Morphological analysis and lipid composition of the stable fly Stomoxys calcitrans salivary glands reinforce important features of feeding behaviour.

Stomoxys calcitrans L. (Diptera: Muscidae), the stable fly, is a hematophagous insect of great veterinary importance, because it is a mechanical vector of diverse pathogens in livestock. The saliva of blood-feeding insects presents important pharmacologically active molecules that impair blood clotting, promote vasodilation and modulate the host immune system response, crucial processes for successful feeding. These properties also enable pathogens' transmission. In the present work, we describe an efficient protocol to dissect S. calcitrans salivary glands, their morphological characteristics and lipid profile. The mean length of the tubular gland is 3.23 mm with a bulbous posterior end and a narrow anterior end. Histological analysis revealed a monolayer of large polygonal epithelial cells with voluminous nuclei and high lipid content in their cytoplasm. Ultrastructural analysis showed that the epithelium is rich in mitochondria, free ribosomes, Golgi complex cisternae, presenting a great extension of rough endoplasmic reticulum that contains an electron-dense material. Lipid analysis by thin-layer chromatography showed that neutral fatty acids and phosphatidylcholine are predominant in the fly salivary glands. Lysophosphatidylcholine, an important signalling biomolecule involved in different metabolic processes, including host's immunomodulation and pathogens proliferation and differentiation, is also present.

Stomoxys calcitrans L. (Diptera: Muscidae), a mosca­dos­estábulos, é um inseto hematófago de grande importância veterinária, uma vez que é vetor mecânico de diversos patógenos que infectam animais da pecuária. A saliva de insetos que se alimentam de sangue apresenta importantes moléculas farmacologicamente ativas que impedem coagulação sanguínea, promovem vasodilatação e modulam o sistema imune do hospedeiro, processos cruciais para uma alimentação bem sucedida. Tais propriedades também permitem a transmissão de patógenos. No presente trabalho, nós descrevemos um protocolo eficiente para dissecar as glândulas salivares de S. calcitrans, suas características morfológicas e perfil lipídico. O comprimento médio da glândula tubular é 3.23 mm com uma porção posterior bulbosa e porção anterior estreita. Análises histológicas revelaram uma monocamada de células epiteliais largas e poligonais com núcleos volumosos e alto conteúdo lipídico em seus citoplasmas. Análises ultraestruturais mostraram um epitélio rico em mitocôndria, ribossomos livres, cisternas do complexo de Golgi, apresentando uma grande extensão de retículo endoplasmático que contém um material eletrodenso. A análise lipídica mostrou que ácidos graxos neutros e fosfatidilcolina predominam nas glândulas salivares da mosca. Lisofosfatidilcolina, uma importante biomolécula sinalizadora envolvida em diferentes processos metabólicos, incluindo imunomodulação do hospedeiro e proliferação e diferenciação de patógenos, também se encontra presente.

Antileishmanial activity of the essential oils of Myrcia ovata Cambess. and Eremanthus erythropappus (DC) McLeisch leads to parasite mitochondrial damage.

Leishmania amazonensis is a species causative of cutaneous and anergic diffuse cutaneous leishmaniasis, treatment-resistant form, in the New World. Plants essential oils exhibit great potential as microbicide agents. We described the composition of the essential oils of two plants native from Brazil, Myrcia ovata, with geranial and neral as major constituents, and Eremanthus erythropappus, with α-bisabolol. In vitro effects of these essential oils on L. amazonensis promastigotes growth and ultrastructure were analysed as well as their cytotoxicity to murine macrophages. Both oils were highly active with IC50/96 h of 8.69 and 9.53 µg/mL for M. ovata and E. erythropappus against promastigotes and caused ultrastructural alterations including mitochondrial enlargement. Cytotoxicity for murine macrophages varied with the oil concentrations. The IC50 low values of both M. ovata and E. erythropappus oils against L. amazonensis and their relative low cytotoxicity to mammal host cells support their potential use against cutaneous leishmaniasis.

The effect of the biflavonoid 2″,3″-dihydroochnaflavone on Trypanosoma cruzi Y strain.

Trypanosoma cruzi is the causative agent of Chagas disease which affects 8 million people in Latin America. The parasite possesses high capacity to evade host immune system and the available drugs to treat Chagas disease present low efficacy combined to serious side effects to patients. Therefore, the identification of alternative therapeutics is essential. Brazilian flora exhibits an immense diversity of metabolites with great potential to be developed into new drugs. We investigated the action of 2″,3″-dihydroochnaflavone a biflavonoid extracted from Luxemburgia nobilis Eichler ex Engl. (Ochnaceae) against T. cruzi (Y strain). Our experiments showed that this compound is effective against parasite epimastigote forms, presenting IC50 value of (2.5 ± 0.1) µM after 96 h of treatment. Ultrastructure alterations were also detected in treated epimastigotes especially mitochondrial enlargement at the kinetoplast region. At the concentration of 30 µM, the compound killed (61.6 ± 3.37)% of the parasite in its amastigote form. In addition, at the same concentration, the compound killed all trypamastigotes growing within murine macrophages after 7-9 days of infection. Nonetheless, the biflavonoid concentrations were harmless to murine enriched population of lymphocytes and peritoneal macrophages. These results indicate that 2″,3″- dihydroochnaflavone presents activity against T. cruzi.