The resistance mechanisms of bacteria and protozoans have evidenced the need of discover new compounds with potential pharmaceutical activity against pathogenic microorganisms. Medicinal plants have been for centuries a promising alternative as sources of new drugs. The objective of this work was to evaluate the chemical composition, antimicrobial and antileishmanial activities of Cinnamomum zeylanicum, Origanum vulgare, and Curcuma longa essential oils. Chemical analysis was performed by gas chromatography-mass spectrometry. Antimicrobial activity was performed by disk diffusion and minimum inhibitory concentration (MIC) test. Antileishmanial activity was performed against antipromastigote and intracellular amastigote of Leishmania amazonensis. Cytotoxic and nitrite production were realized in BALB/c peritoneal macrophages. The major compounds of the essential oils were cinnamic aldehyde (46.30%) in C. zeylanicum, cis-p-menth-2-en-1-ol (33.88%) and linalyl acetate (13.90%) in O. vulgare, and turmerone (55.43%) in C. longa. The MIC showed significant antimicrobial activity of C. longa essential oil against S. aureus (83.3 ± 14.43 µg/mL). Antipromastigote activity showed IC50 values >500 µg/mL to C. zeylanicum, 308.4 ± 1.402 µg/mL to O. vulgare, and 405.5 ± 1.119 µg/mL to C. longa essential oil. Activity against intracellular amastigote of L. amazonensis showed IC50 of 63.3 ± 1.369 µg/mL and cytotoxic was not observed, resulting in selectivity index higher than 15.79 to parasite. C. longa essential oil decreased nitrite production in peritoneal macrophages, but not in Leishmania-infected cells. The chemical composition of the three essential oils is directly associated to its potential biological action, as the antimicrobial activity. C. longa presented a potent antileishmanial activity against promastigote and intracellular amastigote of L. amazonensis, although this activity is not linked to nitric oxide, since C. longa essential oil inhibits its production.
O presente trabalho teve como objetivo apresentar uma atualização epidemiológica sobre a raiva em herbívoros e animais silvestres no Estado do Maranhão durante o período de 2010 a 2018. Foi realizada uma análise com base na estatística descritiva, por meio da distribuição de frequências relativas e absolutas. Do total de 409 amostras testadas, independente da espécie, 16,63% (68/409) foram positivas para raiva. Destas, 13,44% (55/409) foram bovinos, 2,44% (10/409) equídeos e 0,73% (3/409) animais silvestres. O percentual total de positividade, quando considerada a espécie ou grupo de espécies (animais silvestres) foi de 35,55% para bovinos, 25,18% para equídeos e 4,86% para animais silvestres. Observa-se ainda que o ano com maior positividade foi o de 2018 com cerca de 46,42% de animais positivos, seguido pelos anos de 2013 e 2012, com, respectivamente, 41,66% e 33,33% animais positivos. Em relação à distribuição geográfica da raiva, houve confirmação de casos em 31 dos 217 municípios do Maranhão, os quais encontram-se distribuídos entre as mesorregiões Norte, Centro, Leste e Oeste maranhense. Desse modo, a raiva está presente no Estado do Maranhão, principalmente entre a população bovina, que tem apresentado incidências elevadas até o presente momento.
Histopathological and spermatogenesis classification by Johnsen is widely used in the germinal epithelium maturation analysis, besides identifying pathological alterations able to cause subfertility and even infertility. The aim of this study was to analyze cell-differentiation histopathological data and to correlate them with expression of PRM-1, TNP-2, 17β-HSD3, LHR, generic MHC-I, MIC-B, NC1 and NC3 genes, involved in bovine spermatogenesis using qRT-PCR from testicular parenchyma. Based on Johnsen’s criteria, the results showed normal spermatogenic activity in these animals, classified at 6, 7 and 8 scores. The qRT-PCR analysis expression showed that MHC-I (generic) gene was less expressed than all the other genes in evaluated scores (p < 0.05) and, PRM-1 and TNP-2 were the most expressed genes (p < 0.05). The PRM-1 gene expression was significantly higher than TNP-2 (p < 0.05). Comparing scores, 17β-HSD3 gene expression was lower (p < 0.05) in score 6 when compared to scores 7 and 8 animals. It was also observed that PRM-1 expression was lower in score 6 when compared to 7, as well as TNP-2 gene was less expressed in the score 6 (p < 0.05) when compared to 7 and 8 scores. Our results demonstrated that MHC I (generic), MIC-B, NC1, NC3, and LHR genes are poorly expressed in bovine testis, suggesting their marginal action on spermatogenesis. Instead, PRM-1, TNP-2, and 17β-HSD3 expression were higher, supporting the notion that these genes can act directly on the germ cells differential development during bovine spermatogenesis.
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