Co-operative suppression of inflammatory responses in human dendritic cells by plant proanthocyanidins and products from the parasitic nematode Trichuris suis

Institut for Veterinær- og Husdyrvidenskab

Co-operative suppression of inflammatory responses in human dendritic cells by plant proanthocyanidins and products from the parasitic nematode Trichuris suis

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

Standard

Co-operative suppression of inflammatory responses in human dendritic cells by plant proanthocyanidins and products from the parasitic nematode Trichuris suis. / Williams, Andrew R; Klaver, Elsenoor J; Laan, Lisa C; Ramsay, Aina; Fryganas, Christos; Difborg, Rolf; Kringel, Helene; Reed, Jess D; Mueller-Harvey, Irene; Skov, Søren; van Die, Irma; Thamsborg, Stig M.

I: Immunology, Bind 150, Nr. 3, 2017, s. 312-328.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

Harvard

Williams, AR, Klaver, EJ, Laan, LC, Ramsay, A, Fryganas, C, Difborg, R, Kringel, H, Reed, JD, Mueller-Harvey, I, Skov, S, van Die, I & Thamsborg, SM 2017, 'Co-operative suppression of inflammatory responses in human dendritic cells by plant proanthocyanidins and products from the parasitic nematode Trichuris suis', Immunology, bind 150, nr. 3, s. 312-328. https://doi.org/10.1111/imm.12687

APA

Williams, A. R., Klaver, E. J., Laan, L. C., Ramsay, A., Fryganas, C., Difborg, R., Kringel, H., Reed, J. D., Mueller-Harvey, I., Skov, S., van Die, I., & Thamsborg, S. M. (2017). Co-operative suppression of inflammatory responses in human dendritic cells by plant proanthocyanidins and products from the parasitic nematode Trichuris suis. Immunology, 150(3), 312-328. https://doi.org/10.1111/imm.12687

Vancouver

Williams AR, Klaver EJ, Laan LC, Ramsay A, Fryganas C, Difborg R o.a. Co-operative suppression of inflammatory responses in human dendritic cells by plant proanthocyanidins and products from the parasitic nematode Trichuris suis. Immunology. 2017;150(3):312-328. https://doi.org/10.1111/imm.12687

Author

Williams, Andrew R ; Klaver, Elsenoor J ; Laan, Lisa C ; Ramsay, Aina ; Fryganas, Christos ; Difborg, Rolf ; Kringel, Helene ; Reed, Jess D ; Mueller-Harvey, Irene ; Skov, Søren ; van Die, Irma ; Thamsborg, Stig M. / Co-operative suppression of inflammatory responses in human dendritic cells by plant proanthocyanidins and products from the parasitic nematode Trichuris suis. I: Immunology. 2017 ; Bind 150, Nr. 3. s. 312-328.

Bibtex

@article{70b63d9986e04ef58866a920f51a9084,

title = "Co-operative suppression of inflammatory responses in human dendritic cells by plant proanthocyanidins and products from the parasitic nematode Trichuris suis",

abstract = "Interactions between dendritic cells (DCs) and environmental, dietary and pathogen antigens play a key role in immune homeostasis and regulation of inflammation. Dietary polyphenols such as proanthocyanidins (PAC) may reduce inflammation, and we therefore hypothesized that PAC may suppress lipopolysaccharide (LPS) -induced responses in human DCs and subsequent T helper type 1 (Th1) -type responses in naive T cells. Moreover, we proposed that, because DCs are likely to be exposed to multiple stimuli, the activity of PAC may synergise with other bioactive molecules that have anti-inflammatory activity, e.g. soluble products from the helminth parasite Trichuris suis (TsSP). We show that PAC are endocytosed by monocyte-derived DCs and selectively induce CD86 expression. Subsequently, PAC suppress the LPS-induced secretion of interleukin-6 (IL-6) and IL-12p70, while enhancing secretion of IL-10. Incubation of DCs with PAC did not affect lymphocyte proliferation; however, subsequent interferon-γ production was markedly suppressed, while IL-4 production was unaffected. The activity of PAC was confined to oligomers (degree of polymerization ≥ 4). Co-pulsing DCs with TsSP and PAC synergistically reduced secretion of tumour necrosis factor-α, IL-6 and IL-12p70 while increasing IL-10 secretion. Moreover, both TsSP and PAC alone induced Th2-associated OX40L expression in DCs, and together synergized to up-regulate OX40L. These data suggest that PAC induce an anti-inflammatory phenotype in human DCs that selectively down-regulates Th1 response in naive T cells, and that they also act cooperatively with TsSP. Our results indicate a novel interaction between dietary compounds and parasite products to influence immune function, and may suggest that combinations of PAC and TsSP can have therapeutic potential for inflammatory disorders.",

author = "Williams, {Andrew R} and Klaver, {Elsenoor J} and Laan, {Lisa C} and Aina Ramsay and Christos Fryganas and Rolf Difborg and Helene Kringel and Reed, {Jess D} and Irene Mueller-Harvey and S{\o}ren Skov and {van Die}, Irma and Thamsborg, {Stig M}",

note = "{\textcopyright} 2016 John Wiley & Sons Ltd.",

year = "2017",

doi = "10.1111/imm.12687",

language = "English",

volume = "150",

pages = "312--328",

journal = "Immunology",

issn = "0019-2805",

publisher = "Wiley-Blackwell",

number = "3",

}

RIS

TY - JOUR

T1 - Co-operative suppression of inflammatory responses in human dendritic cells by plant proanthocyanidins and products from the parasitic nematode Trichuris suis

