Phytochemical analysis and antifungal property of Mallotus oppositifolius (Geiseler) Müll.Arg. (Euphorbiaceae)

The emergence of resistant fungi to available drugs highlights the need for new antifungal drugs. The present study aimed to evaluate the antifungal activity of the isolated compounds, fractions and crude extract from the leaf of Mallotus oppositifolius (Geiseler) Müll. Arg. Three pure compounds labelled 1-3 were isolated from the methylene chloride / methanol (1/1) extract of the leaf of this plant using chromatography techniques. These compounds were identified using analytical spectroscopic methods as betulinic acid (1), quercetine (2) and quercitin (3). The crude extract, fractions and compounds were tested against pathogenic yeasts (Candida albicans, Candida glabrata, Candida krusei) and dermatophytes (Trichophyton rubrum, Trichophyton soudanense, Microsporum audouinii, Microsporum langeronii) using agar well diffusion and dilution methods. The safety of the crude extract was studied on Wistar rats according to the WHO guidelines. The minimal inhibitory concentration (MIC) values ranged from 48 to 781 μg/ml against yeasts for crude extract and fractions, and 1.86 to 25000 μg/ml against dermatophytes for pure compounds, fractions and crude extract. The antifungal activity of pure compounds was not determined against yeasts. The crude extract of leaf was found to be safe in rat at up to 12 g/kg. The results achieved supported the traditional use of Mallotus oppositifolius leaf for the treatment of fungal infections.Keywords: Mallotus oppositifolius, antifungal activity, safety, phytochemical screening

Anti-yeast activity of extracts and fractions from Uvariodendron calophyllum (Annonaceae)

The resistance to available antifungals highlights the urgent need for innovative drugs to treat yeasts infections. This study aimed at evaluating the activity of extracts and fractions from Uvariodendron calophyllum against pathogenic yeasts. The ethanolic and aqueous extracts obtained by maceration were liquidliquid- partitioned using organic solvents and screened against isolates of Candida albicans, Candida glabrata, Candida parapsilosis, Cryptococcus neoformans and Candida albicans reference strains NR-29445, NR-29444, NR-29451, and NR-29450 from BEI Resources using the broth micro-dilution method. Time kill kinetic, inhibition of germ-tube, filamentation and chlamydosporulation, and biofilm formation were assessed using the best sub-fraction. Overall, the most interesting sub-fraction (FS: 237–253) showed an MIC value of 0.0625 mg/mL with cidal effect against C. albicans NR-29450 and NR-29445 at 0.25 mg/mL after 12-16 hours and 24 hours respectively. Moderate inhibitory effects were observed at 0.25 mg/mL against germ-tube formation, filamentation and chlamydosporulation of all C. albicans strains. Also, very moderate inhibition of biofilm formation by C. albicans NR-29450 at 0.25 mg/mL was obtained. The results obtained support U. calophyllum as a potential source of compounds with anti-yeast activity. Further studies will confirm its potential as source of anti-yeast drugs.© 2015 International Formulae Group. All rights reserved.Keywords: Uvariodendron calophyllum, anti-yeasts activity, time kill kinetics, biofil

The Mechanisms of Bacterial Biofilm Inhibition and Eradication: The Search for Alternative Antibiofilm Agents

Biofilms are a community of microorganisms with accretions of their extracellular matrix that attach both to biological or non-biological surfaces, conferring a significant and incompletely understood mode of growth for bacteria. Biofilm formation represents a protected mode of growth of bacteria that allows cells to survive in hostile environments, facilitating the colonization of new areas. This biofilm formation appears to be produced by microorganisms to resist drug action, causing them to become resistant. Therefore, the search for alternative agents is necessary to counteract and reduce this production, creating suitable drugs against these biofilms. Natural products from medicinal plants possess an array of secondary metabolites and bioactive compounds that could have bioactive potentials that inhibit and eradicate biofilms

Bacterial Biofilm Eradication in Human Infections

Microbial biofilms are elaborate and highly resistant aggregates formed on surfaces or medical devices, causing two-thirds of infections and leading to a serious threat to public health. Their presence increases the rate of infections and mortality in the affected individuals. The strategies and eradication patterns are necessary to be established or implemented to eliminate them in human beings. This chapter highlights recent approaches for combating bacterial biofilms, including the methods used by promising antibiofilm compounds to enhance the total elimination of bacterial biofilms involved in some specific human infections. Biofilms must be eradicated to ensure efficient treatment of the infections

Antifungal Compounds from Microbial Symbionts Associated with Aquatic Animals and Cellular Targets: A Review

