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6 - Communication Systems in the Body

from PART 2 - PHYSIOLOGICAL PRINCIPLES

W. Mark Saltzman
W. Mark Saltzman
Affiliation:
Yale University, Connecticut
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Summary

LEARNING OBJECTIVES

After reading this chapter, you should:

  • Understand the concept of affinity of a ligand for its associated receptor.

  • Understand the principle of signal transduction, and how signals can be activated by ligand binding to a receptor.

  • Understand the role of action potentials in signaling within the nervous system.

  • Understand how protein and steroid hormones provide circulating signals in the endocrine system.

  • Understand the diverse roles of signaling within the immune system.

Prelude

Chapter 5 provided background on the structure and function of human cells, which are the main functional units of the body. Most cells are fully independent living entities, capable of consuming nutrients, growing, and functioning autonomously. The human body is a collection of trillions of cells and, amazingly, these units act in a coordinated fashion, so that people can walk (usually without bumping into walls), breathe (without consciously motivating each breath), and kill invading pathogens (without knowing that they are there). How is the operation of all of these cells coordinated? This chapter reviews how cells communicate with each other directly and through signaling molecules to relay signals from outside and inside the cell (Figure 6.1).

Cells communicate with each other directly or indirectly via molecules called ligands. In direct cell–cell communication, the ligands are bound to the surface of the cell. Soluble, diffusible ligands are used for communication between cells that are not physically connected or are separated by long distances.

Type
Chapter
Information
Biomedical Engineering
Bridging Medicine and Technology
 , pp. 205 - 246
Publisher: Cambridge University Press
Print publication year: 2009

