Protective role of Morus nigra leaf extracts against murine infection with Eimeria papillata

Background: Eimeriosis is a parasitic intestinal infection that affects the poultry industry; it is responsible for economic losses on a global scale. Objective: This study investigated the protective role of Morus nigra leaf extracts (ME) against Eimeria papillata infection in mice. Methods: C57Bl/6 mice were divided into six groups. The first group was gavaged daily with 100 μL 0.9 % NaCl. The second group was treated daily by oral gavage with 100 μL M. nigra leaf extracts (ME) (200 mg/kg), while the third, fourth, fifth, and sixth groups were orally infected with 1000 E. papillata oocysts. The last three groups were daily treated for 5 days with 200, 400, and 800 mg/kg of ME, respectively. Samples of jejunum were obtained for examining the histopathological changes as well as changes in the nitric oxide and catalase levels. Results: Infrared spectroscopy of ME showed the presence of several expected active classes of phytochemical compounds. ME was able to reduce the E. papillata oocysts in mice feces by about 80% and decrease the infection-induced jejunal histopathological injuries. This was quantified using the histological injury score. In addition, ME significantly recovered the changes in nitric oxide and catalase levels. Conclusion: Our findings showed that the M. Nigra extract has antioxidant activity which protects against murine eimeriosis. Further studies are required to determine the exact active compounds in ME and their mode of action.

Anti-coccidial and anti-apoptotic activities of palm pollen grains on Eimeria papillata-induced infection in mice

The present work aimed to study the effect of palm pollen extract (PPE) as an anticoccidial and anti-apoptotic modulator during the course of murine intestinal Eimeria papillata infection. The fact that PPE has an anticoccidial efficacy against intestinal E. papillata infection in mice has been clarified by the reduction of faecal output of oocysts on day five post infection from 49.5 × 103 to 34 × 103 oocyst/g. Moreover, the number of intracellular eimerian stages of zygots and developing oocysts decreased by about 89% and that of schizonts and gamonts to 42% and 72%, respectively. E. papillata infection also induced an increase in the number of apoptotic cells from 17.5 to 122.8 apoptotic nuclei/10 villous crypt units (VCU). In addition, it caused a state of systemic inflammatory response as revealed by an elevation in levels of the pro-inflammatory biomarkers, inducible nitric oxide synthase (iNOs) and tumor necrosis factor alpha (TNF-α) from 5.3 and 78.3 to 33 pmol ml−1 and 96.3 pg ml−1 in blood, respectively, with concurrent duplication in the total leucocytic number. Upon treatment of infected mice with the aqueous PPE, the activity of iNOs was reduced by 55% and the level of TNF-α was decreased by 30%. Moreover, the total leucocytic count was significantly reduced from 9.05 × 103 to 7.8 × 103 cells/mm3. Based on our results, PPE showed both anti-coccidial, anti-inflammatory and anti-apoptotic activities. So it can be used in developing new herbal medicine against animal coccidiosis and may be suitable agent for treating eimeriosis associated inflammatory response.