Module Identifier BS33620  
Module Title CELL SIGNALLING AND RECOGNITION  
Academic Year 2004/2005  
Co-ordinator Dr Luis A J Mur  
Semester Semester 2  
Other staff , Dr Aileen R Smith, Dr H J Ougham, Dr I S Donnison, Professor Michael Young, Dr Neil F G Beck  
Pre-Requisite BS23020 , BS22320  
Course delivery Lecture   30 Hours  
Assessment
Assessment TypeAssessment Length/DetailsProportion
Semester Exam3 Hours theory paper 3 hour examination with essay style answers.70%
Semester Assessment Student presentation and poster 20% 2000 word essay 10%  30%
Supplementary Assessment3 Hours theory exam 3 hour examination with essay style answers for overall failed coursework.100%

Learning outcomes

On completion of this module the student should


Aims

One of the most important properties of cells in multicellular organisms is intercellular communication by small hydrophilic molecules. This is the major way to integrate the life and growth of higher organisms. These are so complex that there must be a myriad of signals, receptors and cascades. There is, however, a relatively small number of major systems. The aim of this module is to explain the principal features of these pathways by reference to six topics of significant common interest to biologists. The objective is to highlight the common theme of signal reception, membrane transduction, initiation of cascades and downstream regulation of cellular processes.

Content

The aim and objective will be met by considering the following representative topics:

Mitogenesis. Mitogenic signalling via receptor tyrosine kinases (RTKs) will be examined, discussing RTK activation, what role this plays in recruitment, via adaptor proteins, of downstream signalling mediators (p21ras and phospholipase C), how these components trigger kinase cascades and ultimately how transcription factor activity is modulated.
Hormones and metabolism. Structure of receptors for insulin, insulin-like growth factor and noradrenaline with the respective cytoplasmic RTK and G-protein cascades. For insulin, glucagon role of receptor-mediated endocytosis with recycling pathway between membrane and endosome with internalisation signals and modulation. Protein kinase cascades (and modulating phosphatases) to change glycogen and glycolytic metabolism with resulting effects on cells.
Key signalling cascades in the inflammatory response. The signalling cascade associated with major inflammatory cytokine, interleukin-1 (IL-1) leading to activation of NF-kB transcription factor and phospholipase A2 leading the synthesis of prostaglandins will be described. These pathways will be used to illustrate the suppressive effects of glucocorticoid steroids and analgesic drugs.
Movement and Adhesion. Critical role of integrin transduction at the membrane for signalling to involve small GTPase Rho and MAP kinase with downstream effect on cytoskeleton and initiate whole cell and localised movement. Rho also regulates cell-extracellular matrix and cell-cell adhesion. Control movement and adhesion by association of integrins with transmembrane syndecans and cadherins with the cytoskeleton.
Calcium. Signalling via calcium depends on the maintaining a steep concentration gradient between calcium stores and the cytosol. We shall examine how this gradient is established, how calcium flux is regulated, and how changes in calcium concentration are 'detected' by proteins such as calmodulin. Techniques in calcium research will also be discussed.
Light quality as a developmental cue in plants. The phytochrome family of photoreceptors monitor the quality and quantity of light to regulate e.g. chloroplast development, growth patterns and flowering. This is dependent on phytochrome "switching" between inactive (Pr) and active (Pfr) forms in response to far-red, and red light wavelengths respectively. The diverse actions of Pfr will be considered in detail as an introduction to signalling in plants.

Reading Lists

Books
** Multiple Copies In Hugh Owen
Heldin, C-H. & Purton, M. (1996) Signal transduction Modular texts in molecular and cell biology. London, Chapman & Hall.

Notes

This module is at CQFW Level 6