Chemotaxis, chemokine receptors and human disease

doi:10.1016/j.cyto.2008.06.017

Review

. 2008 Oct;44(1):1-8.

doi: 10.1016/j.cyto.2008.06.017. Epub 2008 Aug 21.

Chemotaxis, chemokine receptors and human disease

Tian Jin¹, Xuehua Xu, Dale Hereld

Affiliations

Affiliation

¹ Chemotaxis Signal Section, Laboratory of Immunogenetics, National Institute of Allergy and Infectious Diseases, NIH, Twinbrook II Facility, 12441 Parklawn Drive, Rockville, MD 20852, USA. tjin@niaid.nih.gov

PMID: 18722135
PMCID: PMC2613022
DOI: 10.1016/j.cyto.2008.06.017

Review

Chemotaxis, chemokine receptors and human disease

Tian Jin et al. Cytokine. 2008 Oct.

. 2008 Oct;44(1):1-8.

doi: 10.1016/j.cyto.2008.06.017. Epub 2008 Aug 21.

Authors

Tian Jin¹, Xuehua Xu, Dale Hereld

Affiliation

¹ Chemotaxis Signal Section, Laboratory of Immunogenetics, National Institute of Allergy and Infectious Diseases, NIH, Twinbrook II Facility, 12441 Parklawn Drive, Rockville, MD 20852, USA. tjin@niaid.nih.gov

PMID: 18722135
PMCID: PMC2613022
DOI: 10.1016/j.cyto.2008.06.017

Abstract

Cell migration is involved in diverse physiological processes including embryogenesis, immunity, and diseases such as cancer and chronic inflammatory disease. The movement of many cell types is directed by extracellular gradients of diffusible chemicals. This phenomenon, referred to as "chemotaxis", was first described in 1888 by Leber who observed the movement of leukocytes toward sites of inflammation. We now know that a large family of small proteins, chemokines, serves as the extracellular signals and a family of G-protein-coupled receptors (GPCRs), chemokine receptors, detects gradients of chemokines and guides cell movement in vivo. Currently, we still know little about the molecular machineries that control chemokine gradient sensing and migration of immune cells. Fortunately, the molecular mechanisms that control these fundamental aspects of chemotaxis appear to be evolutionarily conserved, and studies in lower eukaryotic model systems have allowed us to form concepts, uncover molecular components, develop new techniques, and test models of chemotaxis. These studies have helped our current understanding of this complicated cell behavior. In this review, we wish to mention landmark discoveries in the chemotaxis research field that shaped our current understanding of this fundamental cell behavior and lay out key questions that remain to be addressed in the future.

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Figures

**Figure 1**
(A) A model of a chemokine GPCR-mediated signaling network. (B) In a chemoattractant gradient, the polarized cells migrate toward higher chemoattractant concentration (indicated by the intensity of red color). The actin cytoskeleton, which drives extension of leading pseudopods, is indicated by green. F, front; B, back.

**Figure 2**
(A) The gradient sensing machinery can be studied in the absence of cell polarity and motility. When treated with latrunculin, a chemotaxing cell becomes non-polar and non-mobile. (B) The latrunculin-treated cells generate a directional biochemical response by forming PH-GFP (green) crescents toward the cAMP gradient (red). (C) A model of the cAMP receptor-mediated gradient sensing machinery that controls PIP₃ levels on the cell membrane.

**Figure 3**
Actin and myosin assemblies at the leading and trailing ends of a chemotaxing cell. At the front, chemokine receptor coupled with heterotrimeric G-protein controls an actin network that includes Arp2/3, WASp/Scars, CARMIL, myosin I and ADF/cofilin. At the back and sides, the receptor and G-proteins regulate actin/myosin II complexes.

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References

1. Leber T. Über die Entstehung der Entzündung und die Wirkung der entzündungserregenden Schädlichkeiten. Fortschr Med. 1888;6:460–464.
1. McCutcheon M. Chemotaxis in leukocytes. Physiological Reviews. 1946;26:319–410. - PubMed
1. Bonner JT. Evidence for the formation of cell aggregates by chemotaxis in the development of the slime mold Dictyostelium discoideum. J Exp Zool. 1947;106:1–26. - PubMed
1. Jin T, Hereld D. Moving toward understanding eukaryotic chemotaxis. Eur J Cell Biol. 2006;85:905–913. - PubMed
1. Koizumi K, Hojo S, Akashi T, Yasumoto K, Saiki I. Chemokine receptors in cancer metastasis and cancer cell-derived chemokines in host immune response. Cancer Sci. 2007;98:1652–1658. - PMC - PubMed

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[1] Leber T. Über die Entstehung der Entzündung und die Wirkung der entzündungserregenden Schädlichkeiten. Fortschr Med. 1888;6:460–464.

[2] Leber T. Über die Entstehung der Entzündung und die Wirkung der entzündungserregenden Schädlichkeiten. Fortschr Med. 1888;6:460–464.

[3] McCutcheon M. Chemotaxis in leukocytes. Physiological Reviews. 1946;26:319–410. - PubMed

[4] McCutcheon M. Chemotaxis in leukocytes. Physiological Reviews. 1946;26:319–410. - PubMed

[5] Bonner JT. Evidence for the formation of cell aggregates by chemotaxis in the development of the slime mold Dictyostelium discoideum. J Exp Zool. 1947;106:1–26. - PubMed

[6] Bonner JT. Evidence for the formation of cell aggregates by chemotaxis in the development of the slime mold Dictyostelium discoideum. J Exp Zool. 1947;106:1–26. - PubMed

[7] Jin T, Hereld D. Moving toward understanding eukaryotic chemotaxis. Eur J Cell Biol. 2006;85:905–913. - PubMed

[8] Jin T, Hereld D. Moving toward understanding eukaryotic chemotaxis. Eur J Cell Biol. 2006;85:905–913. - PubMed

[9] Koizumi K, Hojo S, Akashi T, Yasumoto K, Saiki I. Chemokine receptors in cancer metastasis and cancer cell-derived chemokines in host immune response. Cancer Sci. 2007;98:1652–1658. - PMC - PubMed

[10] Koizumi K, Hojo S, Akashi T, Yasumoto K, Saiki I. Chemokine receptors in cancer metastasis and cancer cell-derived chemokines in host immune response. Cancer Sci. 2007;98:1652–1658. - PMC - PubMed

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Chemotaxis, chemokine receptors and human disease

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Chemotaxis, chemokine receptors and human disease

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