In vitro antileishmanial activity and phytochemical analysis of Casearia javitensis Kunth (Salicaceae)

The objective of this study was to carry out phytochemical analysis of the bark extract of Casearia javitensis and to evaluate its antipromastigote activity against Leishmania amazonensis. The ethanol extract (EE) was fractionated in open-column chromatography to obtain the hexane (FrHex), dichloromethane (FrDcm), ethyl acetate (FrAcOET) and methanol (FrMeOH) fractions. The EE and its fractions were analyzed by thin layer chromatography (TLC). FrDcm was analyzed in high performance liquid chromatography with diode array detection (HPLC-DAD). The antipromastigote assay of Leishmania amazonensis and the cytotoxicity test against the acute monocytic leukemia cell line (THP-1) were performed by the MTT colorimetric assay. The phytochemical profile in TLC detected terpenes in all samples. However, in the ultraviolet spectrum (HPLCDAD) for FrDcm suggested the presence of a phenolic compound. FrHex and FrDcm showed antipromastigote activity (IC50 = 116.6 ± 0.9 and 59.4 ± 1.1 μg mL-1, respectively) and low cytotoxicity (CC50 = 333.4 ± 3.2 and 241.2 ± 1.9 μg mL-1, respectively). The selectivity index for FrDcm was 4.1. We conclude that the FrDcm of C. javitensis has potantial as a leishmanicide, and this activity may be related to the presence of phenolic compound.


Introduction
The leishmaniases are a group of infectious disease, non-contagious, caused by protozoan parasites of the genus Leishmania, which affects skin and mucous membranes, transmitted to humans by the bite of infected female phlebotomine sandflies [1] . Endemic in 97 countries, an estimated 1 billion people live in an area at risk for the disease worldwide and there are no optimistic forecasts for its control for the next few years [1,2] .
The treatment of leishmaniasis is mainly carried out with pentavalent antimonial drugs (sodium stibogluconate and meglumine antimoniate), whereas Pentamidine and Amphotericin B are the second choice in therapy [5] . However, the use of these drugs is questionable because of the limitations of toxicity, variable efficacy, requirements for parenteral administration and/or length of treatment regimens, and a high cost [5][6][7] . In addition, there are reports of parasite resistance, including the global HIV/AIDS epidemic with its accompanying impact on the immune system [8] , having high Leishmania-HIV coinfection rates reported from Brazil, Ethiopia and the state of Bihar in India [9] .
Moreover, in the Amazon, therapeutic failure may be related to the resistance of the parasite to drugs, to the irregular and distant use of individuals who live far enough away from health services [10] . Therefore, it is necessary to search for new therapeutic alternatives, with medicinal plants being an important source of bioactive compounds.
The Amazon region still presents high rates of infectious and parasitic diseases, with an expressiveness of deaths [11] that may be associated with the population's poor access to health services. Given this scenario, traditional knowledge about the use of medicinal plants often symbolizes the only therapeutic resource for these communities [12] . Among the plants, it stands out the genus Casearia (Salicaceae), composed of about 180 species throughout the tropical and subtropical regions of the globe, including Africa, Asia, Australia, North America and South America, and the Pacific islands [13] , with 70 species belonging to the American continent and 37 present in Brazil [14] , they stand out because they have species known for medicinal use in the Amazon, with potential cicatrizant activity [15] .
The morphology of this genus is described as shrubs or small trees, found more frequently in forest vegetation [16] , and are noted for their medicinal importance, with wide recommendations in traditional medicine for the treatment of wounds, ulcer [17] , to cicatrizing [18] , in addition to being used frequently for the treatment of different skin diseases [19] , which may be related to leishmaniasis.
In addition, species of the Casearia genus present in the literature a study with antiparasitic activity, with activity between trypomastigotes of Trypanosoma cruzi (IC50 ranging from 0.53 to 2.77 μg mL -1 ) for clerodane diterpenes (casearins A, B, G, and J) and for Leishmania infantum promastigotes were also susceptible to casearins obtained from Casearia sylvestris, with IC50 values ranging from 4.45 to 9.48 μg mL -1 [20] , and the Revista Fitos. Rio de Janeiro. 2020; 14 ( [21] .
Phytochemical studies on different species of the Casearia genus revealed the predominance of terpenoids, emphasizing clerodanic diterpenes [22] . Sesquiterpenes and monoterpenes, phenylpropanoids, steroids, phenolic glycosides, alkaloids and flavonoids have also been isolated [13,23] . Several of these chemical compounds, isolated from plant extracts, have been reported leishmanicidal activity [24] , especially the terpene compounds obtained from Casearia Sylvestris [20] and flavonic compounds obtained from C. arborea [21] present in the genus Casearia.
The Casearia genus has 180 species, of which 287 compounds have already been isolated, and the terpenoids, in particular the diterpenoids clerodans, are the predominant and representative constituents in the Casearia genus [13] . Casearia javitensis Kunth is a species found very frequently in the Amazon region [15] , Preliminary phytochemical studies detected the presence of terpenes and hexanoic and caproic acids [13,25] , besides phenolic glycosides, steroids and flavonoids [23] . In analysis by gas chromatography-mass spectrometry (GC-MS) of the fractions obtained by fractionation of the dichloromethane extract, made it possible to detect triterpene friedelina and β-friedelanol and steroid β-sitosterol [15] , but only in one study, 4hydroxyphenyl-6-caffeoyl-β-L-glucoside and β-sitosterol were isolated from the hexane and methanol extracts of the leaves [26] (FIGURE 1).
However, several species of the genus lack validation studies of leishmanicidal activity, especially Casearia javitensis Kunth, with limited validation studies of biological activity and cytotoxicity assays. In summary, despite the existence of phytochemical studies of the species, there are no reports of studies that evaluated the leishmanicidal activity. In view of the above, this work had the objective to evaluate the leishmanicidal potential of Casearia javitensis.

