Degron Pathways and Leishmaniasis: Debating Potential Roles of Leishmania spp. Proteases Activity on Guiding Hosts Immune Response and Their Relevance to the Development of Vaccines

Leishmania (Viannia) braziliensis Thor strain and subpopulations Thor03, Thor10, and Thor22 have differences in the surface membrane proteases activity profile

The Leishmania (Viannia) braziliensis Thor strain is composed of subpopulations with distinct biological features, as differences of the virulence profile in vitro and in vivo in murine model. As the surface of these parasites is the first contact with the host, this study assesses comparative approaches of surface membrane proteases of promastigotes and axenic amastigotes of L. (V.) braziliensis Thor strain and Thor03, Thor10, and Thor22 subpopulations, accessing differential profiles among these parasites. Here is explored the phospholipase C (PLC) property as a pivotal tool to selectively recover surface proteases of these parasites. The treatment of parasites with PLC yielded protein fractions with metalloprotease, cysteine protease, and serine protease activities, which were detectable by gelatin-SDS-PAGE and fluorogenic substrates and specific inhibitors, showing distinct profiles from both promastigotes and axenic amastigotes of the Thor strain, Thor03, Thor10, and Thor22 subpopulations. Data of protease activity quantitative in solution show metalloprotease as the highest activity, followed by cysteine protease and serine protease onto the surface of promastigotes and axenic amastigotes. The biological significance of these findings points to the potential of the Thor strain, helped by respective subpopulations, to adapt to hosts, as well as reinforcing the importance of this class of enzyme in the first hours of infection.

A Virtual Screening Approach to Evaluate the Multitarget Potential of a Chalcone Library with Binding Properties to Oligopeptidase B and Cysteine Proteinase B from Leishmania (Viannia) braziliensis

Leishmaniasis remains a significant public health problem in Brazil, particularly due to Leishmania (Viannia) braziliensis, which is associated with severe dermatological syndromes. The current treatments are limited by toxicity and uncertain efficacy, highlighting the need for new compounds with pharmacological potential. This study investigates chalcones as multitarget binding agents for oligopeptidase B (OPB) and cysteine proteinase B (CPB), which are critical pathogenic determinants of L. (V.) braziliensis. The methodology involved replacing methoxy groups with aryl motifs at various positions within the chalcone structures and introducing specific functional groups at the C-4 position. This was followed by a virtual screening approach using molecular docking to assess interactions with the target proteinases. Several chalcones from the virtual library (n = 178) exhibited high binding affinities for OPB and CPB, outperforming control ligands. A total of 30 chalcones with multitarget potential were identified, with fluorinated compounds C-191 and C-135 emerging as promising inhibitors, distinguished by the best energy rankings for both enzymes. ADMET analyses confirmed the viability of these chalcones as drug candidates, with most adhering to Lipinski's rules. These data suggest that chalcones may provide new multitarget treatment options for leishmaniasis.

Evidence of Guanidines Potential against Leishmania (Viannia) braziliensis: Exploring In Vitro Effectiveness, Toxicities and of Innate Immunity Response Effects

Leishmaniasis is a complex group of infectious and parasitic diseases that afflict many thousands of individuals across five continents. Leishmaniasis treatment remains a challenge because it relies on drugsknown for their high toxicity and limited efficacy, making itimperative to identify new molecules that offer greater effectiveness and safety. This study sought to explore the impact of seven synthetic guanidine derivatives (LQOF-G1, LQOF-G2, LQOF-G6, LQOF-G7, LQOF-G32, LQOF-G35 and LQOF-G36) onthe parasite Leishmania (Viannia) braziliensis and in vitro macrophage infection by this parasite, as well as cytotoxic approaches in vitro models of mammalian host cells and tissues. The synthesized compounds showed purity ≥ 99.65% and effectively inhibited parasite growth. LQOF-G1 proved the most potent, yielding the best half-maximal inhibitory concentration (IC50) values against promastigotes (4.62 μmol/L), axenic amastigotes (4.27 μmol/L), and intracellular amastigotes (3.65 μmol/L). Notably, the antileishmanial activity of LQOF-G1, LQOF-G2, and LQOF-G6 was related to immunomodulatory effects, evidenced by alterations in TNF-α, IL-12, IL-10, nitric oxide (NO), and reactive oxygen species (ROS) levels in the supernatant of culture macrophages infected with L. (V.) braziliensis and coincubated with these compounds. LQOF-G2 and LQOF-G36 compounds exhibited vasodilator and spasmolytic effects at higher concentrations (≥100 μmol/L). Generally, LQOF-G1, LQOF-G2, and LQOF-G32 compounds were found to be nontoxic to assessed organs and cells. No toxic effects were observed in human cell lines, such as HEK-293, CaCo-2 and A549, at concentrations ≥ 500 μmol/L. Collectively, data have shown unequivocal evidence of the effectiveness of these compounds against L. (V.) braziliensis parasite, one of the causative agents of Tegumentary Leishmaniasis and Mucocutaneous Leishmaniasis in America.

Vaccine Development against Infectious Diseases: State of the Art, New Insights, and Future Directions

In the 18th century, English physician Edward Jenner laid the foundation for modern vaccination by achieving protection against variola [...].