Cdc42 plays a key role in yeast cell polarization Chao Wang June 17, 2005.

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Presentation transcript:

Cdc42 plays a key role in yeast cell polarization Chao Wang June 17, 2005

Cell division Polarization Small GTPases Cdc42 SGD Description: Small rho-like GTPase, essential for establishment and maintenance of cell polarity; mutants have defects in the organization of actin and septins

Cdc42, a small GTPase of the Rho family, stands out as playing a central role in establishing cell polarity in all eukaryotic cells, irrespective of the biological context. Two fundamental questions: –How can a diverse set of polarization signals regulate Cdc42 ? –How can this small molecule control the multiple cellular activities required for cell polarization ?

Outline Cell polarization requires Cdc42 activity Spatial and temporal control of Cdc42p activity Cdc42p activates multiple polarity pathways

Cell polarization requires Cdc42 activity In the absence of Cdc42p, cell growth is no longer polarized but instead gives rise to large, round, unbudded cells. A GTP-bound state and a GDP-bound state. Cdc42-GTP levels can be regulated either positively by guanine nucleotide exchange factors (GEFs) or negatively by GTPase-activating proteins (GAPs). In yeast, Cdc24p is the major GEF controlling Cdc42p activity and cell polarization

Three important conclusions Cdc42p activation is both necessary and sufficient to promote spontaneous cell polarization Cdc42p activation must be restricted temporally and spatially In physiological conditions, Cdc42p function requires its ability to hydrolyse GTP

Spatial and temporal control of Cdc42p activity The local activation of Cdc42p at the presumptive growth site The spatial control of Cdc42p activity is also achieved by recruitment of Cdc42p itself to the site of polarized growth Mathematical simulations suggest that the local concentration of Cdc42p is generated by a stochastic increase of activated Cdc42p on plasma membrane sites and is amplified by a positive feedback loop

Cdc42p activates multiple polarity pathways Polarized cell growth is a complex process that requires the coordination of multiple cellular activities, including polarization of the actin and microtubule cytoskeletons and directed vesicle trafficking to deliver cell wall and plasma membrane components to the bud site

Cdc42p directly promotes the selforganization of septins, leading to the formation of a ring that demarcates the mother and the bud Actin structures accumulate at the bud site and, in budding yeast, these are responsible for most of the subsequent events associated with cell polarization Cdc42p not only regulates actin organization, but also directly regulates exocytosis. Polarization of the actin cytoskeleton also contributes to transport of cytoplasmic microtubules to the bud

Some general principles The localized activation of Cdc42, induced through various intrinsic or extrinsic signals The activation of multiple Cdc42 target proteins, leading to the co-ordinated regulation of cell functions The use of feedback loops involving Cdc42 effectors that tighten the spatial and temporal regulation of the polarization machinery.

The End