Bixa orellana L. (Bixaceae) and Dysphania ambrosioides (L.) Mosyakin & Clemants (Amaranthaceae) Essential Oils Formulated in Nanocochleates against Leishmania amazonensis.

Leishmaniasis is a group of neglected tropical diseases caused by protozoan parasites of the Leishmania genus. The absence of effective vaccines and the limitations of current treatments make the search for effective therapies a real need. Different plant-derived essential oils (EOs) have shown antileishmanial effects, in particular from Bixa orellana L. (EO-Bo) and Dysphania ambrosioides (L.) Mosyakin & Clemants (EO-Da). In the present study, the EO-Bo and EO-Da, formulated in nanocochleates (EO-Bo-NC and EO-Da-NC, respectively), were evaluated in vitro and in vivo against L. amazonensis. The EO-Bo-NC and EO-Da-NC did not increase the in vitro inhibitory activity of the EOs, although the EO-Bo-NC showed reduced cytotoxic effects. In the animal model, both formulations (30 mg/kg/intralesional route/every 4 days/4 times) showed no deaths or weight loss greater than 10%. In the animal (mouse) model, EO-Bo-NC contributed to the control of infection (p < 0.05) in comparison with EO-Bo treatment, while the mice treated with EO-Da-NC exhibited larger lesions (p < 0.05) compared to those treated with EO-Da. The enhanced in vivo activity observed for EO-Bo-NC suggests that lipid-based nanoformulations like nanocochleates should be explored for their potential in the proper delivery of drugs, and in particular, the delivery of hydrophobic materials for effective cutaneous leishmaniasis treatment.

In Vitro and In Vivo Evaluation of Essential Oil from Artemisia absinthium L. Formulated in Nanocochleates against Cutaneous Leishmaniasis.

Background: Leishmaniasis is a zoonotic disease caused by protozoan parasites from Leishmania genus. Currently, there are no effective vaccines available and the available therapies are far from ideal. In particular, the development of new therapeutic strategies to reduce the infection caused by Leishmania amazonensis could be considered desirable. Different plant-derived products have demonstrated antileishmanial activity, including the essential oil (EO) from Artemisia absinthium L. (EO-Aa), Asteraceae. Methods: In the present study, the EO-Aa formulated in nanocochleates (EO-Aa-NC) was investigated in vitro against intracellular amastigotes of L. amazonensis and non-infected macrophages from BALB/c mice. In addition, the EO-Aa-NC was also evaluated in vivo against on experimental cutaneous leishmaniasis, which body weight, lesion progression, and parasite load were determined. Results: EO-Aa-NC displayed IC50 values of 21.5 ± 2.5 µg/mL and 27.7 ± 5.6 µg/mL against intracellular amastigotes of L. amazonensis and non-infected peritoneal macrophage, respectively. In the animal model, the EO-Aa-NC (30 mg/kg/intralesional route/every 4 days 4 times) showed no deaths or weight loss greater than 10%. In parallel, the EO-Aa-NC suppressed the infection in the murine model by approximately 50%, which was statistically superior (p < 0.05) than controls and mice treated with EO-Aa. In comparison with Glucantime®, EO-Aa-NC inhibited the progression of infection as efficiently (p > 0.05) as administration of the reference drug. Conclusions: Encochleation of EO-Aa resulted in a stable, tolerable, and efficacious antileishmanial formulation, facilitating systemic delivery of EO, with increased activity compared to administration of the free EO-Aa. This new formulation shows promising potential to future studies aimed at a new therapeutic strategy to treat leishmaniasis.

Safety of a proteoliposome from Neisseria meningitides as adjuvant for a house dust mite allergy vaccine.

The proteoliposome (PL) of Neisseria meningitidis serogroup B has been reported as a safe and potent vaccine adjuvant, inducing a TH1-skewed response. The present study describes a pre-clinical safety evaluation of an allergy therapeutic vaccine candidate based on purified allergens from Dermatophagoides siboney house dust mite and PL as adjuvant, both components adsorbed onto aluminum hydroxide gel. Two separate studies of acute toxicity evaluation were performed in mice and rabbits, and two repeat-dose studies were conducted in non-sensitized and allergen-sensitized Balb/c mice, respectively. The study in sensitized mice intends to model a therapeutic setting. Aerosolized allergen challenge was used in both settings to model natural respiratory exposure. In the therapeutic setting, mice were administered with three doses containing 2 µg allergen at weekly intervals [subcutaneous route] and subsequently challenged with aerosolized allergen for 6 consecutive days. Parameters of general toxicity effects were assessed via measures of behavior, body weight, food and water consumption, and macroscopic evaluation of organs. Histological examination of organs and the injection site was performed. Potential immunotoxicity effects at the systemic level were assessed by blood eosinophil counting and serum allergen specific IgE by ELISA The vaccine did not produce general or functional toxic effects of significance, at a dose up to 100 µg allergen per kg body weight. An expected local reaction at the injection site was observed, which could be attributed mostly to the immunological effect of aluminum hydroxide. The models implemented here suggest an acceptable safety profile of this vaccine for testing in clinical trials of allergy immunotherapy.

