Celso O.R. Junior

Immunomodulatory effects and improved prognosis of experimental autoimmune encephalomyelitis after O-tetradecanoyl-genistein treatment

Experimental autoimmune encephalomyelitis (EAE) is a murine autoimmune disease used to study multiple sclerosis (MS), a human inflammatory demyelinating disease of the central nervous system. Genistein, an isoflavonoid phytoestrogenic compound found in soy, is known to reverse clinical signs of EAE. Although genistein has some potential in clinical application, it has some disadvantages related to its chemical structure, such as rapid in vivo metabolism and a fast decline in serum after oral administration. The present work investigates the treatment of EAE by using 7-O-tetradecanoyl-genistein (TDG), a more lipophilic analog of genistein obtained by esterification. The clinical course of EAE was investigated in C57Bl/6 mice immunized with myelin oligodendrocyte glycoprotein peptide (MOG)(35-55) in complete Freunds adjuvant supplemented with Mycobacterium tuberculosis H37RA. After 14 days of MOG immunization, mice were treated with TDG for seven days. Numbers of IL-17-producing cells and Foxp3 by CD4(+) T cells and CTLA-4 expression by CD3(+) T cells from brain were determined by flow cytometry. Levels of IL-6, IFN-γ and IL-10 were evaluated by ELISA. Brain sections were stained by hematoxylin and eosin method. The data obtained indicate that TDG treatment ameliorates the clinical signs of EAE, which correlates with a decrease of IL-17-producing cells and an increase in Foxp3(+)CD4(+) cells in the brain. TDG is also shown to enhance IL-10 production and CTLA-4 expression and to reduce IFN-γ and IL-6. Altogether, these findings suggest an immunomodulatory therapeutic role for TDG in EAE and multiple sclerosis.

Synthesis and Antileishmanial Activity of Lipidic Amino Alcohols

In this work, a number of lipidic amino alcohols wereas synthesized and evaluated in vitro on cultures of Leishmania amazonensis and Leishmania chagasi. Nine amino alcohols showed inhibition of L. chagasi growth, and seven of them showed inhibition of L. amazonensis with IC50 below 10 μm. Compound 11f was more active than the reference drug amphotericin B against L. chagasi promastigote forms.

Trypanocidal activity of lipophilic diamines and amino alcohols

Trypanocidal activity of a number of lipophilic diamines and amino alcohols was evaluated in vitro against Trypanosoma cruzi blood stream forms. Several of the studied compounds showed inhibition of T. cruzi growth. The most active ones were compounds 3, 4 and 5 with a IC₅₀ of 31.2 μg/mL, activity similar to the reference drug crystal violet.

Lycorine Derivatives Against Trichomonas vaginalis

Six lycorine derivatives were prepared, characterized, and evaluated for their in vitro anti‐Trichomonas vaginalis activity. Compounds bearing an acetyl (2), lauroyl (3), benzoyl (4 and 5), and p‐nitrobenzoyl (6 and 7) groups were synthesized. The best activity was achieved with lycorine esterified at C‐2 position with lauroyl group. Preliminary structure–activity relationship points that unprotected OH group at C‐1 and C‐2 is not necessary to the antiparasitic activity, and none of the derivative was less active than lycorine. The lycorine structural requisites required to kill this amitochondriate cell seem to be different in comparison with the derivatives most active against other parasites and tumor cell lines, both mitochondriated cells. This result is an important contribution with our ongoing studies regarding the mechanism of action of the Amaryllidaceae alkaloids on T. vaginalis cell death opening a new perspective to optimize this innovative pharmacological potential.

Preparation and antitubercular activity of lipophilic diamines and amino alcohols.

A series of diamines and amino alcohols derived from 1-dodecanol, 1-tetradecanol, 1,2-dodecanediol and 1,2-tetradecanediol were synthesized and tested for their antitubercular activity. Compounds 3, 8 and 9 were found to be the most active (MIC of 6.25 microg/mL). Nine other compounds displayed activity against Mycobacterium tuberculosis, with a MIC of 12.5 microg/mL.

Synthesis and Immunosuppressive Activity of Lipophilic Amino Alcohols and Diamines

In this work, we report the preparation and evaluation of the in vitro and in vivo of the immunosuppressive activity of a series of lipophilic amino alcohols and diamines. All compounds were evaluated for inhibition of cell proliferation, cytotoxicity and NO production. Compounds 9, 12, 13, 17, and 18 did not display inhibition of cell proliferation while decreased NO production. The two most potent compounds, 13 and 17, submitted to delayed‐type hypersensivity assays showed immunosuppressive activity.

Anthelmintic effects of alkylated diamines and amino alcohols against Schistosoma mansoni.

Polyamines are substances involved in many aspects of cell growth, division, and differentiation. Because of the metabolic differences between host cells and parasite cells, polyamine metabolism has been considered as a potential target for the chemotherapy of parasitic diseases. The aim of this work was to evaluate the schistosomicidal activity of different N-alkylated diamines (3a–3h), amino alcohols (4a–4d), and glycosylated amino alcohols (10a–10d). Compounds were prepared by synthetic methods and submitted to in vitro evaluation against adult worms of Schistosoma mansoni. At 100 μM, 3b, 3e, and 3h as well as 4a, 4b, 4d, 10a, 10b, and 10d resulted in 100% mortality of adult schistosomes. Compound 3d (12.5 to 100 μM) caused the death of 100% of both male and female adult schistosomes, while 3f (12.5 to 100 μM) resulted in 100% mortality of only male adult worms, whereas no mortality in female worms was observed. Compounds 3d and 3f were also able to reduce viability and decrease production of developed eggs in comparison with the negative control group. Diamines 3d and 3f may represent useful lead compounds for further optimization in order to develop new schistosomicidal agents.

Synthesis of Lipophilic Genistein Derivatives and Their Regulation of IL‐12 and TNF‐α in Activated J774A.1 Cells

Genistein modulates inflammatory responses in part by reducing the production of the pro‐inflammatory cytokines IL‐12, TNF‐α, and nitric oxide, by activated macrophages in response to lipopolysaccharide stimulus. Previous studies have shown that synthetic lipophilic genistein glycosides were significantly more active than hydrophilic glycosides. The aims of this study were to synthesize and to evaluate the effect of novel lipophilic genistein derivatives on IL‐12, TNF‐α, and nitric oxide production by J774A.1 cells. The results show that the modification of genistein enables the generation of non‐cytotoxic compounds with increased IL‐12 inhibition. However, these derivatives failed to inhibit TNF‐α. The nitric oxide production was notably inhibited by the monoester (2, 3) and monoether (6, 7) compounds in a dose‐dependent manner.

Synthesis of genistein coupled with sugar derivatives and their inhibitory effect on nitric oxide production in macrophages

The isoflavone genistein 1 and some derivatives modulate IL-12, TNF-α and NO production by macrophages and lung cancer cell lines, and improve the clinical signs of experimental autoimmune encephalomyelitis (EAE). Seven genistein derivatives connected at C-6 position of a sugar, such as d-glucose and d-galactose, were synthesized. The ability to modulate macrophage response was evaluated, showing variable inhibition capacity of NO and TNF-α production in J774.A1 and RAW 264.7. Five of the seven compounds were non-cytotoxic; compound 8 was more effective to inhibit NO and TNF-α production, without affecting cell viability.