Dietary lectins and the immune response

Institut for Veterinær- og Husdyrvidenskab

Dietary lectins and the immune response

Publikation: Bidrag til bog/antologi/rapport › Bidrag til bog/antologi › Forskning › fagfællebedømt

Standard

Dietary lectins and the immune response. / Kjær, Tanja Maria Rosenkilde; Frøkiær, Hanne.

Reviews in Food and Nutrition Toxicity. CRC Press, 2005. s. 271-295.

Publikation: Bidrag til bog/antologi/rapport › Bidrag til bog/antologi › Forskning › fagfællebedømt

Harvard

Kjær, TMR & Frøkiær, H 2005, Dietary lectins and the immune response. i Reviews in Food and Nutrition Toxicity. CRC Press, s. 271-295.

APA

Kjær, T. M. R., & Frøkiær, H. (2005). Dietary lectins and the immune response. I Reviews in Food and Nutrition Toxicity (s. 271-295). CRC Press.

Vancouver

Kjær TMR, Frøkiær H. Dietary lectins and the immune response. I Reviews in Food and Nutrition Toxicity. CRC Press. 2005. s. 271-295

Author

Kjær, Tanja Maria Rosenkilde ; Frøkiær, Hanne. / Dietary lectins and the immune response. Reviews in Food and Nutrition Toxicity. CRC Press, 2005. s. 271-295

Bibtex

@inbook{b56e65308ce847e581ae6df5bfcf88c2,

title = "Dietary lectins and the immune response",

abstract = "Human food contains lectins, and lectins are therefore consumed in their native form when foods are eaten raw or when foods containing lectins that are heat stable are eaten. Because lectins are resistant to digestion, they reach the small intestine in an active form. Some lectins are toxic, giving rise to diarrhea, and have on a few occasions been found to cause death. Lectins have many biological activities as they bind to carbohydrate on various cells. Many receptors are membrane- integrated glycoproteins and function as receptors for hormones and cytokines or are involved in cell–cell recognition. By binding to these receptors, lectins may mimic a natural ligand of a receptor or inhibit binding of a natural ligand and thereby evoke a variety of systemic and local effects, such as cell division and growth, cell maturation, and cell death. The use of lectins in immunology as polyclonal activators has long been recognized as their binding to receptors on immune cells induces mitogenesis. Dietary lectins may be immunomodulatory and affect both the innate and the adaptive immune response. Some lectins are able to induce a lectin-specific immune response, while others function as adjuvants, giving rise to an immune response against coadministered proteins. Inflammatory cytokine production, oral tolerance, production of antibodies, and apoptosis are some of the immune functions influenced by dietary lectins. Dietary lectins might be involved in induction of diseases with an immunological background, such as allergy and autoimmune diseases. To exploit fully the effect of lectins on the immune function, further studies are required, especially in relation to diseases potentially related to the ingestion of lectins. Moreover, the potential use of lectins in cancer therapy and in drug and vaccine delivery systems clearly emphasize that further studies on the influence of lectins on the immune system are required.",

author = "Kj{\ae}r, {Tanja Maria Rosenkilde} and Hanne Fr{\o}ki{\ae}r",

note = "Publisher Copyright: {\textcopyright} 2005 by Taylor & Francis Group.",

year = "2005",

month = jan,

day = "1",

language = "English",

isbn = "0849335191",

pages = "271--295",

booktitle = "Reviews in Food and Nutrition Toxicity",

publisher = "CRC Press",

}

RIS

TY - CHAP

T1 - Dietary lectins and the immune response

AU - Kjær, Tanja Maria Rosenkilde

AU - Frøkiær, Hanne

PY - 2005/1/1

Y1 - 2005/1/1

N2 - Human food contains lectins, and lectins are therefore consumed in their native form when foods are eaten raw or when foods containing lectins that are heat stable are eaten. Because lectins are resistant to digestion, they reach the small intestine in an active form. Some lectins are toxic, giving rise to diarrhea, and have on a few occasions been found to cause death. Lectins have many biological activities as they bind to carbohydrate on various cells. Many receptors are membrane- integrated glycoproteins and function as receptors for hormones and cytokines or are involved in cell–cell recognition. By binding to these receptors, lectins may mimic a natural ligand of a receptor or inhibit binding of a natural ligand and thereby evoke a variety of systemic and local effects, such as cell division and growth, cell maturation, and cell death. The use of lectins in immunology as polyclonal activators has long been recognized as their binding to receptors on immune cells induces mitogenesis. Dietary lectins may be immunomodulatory and affect both the innate and the adaptive immune response. Some lectins are able to induce a lectin-specific immune response, while others function as adjuvants, giving rise to an immune response against coadministered proteins. Inflammatory cytokine production, oral tolerance, production of antibodies, and apoptosis are some of the immune functions influenced by dietary lectins. Dietary lectins might be involved in induction of diseases with an immunological background, such as allergy and autoimmune diseases. To exploit fully the effect of lectins on the immune function, further studies are required, especially in relation to diseases potentially related to the ingestion of lectins. Moreover, the potential use of lectins in cancer therapy and in drug and vaccine delivery systems clearly emphasize that further studies on the influence of lectins on the immune system are required.

AB - Human food contains lectins, and lectins are therefore consumed in their native form when foods are eaten raw or when foods containing lectins that are heat stable are eaten. Because lectins are resistant to digestion, they reach the small intestine in an active form. Some lectins are toxic, giving rise to diarrhea, and have on a few occasions been found to cause death. Lectins have many biological activities as they bind to carbohydrate on various cells. Many receptors are membrane- integrated glycoproteins and function as receptors for hormones and cytokines or are involved in cell–cell recognition. By binding to these receptors, lectins may mimic a natural ligand of a receptor or inhibit binding of a natural ligand and thereby evoke a variety of systemic and local effects, such as cell division and growth, cell maturation, and cell death. The use of lectins in immunology as polyclonal activators has long been recognized as their binding to receptors on immune cells induces mitogenesis. Dietary lectins may be immunomodulatory and affect both the innate and the adaptive immune response. Some lectins are able to induce a lectin-specific immune response, while others function as adjuvants, giving rise to an immune response against coadministered proteins. Inflammatory cytokine production, oral tolerance, production of antibodies, and apoptosis are some of the immune functions influenced by dietary lectins. Dietary lectins might be involved in induction of diseases with an immunological background, such as allergy and autoimmune diseases. To exploit fully the effect of lectins on the immune function, further studies are required, especially in relation to diseases potentially related to the ingestion of lectins. Moreover, the potential use of lectins in cancer therapy and in drug and vaccine delivery systems clearly emphasize that further studies on the influence of lectins on the immune system are required.

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M3 - Book chapter

AN - SCOPUS:33745823460

SN - 0849335191

SN - 9780849335198

SP - 271

EP - 295

BT - Reviews in Food and Nutrition Toxicity

PB - CRC Press

ER -

ID: 316998154