AU - Williams, Andrew R

AU - Klaver, Elsenoor J

AU - Laan, Lisa C

AU - Ramsay, Aina

AU - Fryganas, Christos

AU - Difborg, Rolf

AU - Kringel, Helene

AU - Reed, Jess D

AU - Mueller-Harvey, Irene

AU - Skov, Søren

AU - van Die, Irma

AU - Thamsborg, Stig M

PY - 2017

Y1 - 2017

N2 - Interactions between dendritic cells (DCs) and environmental, dietary and pathogen antigens play a key role in immune homeostasis and regulation of inflammation. Dietary polyphenols such as proanthocyanidins (PAC) may reduce inflammation, and we therefore hypothesized that PAC may suppress lipopolysaccharide (LPS) -induced responses in human DCs and subsequent T helper type 1 (Th1) -type responses in naive T cells. Moreover, we proposed that, because DCs are likely to be exposed to multiple stimuli, the activity of PAC may synergise with other bioactive molecules that have anti-inflammatory activity, e.g. soluble products from the helminth parasite Trichuris suis (TsSP). We show that PAC are endocytosed by monocyte-derived DCs and selectively induce CD86 expression. Subsequently, PAC suppress the LPS-induced secretion of interleukin-6 (IL-6) and IL-12p70, while enhancing secretion of IL-10. Incubation of DCs with PAC did not affect lymphocyte proliferation; however, subsequent interferon-γ production was markedly suppressed, while IL-4 production was unaffected. The activity of PAC was confined to oligomers (degree of polymerization ≥ 4). Co-pulsing DCs with TsSP and PAC synergistically reduced secretion of tumour necrosis factor-α, IL-6 and IL-12p70 while increasing IL-10 secretion. Moreover, both TsSP and PAC alone induced Th2-associated OX40L expression in DCs, and together synergized to up-regulate OX40L. These data suggest that PAC induce an anti-inflammatory phenotype in human DCs that selectively down-regulates Th1 response in naive T cells, and that they also act cooperatively with TsSP. Our results indicate a novel interaction between dietary compounds and parasite products to influence immune function, and may suggest that combinations of PAC and TsSP can have therapeutic potential for inflammatory disorders.

AB - Interactions between dendritic cells (DCs) and environmental, dietary and pathogen antigens play a key role in immune homeostasis and regulation of inflammation. Dietary polyphenols such as proanthocyanidins (PAC) may reduce inflammation, and we therefore hypothesized that PAC may suppress lipopolysaccharide (LPS) -induced responses in human DCs and subsequent T helper type 1 (Th1) -type responses in naive T cells. Moreover, we proposed that, because DCs are likely to be exposed to multiple stimuli, the activity of PAC may synergise with other bioactive molecules that have anti-inflammatory activity, e.g. soluble products from the helminth parasite Trichuris suis (TsSP). We show that PAC are endocytosed by monocyte-derived DCs and selectively induce CD86 expression. Subsequently, PAC suppress the LPS-induced secretion of interleukin-6 (IL-6) and IL-12p70, while enhancing secretion of IL-10. Incubation of DCs with PAC did not affect lymphocyte proliferation; however, subsequent interferon-γ production was markedly suppressed, while IL-4 production was unaffected. The activity of PAC was confined to oligomers (degree of polymerization ≥ 4). Co-pulsing DCs with TsSP and PAC synergistically reduced secretion of tumour necrosis factor-α, IL-6 and IL-12p70 while increasing IL-10 secretion. Moreover, both TsSP and PAC alone induced Th2-associated OX40L expression in DCs, and together synergized to up-regulate OX40L. These data suggest that PAC induce an anti-inflammatory phenotype in human DCs that selectively down-regulates Th1 response in naive T cells, and that they also act cooperatively with TsSP. Our results indicate a novel interaction between dietary compounds and parasite products to influence immune function, and may suggest that combinations of PAC and TsSP can have therapeutic potential for inflammatory disorders.

U2 - 10.1111/imm.12687

DO - 10.1111/imm.12687

M3 - Journal article

C2 - 27905107

VL - 150

SP - 312

EP - 328

JO - Immunology

JF - Immunology

SN - 0019-2805

IS - 3

ER -

ID: 169990678