method, searching for articles in PubMed, EMBASE, LILACS and ISI Web of Science, by employing the following terms: 'leishmaniasis', 'cutaneous leishmaniasis', 'mucocutaneous leishmaniasis', 'diffuse cutaneous leishmaniasis', 'Leishmania' and 'metalloproteases'. GP63 of New World Leishmania species is a parasite metalloproteases involved in the degradation and cleavage of many biological molecules as kappa-B nuclear factor, fibronectin, tyrosine phosphatases. GP63 is capable of inhibiting the activity of the complement system and reduces the host's immune functions, allowing the survival of the parasite and its dissemination. High serological/tissue levels of host matrix metalloproteases (MMP)-9 have been associated with tissue damage during the infection, while high transcriptional levels of MMP-2 related with a satisfactory response to treatment. Host MMPs serological and tissue levels have been investigated using Western Blot, zymography, and Real Time polymerase chain reaction. GP63 detection characterizes species and virulence in promastigotes isolated from lesions samples using techniques mentioned previously. The monitoring of host MMPs levels and GP63 in Leishmania isolated from host samples could be used on the laboratory routine to predict the prognostic and treatment efficacy of ATL.
Aim: To evaluate modulatory effect of verapamil (VP) in rifampicin (RIF) activity and its effect in efflux pumps (EPs) transcript levels in Mycobacterium tuberculosis. Materials & methods: RIF and VP minimal inhibitory concentration, combinatory effect and detection of mutations were determined in 16 isolates. EPs transcript levels were determined in four isolates by real-time PCR after exposure to drugs. Results: VP showed good combinatory effect among RIF-resistant isolates. This effect was also observed in the relative transcript levels of EPs, mainly after 72 h of exposure, depending on the EP gene, genotype and the resistance profile of the isolate. Conclusion: Additional regulatory mechanisms in the EP activities, as well as, interactions with other drug-specific resistance mechanisms need further investigation in M. tuberculosis.
INTRODUCTION: Resistance to first-line anti-tuberculosis drugs is a major concern in the treatment of the disease. New strategies, such as the use of efflux pump inhibitors (EPIs), are being investigated to improve the outcome of the treatment. Verapamil (VP), one such inhibitor,
was shown to inhibit several efflux pump (EP) Mycobacterium tuberculosis proteins and demonstrate synergic activity with anti-TB drugs.OBJECTIVE: To evaluate the combinatory effect of isoniazid (INH) and VP in M. tuberculosis.METHODS: Minimal inhibitory
concentrations and combinatory effects of INH+VP were determined using respectively resazurin microtitre assay plate (REMA) and resazurin drugs combination microtitre assay (REDCA). From the results, we selected three bacilli with different susceptibility profiles and assessed their expression
of 10 EP genes through quantitative reverse transcription polymerase chain reaction after exposure to INH, VP and INH + VP for 48 h.RESULTS: A significant reduction of INH MIC was observed in INH-susceptible isolates upon combination with VP. In brief, gene expression assays revealed
expression patterns that could be correlated with each resistance profile, presence or absence of gene mutations and combinatory effect with VP.CONCLUSION: Combining VP with INH showed important results in drug-susceptible strains, and clinical trials on combined VP + anti-TB drugs
should be discussed.
The activity of rifampin (RIF) and piperine was evaluated at the relative transcript levels of 12 efflux pumps (EPs), and an additional mechanism was proposed to be behind the synergic interactions of piperine plus RIF in Mycobacterium tuberculosis. AutoDock v4.2.3 and Molegro v6 programs were used to evaluate PIP binding in M. tuberculosis RNA polymerase (RNAP). A hypothesis has been raised that piperine interferes in M. tuberculosis growth through RNAP inhibition, differently from what was previously endorsed for EP inhibition only.
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