New proteoliposome vaccine formulation from N. meningitidis serogroup B, without aluminum hydroxide, retains its antimeningococcal protectogenic potential as well as Th-1 adjuvant capacity.

Proteoliposomes purified from the Outer Membrane of Neisseria meningitidis B, have been successfully used as core for adjuvants and vaccine formulations. We have tried to increase their structural definition and to conserve their efficacy and stability avoiding the addition of the aluminum hydroxide to the final formulation. Liposomal particle systems were prepared from components of defined molecular structure, such as a Neisseria meningitidis B protein complex, extracted and purified without forming vesicle structures. Liposomes were prepared from a mixture of dioleoyl phosphatidyl serine and cholesterol, using the classical dehydration-rehydration method. Transmission Electron Microscopy (TEM) was used to characterize the liposomes. BALB/c mice were used for animal testing procedures. Analysis of specific IgG response, serum bactericidal activity as well as DTH reaction was carried out. Isolation and purification of mRNA and real-time PCR, was performed to determine the dominating Th lymphokine pattern. The new antimeningococcal formulation without aluminum hydroxide prepared with components of defined molecular structure assembled itself into Neoproteoliposomes (NPL) ranging from 50 to 70 nm in diameter. The extraction and purification of selected membrane proteins to provide the antigen for this new formulation (PD-Tp), as well as the NPL-formulation favors a Th1 response pattern, suggested by the higher percentages of DTH, increased expression of proinflamatory lymphokine mRNAs when administered by intramuscular and intranasal routes. It stimulates a systemic bactericidal antibody response against Neisseria meningitidis B and immunologic memory similar to the Cuban VA-MENGOC-BC vaccine, even at lower dosages and is less reactogenic at the injection site in comparison with the formulation with aluminum hydroxide. This new adjuvant formulation could be applicable to the development of new and improved vaccines against meningococcal disease, and eventually as modulators of the immune response against other diseases.

Protección inducida por nanococleatos derivados de proteoliposomas de Leptospira interrogans serovar Canicola / Induced protection by nanocochleates derived from proteoliposomes from Leptospira interrogans serovar canicola

Desde los años 20 del pasado siglo, hasta el presente, en el mundo se han desarrollado y empleado vacunas de células enteras contra la leptospirosis que confieren una corta inmunidad; la mayoría no adyuvadas y dirigidas, fundamentalmente, contra los diferentes serogrupos de la especie Leptospira interrogans, contenidos en las preparaciones. Numerosos han sido los intentos realizados para lograr una formulación vacunal más pura, efectiva, de amplio espectro y duración de la protección que las bacterinas de células enteras inactivadas. Sin embargo, hasta el momento no se ha registrado ninguna vacuna con tales características. En el presente trabajo se obtuvieron antígenos de membrana externa a partir de una cepa cubana autóctona (Cepa 87, L. interrogans serovar Canicola), mediante una modificación de la tecnología para la producción de vesículas de membrana, patentada por investigadores del Instituto Finlay. Estos antígenos con estructura nanoproteoliposómica fueron formulados/adyuvados mediante diferentes estrategias, logrando cinco preparaciones con estructura coclear, que constituyen nanopartículas de aproximadamente 100 a 150 nm de largo y entre 15 a 30 nm de diámetro. Los inmunógenos se inocularon en el biomodelo Mesocrisetus aureatus, con dos dosis e intervalo de seis semanas. El reto fue realizado con 100,000 DL 50. Los resultados demuestran que las nuevas formulaciones vacunales confieren protección frente al reto homólogo y fueron capaces de eliminar el estado de portador, lo que unido a la robustez del método de preparación, el mayor nivel de pureza, en comparación con las bacterinas, y la no necesidad del hidróxido de aluminio, las convierten en una alternativa de interés para continuar su desarrollo(AU)

Whole cell Leptospirosis vaccines have been developed and used from the 20`s of last century up today , most of them are not adjuvated and do not confer a long-lasting immunity. These vaccines are mainly against different serogroups of Leptospira interrogans contained in the preparation. Though several attempts to obtain a vaccinal formulation more effective, purer, with wider spectrum and longer protection than the bacterines of inactivated whole cells have been made no vaccine with these characteristics have been registered yet. This paper deals with the obtainment of outer membrane antigens from a Cuban autochthonous strain (Strain 87, L. interrogans serovar Canicola), by a modification of the technology for the production of outer membrane vesicles, patented by researchers from Finlay institute These antigens with nanoproteoliposomic structure were formulated/adjuvated by different strategies, obtaining five preparations with cochlear structures which are nanoparticles of approximately 100 to 150 nm of lenght and from 15 to 30 nm of diameter. Two doses of the immunogens are inoculated in the biomodel Mesocrisetus aureatus, with an interval of six weeks. The challenge was carried out with 100.000 DL 50 . Results showed that the new vaccinal formulations confer protection against the homologous challenge and were able to eliminate the carrier status. This, together with the robutness of the preparation method, the higher level of purity, compared to the bacterines, and the no need of aluminium hydroxide make the formulations an alternative of interest for continuing their development(AU)