Hanne Colding scite author profile

Regulated K ؉ transport across the plasma membrane is of vital importance for the survival of most cells. Two K ؉ channels have been identified in the Plasmodium falciparum genome; however, their functional significance during parasite life cycle in the vertebrate host and during transmission through the mosquito vector remains unknown. We hypothesize that these two K ؉ channels mediate the transport of K ؉ in the parasites, and thus are important for parasite survival. To test this hypothesis, we identified the orthologue of one of the P. falciparum K ؉ channels, PfKch1, in the rodent malaria parasite P. berghei (PbKch1) and examined the biological role by performing a targeted disruption of the gene encoding PbKch1. The deduced amino acid sequence of the six transmembrane domains of PfKch1 and PbKch1 share 82% identity, and in particular the pore regions are completely identical. The PbKch1-null parasites were viable despite a marked reduction in the uptake of the K ؉ congener 86 Rb ؉ , and mice infected with PbKch1-null parasites survived slightly longer than mice infected with WT parasites. However, the most striking feature of the phenotype was the virtually complete inhibition of the development of PbKch1-null parasites in Anopheles stephensi mosquitoes. In conclusion, these studies demonstrate that PbKch1 contributes to the transport of K ؉ in P. berghei parasites and supports the growth of the parasites, in particular the development of oocysts in the mosquito midgut. K ؉ channels therefore may constitute a potential antimalarial drug target. malaria ͉ pathogenesis ͉ mosquito ͉ drug target

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Antimicrobial susceptibility testing of 230 Helicobacter pylori strains: importance of medium, inoculum, and incubation time

Hartzen

Andersen

Bremmelgaard

et al. 1997

Antimicrob Agents Chemother

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No standardized method of susceptibility testing for Helicobacter pylori is currently available, so before a large agar dilution study comprising 230 H. pylori strains belonging to more than 80 genetically different groups was initiated, we performed a relatively small preliminary study to determine the influences of medium, inoculum density, and incubation time. Seven media were investigated and were primarily evaluated on the basis of their abilities to support growth both semiquantitatively and qualitatively; Iso-Sensitest agar supplemented with 10% horse blood was found to be well suited for the purpose; this was closely followed by Mueller-Hinton agar with 10% horse blood, Mueller-Hinton with 10% sheep blood, and finally, 7% lysed horse blood agar. Investigations of two inoculum densities and two incubation times resulted in recommendations for the use of 10(9) CFU/ml (10[6] CFU/spot) as the inoculum and 72 h as the incubation time. A modest inoculum effect was noted for amoxicillin and metronidazole. By the methodology derived from our preliminary study, the susceptibilities of 230 H. pylori strains to six antibiotics were subsequently determined. The results were generally in accord with those of others, and apart from metronidazole, the MIC of which for approximately 25% of the strains tested was >8 microg/ml, resistance was low in Denmark. The situation might, however, quickly change when and if the number of indications for antibiotic therapy for H. pylori infections increase. Consequently, susceptibility testing of all H. pylori strains is recommended in order to survey the development of resistance, and in our hands the described methodology was relatively easy to perform and the results were easy to read.

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Molecular cloning of a K+ channel from the malaria parasite Plasmodium falciparum

Ellekvist

Ricke

Litman

et al. 2004

Biochemical and Biophysical Research Communications

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Kinetics and dose calculations of amikacin in the newborn

Sardemann

Colding

Hendel

et al. 1976

Clin Pharma and Therapeutics

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The pharmacokinetics of a new aminoglycoside, amikacin, was evaluated in 37 infants between 1 and 34 days old. Fifteen were below 2,500 gm in weight. Initial studies, including intravenous infusion in some of the infants, indicated that the disposition of amikacin was best described by a 2 compartment model. The absorption was evaluated in 8 of the infants after intramuscular injection of 7.5 mg amikacin per kilogram of body weight. The absorption rate, estimated by the tmax, was significantly faster than reported in adults. The total body clearance and apparent volume of distribution were studied in 22 infants after the same dose of amikacin intramuscularly. The body clearance expressed in relation to body surface or body weight was significantly less than in adults and correlated with the postnatal age. No correlation could be demonstrated between clearance and gestational age or birth weight. The volume of distribution per kilogram was significantly greater than in adults. On the basis of the derived kinetic parameters, a dose schedule is presented. In 5 children there was a reasonable agreement between the measured and predicted serum levels.

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Hanne Colding

Critical role of a K ⁺ channel in Plasmodium berghei transmission revealed by targeted gene disruption

Antimicrobial susceptibility testing of 230 Helicobacter pylori strains: importance of medium, inoculum, and incubation time

Molecular cloning of a K+ channel from the malaria parasite Plasmodium falciparum

Kinetics and dose calculations of amikacin in the newborn

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Hanne Colding

Critical role of a K + channel in Plasmodium berghei transmission revealed by targeted gene disruption

Antimicrobial susceptibility testing of 230 Helicobacter pylori strains: importance of medium, inoculum, and incubation time

Molecular cloning of a K+ channel from the malaria parasite Plasmodium falciparum

Kinetics and dose calculations of amikacin in the newborn

Contact Info

Product

Resources

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Critical role of a K ⁺ channel in Plasmodium berghei transmission revealed by targeted gene disruption