Glucose absorption by the bacillary band of Trichuris muris

Department of Veterinary and Animal Sciences

Glucose absorption by the bacillary band of Trichuris muris

Research output: Contribution to conference › Conference abstract for conference › Research

Standard

Glucose absorption by the bacillary band of Trichuris muris. / Hansen, Tina Vicky Alstrup; Denwood, Matt; Nejsum, Peter; Thamsborg, Stig Milan; Hansen, Michael; Mejer, Helena.

2016. Abstract from Joint Spring Symposium of the Danish Society for Parasitology & Danish Society for Tropical Medicine and International Health, Copenhagen, Denmark, April., Frederiksberg, Denmark.

Research output: Contribution to conference › Conference abstract for conference › Research

Harvard

Hansen, TVA, Denwood, M, Nejsum, P, Thamsborg, SM, Hansen, M & Mejer, H 2016, 'Glucose absorption by the bacillary band of Trichuris muris', Joint Spring Symposium of the Danish Society for Parasitology & Danish Society for Tropical Medicine and International Health, Copenhagen, Denmark, April., Frederiksberg, Denmark, 01/04/2016 - 01/04/2016.

APA

Hansen, T. V. A., Denwood, M., Nejsum, P., Thamsborg, S. M., Hansen, M., & Mejer, H. (2016). Glucose absorption by the bacillary band of Trichuris muris. Abstract from Joint Spring Symposium of the Danish Society for Parasitology & Danish Society for Tropical Medicine and International Health, Copenhagen, Denmark, April., Frederiksberg, Denmark.

Vancouver

Hansen TVA, Denwood M, Nejsum P, Thamsborg SM, Hansen M, Mejer H. Glucose absorption by the bacillary band of Trichuris muris. 2016. Abstract from Joint Spring Symposium of the Danish Society for Parasitology & Danish Society for Tropical Medicine and International Health, Copenhagen, Denmark, April., Frederiksberg, Denmark.

Author

Hansen, Tina Vicky Alstrup ; Denwood, Matt ; Nejsum, Peter ; Thamsborg, Stig Milan ; Hansen, Michael ; Mejer, Helena. / Glucose absorption by the bacillary band of Trichuris muris. Abstract from Joint Spring Symposium of the Danish Society for Parasitology & Danish Society for Tropical Medicine and International Health, Copenhagen, Denmark, April., Frederiksberg, Denmark.

Bibtex

@conference{bffa53b23ae84f27bed47d973f7ef9c0,

title = "Glucose absorption by the bacillary band of Trichuris muris",

abstract = "Background: A common characteristic of Trichuris spp. infections in humans and animals is a low to varied efficacy of single-dose benzimidazoles, used in mass drug administration programmes against human trichuriasis. The bacillary band, a specialised morphological structure of Trichuris spp., as well as the unique partly intra- and extracellular habitat of adult Trichuris spp., may be involved in restricted drug absorption, resulting in a low drug accumulation. However, the function of the bacillary band is still unknown.Methodology: We studied whether adult worms of T. muris were dependent on glucose and/or amino acids for survival in vitro and if the bacillary band has an absorptive function. The viability of the worms was evaluated microscopically using a motility scale from 0 - 3, and by measuring emission in response to metabolic activity utilizing the colorimetric assay Alamar Blue. The absorptive function of the bacillary band was explored using a fluorescent glucose analogue (6-NBDG) detected in the living worms by confocal microscopy. To exclude oral ingestion of 6-NBDG, the oral cavity of T. muris worms was sealed.Principal Findings: Adult worms of T. muris incubated in media devoid of glucose were immotile after 17 hours incubation and generated an emission signal similar to controls (RPMI media without worms). The fluorescent glucose analogue was detected in the pores of the bacillary band and accumulated inside the worms, primarily within the stichocytes in living worms with and without a sealed oral cavity.Conclusions/Significance: The whipworm T. muris is dependent on glucose for survival in vitro, and the bacillary band has an absorptive function in relation to the glucose analogue 6-NBDG which accumulates within the stichocytes of the worms. This new insight into the absorptive function of the bacillary band may encourage for further explorations of the bacillary band in relation to anthelmintics.",