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References

Alberts, B, Bray, D, Lewis, J, Raff, M, Roberts, K, Watson, JD. Molecular Biology of the Cell. 3rd ed. New York: Garland Publishing; 1994.Google Scholar
Berg, JM, Tymoczko, JL, Stryer, L. Biochemistry. New York: W. H. Freeman; 2002.Google Scholar
Cooper, GM. The Cell—A Molecular Approach. 2nd ed. Sunderland, MA: Sinauer Associates, Inc.; 2000.Google Scholar
Ganong, WF. Review of Medical Physiology. 21st ed. New York: McGraw Hill; 2003.Google Scholar
Lodish, H, Berk, A, Zipursky, SL, Matsudaira, P, Baltimore, D, Darnell, JE. Molecular Cell Biology. 4th ed. New York: W. H. Freeman & Co.; 2000.Google Scholar
Kandel, ER, Schwartz, JH, Jessell, TM, eds. Principles of Neural Science. 3rd ed. East Norwalk, CT: Appleton & Lange; 1991.
Matthews, GG. Neurobiology: Molecules, Cells, and Systems. 2nd ed. Malden, MA: Blackwell Science; 2001.Google Scholar
Siegel, GJ, Agranoff, BW, Albers, RW, Fisher, SK, Uhler, MD, eds. Basic Neurochemistry, Molecular, Cellular, and Medical Aspects. 6th ed. Philadelphia, PA: Lippincott, Williams & Wilkins; 1999.
Webster, RA, ed. Neurotransmitters, Drugs and Brain Function. New York: John Wiley & Sons; 2001.CrossRef
Aranda, A, Pascual, A. Nuclear hormone receptors and gene expression. Physiol Rev. 2001;81(3):1269–1304.CrossRefGoogle ScholarPubMed
Bast, RC, Kufe, DW, Pollock, RE, Weichselbaum, RR, Holland, JF, Frei, E, eds. Cancer Medicine. 5th ed. Hamilton, Canada: BC Decker Inc.; 2000.
Katzenellenbogen, BS, Choi, I, Delage-Mourroux, R, Ediger, TR, Martini, PG, Montano, M, et al. Molecular mechanisms of estrogen action: Selective ligands and receptor pharmacology. J Steroid Biochem Mol Biol. 2000;74(5):279–285.CrossRefGoogle ScholarPubMed
Nussey, SS, Whitehead, SA. Endocrinology: An Integrated Approach. Oxford, UK: BIOS Scientific Publishers, Ltd.; 2001.CrossRefGoogle Scholar
Nystrom, FH, Quon, MJ. Insulin signaling: Metabolic pathways and mechanisms for specificity. Cell Signal. 1999;11(8):563–574.CrossRefGoogle ScholarPubMed
Aaronson, DS, Horvath, CM. A road map for those who don't know JAK-STAT. Science. 2002;296(5573):1653–1655.CrossRefGoogle ScholarPubMed
Abul, KA, Lichtman, AH, Pober, JS. Cellular and Molecular Immunology. 4th ed. Philadelphia: W.B. Saunders; 2000.Google Scholar
Janeway, CA, Travers, P, Walport, M, Shlomchik, M. Immunobiology. 5th ed. New York and London: Garland Publishing; 2001.Google Scholar
Paul, WE. Fundamental Immunology. 5th ed. Philadelphia: Lippincott Williams & Wilkins; 2003.Google Scholar
Alberts, B, Bray, D, Lewis, J, Raff, M, Roberts, K, Watson, JD. Molecular Biology of the Cell. 3rd ed. New York: Garland Publishing; 1994.Google Scholar
Berg, JM, Tymoczko, JL, Stryer, L. Biochemistry. New York: W. H. Freeman; 2002.Google Scholar
Cooper, GM. The Cell—A Molecular Approach. 2nd ed. Sunderland, MA: Sinauer Associates, Inc.; 2000.Google Scholar
Ganong, WF. Review of Medical Physiology. 21st ed. New York: McGraw Hill; 2003.Google Scholar
Lodish, H, Berk, A, Zipursky, SL, Matsudaira, P, Baltimore, D, Darnell, JE. Molecular Cell Biology. 4th ed. New York: W. H. Freeman & Co.; 2000.Google Scholar
Kandel, ER, Schwartz, JH, Jessell, TM, eds. Principles of Neural Science. 3rd ed. East Norwalk, CT: Appleton & Lange; 1991.
Matthews, GG. Neurobiology: Molecules, Cells, and Systems. 2nd ed. Malden, MA: Blackwell Science; 2001.Google Scholar
Siegel, GJ, Agranoff, BW, Albers, RW, Fisher, SK, Uhler, MD, eds. Basic Neurochemistry, Molecular, Cellular, and Medical Aspects. 6th ed. Philadelphia, PA: Lippincott, Williams & Wilkins; 1999.
Webster, RA, ed. Neurotransmitters, Drugs and Brain Function. New York: John Wiley & Sons; 2001.CrossRef
Aranda, A, Pascual, A. Nuclear hormone receptors and gene expression. Physiol Rev. 2001;81(3):1269–1304.CrossRefGoogle ScholarPubMed
Bast, RC, Kufe, DW, Pollock, RE, Weichselbaum, RR, Holland, JF, Frei, E, eds. Cancer Medicine. 5th ed. Hamilton, Canada: BC Decker Inc.; 2000.
Katzenellenbogen, BS, Choi, I, Delage-Mourroux, R, Ediger, TR, Martini, PG, Montano, M, et al. Molecular mechanisms of estrogen action: Selective ligands and receptor pharmacology. J Steroid Biochem Mol Biol. 2000;74(5):279–285.CrossRefGoogle ScholarPubMed
Nussey, SS, Whitehead, SA. Endocrinology: An Integrated Approach. Oxford, UK: BIOS Scientific Publishers, Ltd.; 2001.CrossRefGoogle Scholar
Nystrom, FH, Quon, MJ. Insulin signaling: Metabolic pathways and mechanisms for specificity. Cell Signal. 1999;11(8):563–574.CrossRefGoogle ScholarPubMed
Aaronson, DS, Horvath, CM. A road map for those who don't know JAK-STAT. Science. 2002;296(5573):1653–1655.CrossRefGoogle ScholarPubMed
Abul, KA, Lichtman, AH, Pober, JS. Cellular and Molecular Immunology. 4th ed. Philadelphia: W.B. Saunders; 2000.Google Scholar
Janeway, CA, Travers, P, Walport, M, Shlomchik, M. Immunobiology. 5th ed. New York and London: Garland Publishing; 2001.Google Scholar
Paul, WE. Fundamental Immunology. 5th ed. Philadelphia: Lippincott Williams & Wilkins; 2003.Google Scholar

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