Janine C. Harris scite author profile

Although garlic has been used for its medicinal properties for thousands of years, investigations into its mode of action are relatively recent. Garlic has a wide spectrum of actions; not only is it antibacterial, antiviral, antifungal and antiprotozoal, but it also has beneficial effects on the cardiovascular and immune systems. Resurgence in the use of natural herbal alternatives has brought the use of medicinal plants to the forefront of pharmacological investigations, and many new drugs are being discovered. This review aims to address the historical use of garlic and its sulfur chemistry, and to provide a basis for further research into its antimicrobial properties.

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Giardia intestinalis, a eukaryote without hydrogenosomes, produces hydrogen

Lloyd

Ralphs

Harris

2002

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The microaerophilic flagellated protist Giardia intestinalis, the commonest protozoal agent of intestinal infections worldwide, is of uncertain phylogeny, but is usually regarded as the earliest branching of the eukaryotic clades. Under strictly anaerobic conditions, a mass spectrometric investigation of gas production indicated a low level of generation of dihydrogen (2 nmol min N1 per 10 7 organisms), about 10-fold lower than that in Trichomonas vaginalis under similar conditions. Hydrogen evolution was O 2 sensitive, and inhibited by 100 µM metronidazole. Fluorescent labelling of G. intestinalis cells using monoclonal antibodies to typical hydrogenosomal enzymes from T. vaginalis (malate enzyme, and succinyl-CoA synthetase α and β subunits), and to the large-granule fraction (hydrogenosome-enriched, also from T. vaginalis) gave no discrete localization of epitopes. Cell-free extracts prepared under anaerobic conditions showed the presence of a CO-sensitive hydrogenase activity. This first report of hydrogen production in a eukaryote with no recognizable hydrogenosomes raises further questions about the early branching status of G. intestinalis ; the physiological characterization of its hydrogenase, and its recently elucidated gene sequence, will aid further phylogenetic investigations.

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The microaerophilic flagellate Giardia intestinalis: Allium sativum (garlic) is an effective antigiardial

Harris

Plummer

Turner

et al. 2000

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Whole garlic (Allium sativum L.) extract and some of its components were assayed for antigiardial activity. Whole garlic extract gave an IC 50 at 24 h of 03 mg ml N1 . Most of the components assayed were inhibitory to the organism, especially allyl alcohol and allyl mercaptan, with IC 50 values of 7 µg ml N1 and 37 µg ml N1 respectively. Studies with calcofluor white indicated that whole garlic and allyl alcohol collapse the transmembrane electrochemical membrane potential (∆ψ) of the organism, as indicated by uptake of the fluorochrome. Electron microscopy allowed the morphological changes that occur with garlic inhibition to be recorded. Both the surface topography and internal architecture of the organism changed during incubation with the biocides. Both whole garlic and allyl alcohol resulted in fragmentation of the disc and an overexpression of disc microribbons, internalization of flagella, vacuole formation and an increase in distended vesicles. Allyl mercaptan, however, only gave an increase in distended vesicles, suggesting that this biocide has a different mode of action.

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The microaerophilic flagellate Giardia intestinalis: oxygen and its reaction products collapse membrane potential and cause cytotoxicity

Lloyd

Harris

Maroulis

et al. 2000

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Giardia: highly evolved parasite or early branching eukaryote?

Lloyd

Harris

2002

Trends in Microbiology

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Janine C. Harris

Antimicrobial properties of Allium sativum (garlic)

Giardia intestinalis, a eukaryote without hydrogenosomes, produces hydrogen

The microaerophilic flagellate Giardia intestinalis: Allium sativum (garlic) is an effective antigiardial

The microaerophilic flagellate Giardia intestinalis: oxygen and its reaction products collapse membrane potential and cause cytotoxicity

Giardia: highly evolved parasite or early branching eukaryote?

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