author = "Hansen, {Tina Vicky Alstrup} and Matt Denwood and Peter Nejsum and Thamsborg, {Stig Milan} and Michael Hansen and Helena Mejer",

year = "2016",

month = apr,

day = "1",

language = "English",

note = "null ; Conference date: 01-04-2016 Through 01-04-2016",

}

RIS

TY - ABST

T1 - Glucose absorption by the bacillary band of Trichuris muris

AU - Hansen, Tina Vicky Alstrup

AU - Denwood, Matt

AU - Nejsum, Peter

AU - Thamsborg, Stig Milan

AU - Hansen, Michael

AU - Mejer, Helena

PY - 2016/4/1

Y1 - 2016/4/1

N2 - Background: A common characteristic of Trichuris spp. infections in humans and animals is a low to varied efficacy of single-dose benzimidazoles, used in mass drug administration programmes against human trichuriasis. The bacillary band, a specialised morphological structure of Trichuris spp., as well as the unique partly intra- and extracellular habitat of adult Trichuris spp., may be involved in restricted drug absorption, resulting in a low drug accumulation. However, the function of the bacillary band is still unknown.Methodology: We studied whether adult worms of T. muris were dependent on glucose and/or amino acids for survival in vitro and if the bacillary band has an absorptive function. The viability of the worms was evaluated microscopically using a motility scale from 0 - 3, and by measuring emission in response to metabolic activity utilizing the colorimetric assay Alamar Blue. The absorptive function of the bacillary band was explored using a fluorescent glucose analogue (6-NBDG) detected in the living worms by confocal microscopy. To exclude oral ingestion of 6-NBDG, the oral cavity of T. muris worms was sealed.Principal Findings: Adult worms of T. muris incubated in media devoid of glucose were immotile after 17 hours incubation and generated an emission signal similar to controls (RPMI media without worms). The fluorescent glucose analogue was detected in the pores of the bacillary band and accumulated inside the worms, primarily within the stichocytes in living worms with and without a sealed oral cavity.Conclusions/Significance: The whipworm T. muris is dependent on glucose for survival in vitro, and the bacillary band has an absorptive function in relation to the glucose analogue 6-NBDG which accumulates within the stichocytes of the worms. This new insight into the absorptive function of the bacillary band may encourage for further explorations of the bacillary band in relation to anthelmintics.

AB - Background: A common characteristic of Trichuris spp. infections in humans and animals is a low to varied efficacy of single-dose benzimidazoles, used in mass drug administration programmes against human trichuriasis. The bacillary band, a specialised morphological structure of Trichuris spp., as well as the unique partly intra- and extracellular habitat of adult Trichuris spp., may be involved in restricted drug absorption, resulting in a low drug accumulation. However, the function of the bacillary band is still unknown.Methodology: We studied whether adult worms of T. muris were dependent on glucose and/or amino acids for survival in vitro and if the bacillary band has an absorptive function. The viability of the worms was evaluated microscopically using a motility scale from 0 - 3, and by measuring emission in response to metabolic activity utilizing the colorimetric assay Alamar Blue. The absorptive function of the bacillary band was explored using a fluorescent glucose analogue (6-NBDG) detected in the living worms by confocal microscopy. To exclude oral ingestion of 6-NBDG, the oral cavity of T. muris worms was sealed.Principal Findings: Adult worms of T. muris incubated in media devoid of glucose were immotile after 17 hours incubation and generated an emission signal similar to controls (RPMI media without worms). The fluorescent glucose analogue was detected in the pores of the bacillary band and accumulated inside the worms, primarily within the stichocytes in living worms with and without a sealed oral cavity.Conclusions/Significance: The whipworm T. muris is dependent on glucose for survival in vitro, and the bacillary band has an absorptive function in relation to the glucose analogue 6-NBDG which accumulates within the stichocytes of the worms. This new insight into the absorptive function of the bacillary band may encourage for further explorations of the bacillary band in relation to anthelmintics.

M3 - Conference abstract for conference

Y2 - 1 April 2016 through 1 April 2016

ER -

ID: 202479095