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Biology 624 - Developmental Genetics. Lecture #6 - Tube Formation I. Tube Formation is critical to forming: Lung Kidney Mammary gland Blood vessels Fly trachea C. elegans excretory system (1 cell!). From Nelson, 2003. There are three types of tubes: Multicellular
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Biology 624 - Developmental Genetics Lecture #6 - Tube Formation I
Tube Formation is critical to forming: Lung Kidney Mammary gland Blood vessels Fly trachea C. elegans excretory system (1 cell!) From Nelson, 2003
There are three types of tubes: Multicellular Unicellular, with autocellular junction Unicellular, seamless From Lubarsky and Krasnow, 2003
Processes of Tubulogenesis From Lubarsky and Krasnow, 2003
Processes of Tubulogenesis From Lubarsky and Krasnow, 2003
Cellular Processes involved in Tube Formation Cell-cell adhesion Cell migration Cell shape changes Lumen formation Cell division Cell death
Genetic Programs involved in Tube Formation From Nelson, 2003
MDCK Cells in Collagen Gels - HGF +HGF
MDCK in collagen forms a polarized cyst - how? Gp135 = apical, red b-catenin = basolateral, green From Zegers et al, 03
Drive for three surfaces model - epithelial cells try to establish apical, lateral, and basal domains From Zegers et al, 03
MDCK cyst formation requires Rac for proper orientation of polarity +dnRAC +dnRAC +Laminin From Zegers et al, 03
MDCK in collagen starts with a polarized cyst Gp135 = apical, red b-catenin = basolateral, green From Pollack et al, 98; Zegers et al, 03
Upon addition of HGF, some cells form an extension outward on their basolateral side E-cadherin, basolateral Gp135, apical From Pollack et al, 98
The extended cell divides, and cells in the extension express E-cadherin but not gp135 E-cadherin, basolateral Gp135, apical From Pollack et al, 98
As the lumen begins to reform in the extension, gp135 is re-expressed on the new apical surface E-cadherin, basolateral Gp135, apical From Pollack et al, 98 From Pollack et al, 98
As lumen formation continues, cells re-establish basolateral expression of E-cadherin E-cadherin, basolateral Gp135, apical From Pollack et al, 98
Model derived from this study: Stimulation of migration is the first step in tubulogenesis Apical/basal polarity is transiently lost and then restored Discontinuous lumens form in tubules Cell-cell contacts are retained throughout the process
Differential Regulation of Junctional Proteins During Tubulogenesis (same paper) Adherens junctions (E-cadherin) move around, and new ones are made ZO-1, a tight junction protein, is between apical and basolateral domains, and during extension is at cell-cell contact points Desmosome components dpI/II are in large intracellular pools during tubulogenesis
Apical membrane biogenesis is important For lumen formation in MDCK cells From Lubarsky and Krasnow, 03
Tube formation requires and stabilizes apical-basolateral polarity From Bryant and Mostov, 08
Tube formation requires and stabilizes apical-basolateral polarity From Bryant and Mostov, 08
MDCK tubulogenesis can be divided into stages with different molecular requirements Requires ERK activation Requires MMP activity From O’Brienet al, 04
MDCK tubulogenesis p-EMT requires ERK activation Nuclei=blue Actin = red From O’Brien et al, 04
MDCK tubulogenesis redifferentiation Requires MMP activity Nuclei=blue Actin = red From O’Brien et al, 04