The immune-body cytokine network defines a social architecture of cell interactions

<p>Abstract</p> <p>Background</p> <p>Three networks of intercellular communication can be associated with cytokine secretion; one limited to cells of the immune system (immune cells), one limited to parenchymal cells of organs and tissues (body cells), and one involving...

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Main Authors: Alon Uri, Frankenstein Ziv, Cohen Irun R
Format: Article
Language:English
Published: BMC 2006-10-01
Series:Biology Direct
Online Access:http://www.biology-direct.com/content/1/1/32
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spelling doaj-ddcbd7089f87494d84268b07594ddc632020-11-24T21:33:52ZengBMCBiology Direct1745-61502006-10-01113210.1186/1745-6150-1-32The immune-body cytokine network defines a social architecture of cell interactionsAlon UriFrankenstein ZivCohen Irun R<p>Abstract</p> <p>Background</p> <p>Three networks of intercellular communication can be associated with cytokine secretion; one limited to cells of the immune system (immune cells), one limited to parenchymal cells of organs and tissues (body cells), and one involving interactions between immune and body cells (immune-body interface). These cytokine connections determine the inflammatory response to injury and subsequent healing as well as the biologic consequences of the adaptive immune response to antigens. We informatically probed the cytokine database to uncover the underlying network architecture of the three networks.</p> <p>Results</p> <p>We now report that the three cytokine networks are among the densest of complex networks yet studied, and each features a characteristic profile of specific three-cell motifs. Some legitimate cytokine connections are shunned (anti-motifs). Certain immune cells can be paired by their input-output positions in a cytokine architecture tree of five tiers: macrophages (MΦ) and B cells (BC) comprise the first tier; the second tier is formed by T helper 1 (Th1) and T helper 2 (Th2) cells; the third tier includes dendritic cells (DC), mast cells (MAST), Natural Killer T cells (NK-T) and others; the fourth tier is formed by neutrophils (NEUT) and Natural Killer cells (NK); and the Cytotoxic T cell (CTL) stand alone as a fifth tier. The three-cell cytokine motif architecture of immune system cells places the immune system in a super-family that includes social networks and the World Wide Web. Body cells are less clearly stratified, although cells involved in wound healing and angiogenesis are most highly interconnected with immune cells.</p> <p>Conclusion</p> <p>Cytokine network architecture creates an innate cell-communication platform that organizes the biologic outcome of antigen recognition and inflammation. Informatics sheds new light on immune-body systems organization.</p> <p>Reviewers</p> <p>This article was reviewed by Neil Greenspan, Matthias von Herrath and Anne Cooke.</p> http://www.biology-direct.com/content/1/1/32
collection DOAJ
language English
format Article
sources DOAJ
author Alon Uri
Frankenstein Ziv
Cohen Irun R
spellingShingle Alon Uri
Frankenstein Ziv
Cohen Irun R
The immune-body cytokine network defines a social architecture of cell interactions
Biology Direct
author_facet Alon Uri
Frankenstein Ziv
Cohen Irun R
author_sort Alon Uri
title The immune-body cytokine network defines a social architecture of cell interactions
title_short The immune-body cytokine network defines a social architecture of cell interactions
title_full The immune-body cytokine network defines a social architecture of cell interactions
title_fullStr The immune-body cytokine network defines a social architecture of cell interactions
title_full_unstemmed The immune-body cytokine network defines a social architecture of cell interactions
title_sort immune-body cytokine network defines a social architecture of cell interactions
publisher BMC
series Biology Direct
issn 1745-6150
publishDate 2006-10-01
description <p>Abstract</p> <p>Background</p> <p>Three networks of intercellular communication can be associated with cytokine secretion; one limited to cells of the immune system (immune cells), one limited to parenchymal cells of organs and tissues (body cells), and one involving interactions between immune and body cells (immune-body interface). These cytokine connections determine the inflammatory response to injury and subsequent healing as well as the biologic consequences of the adaptive immune response to antigens. We informatically probed the cytokine database to uncover the underlying network architecture of the three networks.</p> <p>Results</p> <p>We now report that the three cytokine networks are among the densest of complex networks yet studied, and each features a characteristic profile of specific three-cell motifs. Some legitimate cytokine connections are shunned (anti-motifs). Certain immune cells can be paired by their input-output positions in a cytokine architecture tree of five tiers: macrophages (MΦ) and B cells (BC) comprise the first tier; the second tier is formed by T helper 1 (Th1) and T helper 2 (Th2) cells; the third tier includes dendritic cells (DC), mast cells (MAST), Natural Killer T cells (NK-T) and others; the fourth tier is formed by neutrophils (NEUT) and Natural Killer cells (NK); and the Cytotoxic T cell (CTL) stand alone as a fifth tier. The three-cell cytokine motif architecture of immune system cells places the immune system in a super-family that includes social networks and the World Wide Web. Body cells are less clearly stratified, although cells involved in wound healing and angiogenesis are most highly interconnected with immune cells.</p> <p>Conclusion</p> <p>Cytokine network architecture creates an innate cell-communication platform that organizes the biologic outcome of antigen recognition and inflammation. Informatics sheds new light on immune-body systems organization.</p> <p>Reviewers</p> <p>This article was reviewed by Neil Greenspan, Matthias von Herrath and Anne Cooke.</p>
url http://www.biology-direct.com/content/1/1/32
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