Fungal infections continue to be a serious public health problem, leading to an estimated 1.6 million deaths annually. It remains a major cause of mortality for people with a weak or affected immune system, such as those suffering from cancer under aggressive chemotherapies. On the other hand, pathogenic fungi are counted among the most destructive factors affecting crops, causing a third of all food crop losses annually and critically affecting the worldwide economy and food security. However, the limited number currently available and the cytotoxicity of the conventional antifungal drugs, which are not yet properly diversified in terms of mode of action, in addition to resistance phenomena, make the search for new antifungals imperative to improve both human health and food protection. Symbiosis has been a crucial alternative for drug discovery, through which many antimicrobials have been discovered. This review highlights some antifungal models of a defensive symbiosis of microbial symbiont natural products derived from interacting with aquatic animals as one of the best opportunities. Some recorded compounds with supposed novel cell targets such as apoptosis could lead to the development of a multitherapy involving the mutual treatment of fungal infections and other metabolic diseases involving apoptosis in their pathogenesis pathways

Ethnobotanical survey of medicinal plants used as insects repellents in six malaria endemic localities of Cameroon

Abstract Background The combined efforts to combat outdoor/indoor transmission of malaria parasites are hampered by the emerging vector resistance in a wide variety of malaria-endemic settings of Africa and the rest of the world, stressing the need for alternative control measures. This study aimed at documenting insect’s repellent plant species used by indigenous populations of 6 localities of East, South, West and Centre regions of Cameroon. Methods Information was gathered through face-to-face interviews guided by a semi-structured questionnaire on the knowledge of medicinal plants with insect repellent properties. Results A total of 182 informants aged from 25 to 75 years were recruited by convenience from May to June 2015. The informants had general knowledge about insects’ repellent plants (78.6%). A total of 16 plant species were recorded as insects’ repellents with 50% being trees. The most cited plants were Canarium schweinfurthii (Burseraceae) (in four localities, 58/182), Elaeis guineensis (Arecaceae) (in three localities, 38/182), Chromolaena odorata (Compositae) (16/182) and Citrus limon (Rutaceae) (11/182) in two localities each. Among the repellent plant species recorded, 50% were reported to be burnt to produce in-house smokes, 31.2% were mashed and applied on the body, and 18.8% were hung in the houses. The leaf was the most commonly used plant part (52.9%), followed by the bark (17.6%). Conclusions This study has shown that rural populations of the 6 targeted localities possess indigenous knowledge on repellent plants that are otherwise cost-effective and better choice for repelling insects including malaria-transmitting mosquitoes. Meanwhile, such practices should be validated experimentally and promoted as sustainable malaria transmission control tools in the remotely located communities

Potent and Synergistic Extract Combinations from Terminalia Catappa, Terminalia Mantaly and Monodora tenuifolia Against Pathogenic Yeasts

Mycoses caused by Candida and Cryptococcus species, associated with the advent of antifungal drug resistance have emerged as major health problems. Improved control measures and innovative therapies are needed. This paper describes results from the screening of bio-guided fractionated extracts alone and combinations of Terminalia catappa, Terminalia mantaly and Monodora tenuifolia harvested in Cameroon. Crude ethanolic, hydro-ethanolic and aqueous extracts and bio-guided fractions were screened for antifungal activity against isolates of C. albicans, C. glabrata, C. parapsilosis and Cr. neoformans and the reference strain C. albicans NR-29450. Minimal inhibitory concentrations (MIC) were determined using a broth micro dilution method according to the Clinical & Laboratory Standards Institute (CLSI). Time kill kinetics of extracts alone and in combination were also evaluated. Extracts from T. mantaly stem bark were the most active with the best MIC values ranging from 0.04 mg/mL to 0.16 mg/mL. Synergistic interactions were observed with combinations of sub-fractions from M. tenuifolia, T. mantaly and T. catappa. Combination of sub-fractions from M. tenuifolia and T. mantaly (C36/C12) showed synergistic interaction and fungicidal effect against four out of five tested yeasts. These results support further investigation of medicinal plant extracts alone and in combination as starting points for the development of alternative antifungal therapy

Assessing the Prevalence of Astroviruses in Water Environments: A Systematic Review and Meta-analysis

Astroviruses (AstVs) are a major cause of gastroenteritis, especially in children. They can be transmitted through various pathways, including environmental contamination via water matrices. This study aimed to investigate the prevalence of AstV in different types of water, such as untreated and treated wastewater, surface water (e.g., rivers, lakes, and seawater), groundwater, drinking water, and other water matrices (e.g., irrigation water, gray water, reservoir water, floodwater, and pig slaughterhouse effluents). The meta-analysis included 80 articles, and the overall prevalence of AstV in water matrices was 36.6% [95% confidence interval (CI) of 29.6-44.0]. The highest prevalence was found in untreated wastewater at 56.8% (95% CI of 41.5-71.5), followed by treated wastewater at 48.5% (95% CI of 30.6-66.5), surface water at 28.6% (95% CI of 21.1-36.7), other matrices at 9.8% (95% CI of 0.7-25.3), drinking water at 3.3% (95% CI of 0.2-8.7), and groundwater at 0.5% (95% CI of 0.0-3.4). The most frequent AstVs detected in water environments were human AstVs, but canine and feline AstVs were also detected. Our findings highlight the importance of water as a potential route for AstV transmission, even in high-income countries. Effective water surveillance and treatment measures are necessary to minimize AstV environmental circulation and human infection through water