Plant material
The from Dragendorff, and Liebermann-Burchard were used as developers [27] . FrDcm was subjected to highperformance liquid chromatography with a diode-array detector (HPLC-DAD).
The culture of log phase promastigotes was adjusted to 5x10 6 parasites 0.1 mL -1 . Susceptibility test determination was performed on 96-well plates. The extract and fractions were analyzed in triplicate in a concentration gradient (200 to 3.125 μg mL -1 ). The negative control was performed only with parasites and the incubation medium. The positive control was made with amphotericin B (25 to 0.3906 μg mL). After 24 h of incubation at 26°C under 5 %CO2 atmosphere, 10 μl of tetrazolium salt (5 μg mL) was added to each well, and the parasites were quantified in an enzyme-linked immunosorbent assay reader [28] . The halfmaximal inhibitory concentration (IC50) was determined by linear regression (Graph Pad Prism versão 5.04).
To determine the selectivity index (SI), the ratio of the CC50 value of the cytotoxic activity to the IC50 value of the antiprotozoal activity was calculated. When the SI value is >1, hat compound presents more active against protozoa and less active against mammalian cells [30]

Results and discussion
The yield was of 3.67% (11.025 g) of EE. Fractionation of referred extract on an open chromatographic column generated fractions of different polarities, such as higher yield for methanol fraction (FrMeOH 91.95% -7.356 g; TABLE 1).  [31] .
Phytochemical studies on different species of the Casearia revealed the predominance of terpenoids, emphasizing clerodan diterpenes [22] . Therefore, this may explain the suggestive results for the presence of terpenes, and absence of alkaloids (TABLE 1). In the study of Casearia sylvestris Sw. also no alkaloid was observed [31] .
Phytochemical studies of species of the genus, especially C. corymbosa, C. grewiifolia, C. membranacea and C. sylvestris allowed the isolation and structural characterization of 152 clerodan diterpenes, of which 41 were isolated from C. sylvestris [13] . More than 287 compounds have been identified from the Casearia genus and it can be said that terpenoids are the predominant class of metabolites, highlighting clerodane diterpenes [13] . For example, two clerodane diterpenes, Casearlucine A and Caseamembrol A also showed activity against L. amazonensis amastigote axenic stages (5.98 ± 6.8 and 10.5 ± 0.4 µM, respectively) and promastigote (11.1 ± 0.2 µM, for both) [32] .
Phytochemical studies suggest the presence of terpenes in the EE and in all fractions obtained (TABLE 1).
On the other hand, none of the samples presented a positive result for alkaloids. Following the thin layer The chromatogram suggests that the major peak of FrDcm is a phenolic compound, since the absorption at 258.3 nm is suggestive of that of the band II (ring A, benzoyl portion). While the peak at 383.4 nm may be related to the Band I (ring B, cinamoyl portion) of the flavonoid [33,34] . From the maximum absorption value of Band I, it is possible to infer about the nature of the flavonoid, especially between flavones (304-350 nm) and flavonols (352-385 nm) [33,35] . The maxima absorption obtained from the FrDcm suggests that this compound is a flavonol.
Quercetin has also been reported to have multiple targets, including arginase, which is an important enzyme in the polyamine biosynthesis pathway [37] , topoisomerase II in kinetoplasts, which induces DNA cleavage leading to apoptosis [38] and iron metal, which is important for parasite growth and replication [39] .
It is worth mentioning that the observed values were obtained from fractions, in this way, new studies are required using the bioguided fractionation to aid in the isolation of the substances responsible for leishmanicide activity, which may improve by the inhibitory capacity of the parasite and consequently its selectivity.