02.24.10 Lecture 17 - Cell motility. The Range of Cell Movement Velocities of moving cells span more...
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Transcript of 02.24.10 Lecture 17 - Cell motility. The Range of Cell Movement Velocities of moving cells span more...
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02.24.10Lecture 17 - Cell motility
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The Range of Cell Movement
•Velocities of moving cells span more than 4 orders of magnitude
• Each cell has evolved the speed and mechanism of its migration to match:
•Developmental programs•The cell’s unique energy requirements•The way the cell acquires nutrients
• The direction of cell migration is usually not random...
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“-taxis” -Cell movement according to an environmental cue
•Can be an attracting or repelling signal
• Kinds of signals• Chemotaxis - soluble factor (molecule or protein)• Haptotaxis - same as chemotaxis, but the signal is immobilize on a surface• Durotaxis - rigidity of the cell’s substrate
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“-Taxis”, a form of cell signaling
1. Reception of signal
2. Transduction of signal
3. Cellular response
Cell motility towards or away from the
signal
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Cellular locomotion is an essential part of life for many organisms
Single celled protozoa - Dictyostelium discoideum
http://www.youtube.com/watch?v=VWGA7kIeE0Q
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Cellular locomotion is an essential part of life for many organisms
Single celled protozoa - Dictyostelium discoideum
http://www.youtube.com/watch?v=VWGA7kIeE0QMahadeo and Parent, 2006
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Embryonic development in animals
Movements of autonomous cells or specialized cellular structures
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Cellular locomotion is an essential part of life for many organisms
Early development - neurons migrating from their point of origin to their developmental destination
Later Development - Once the neurons have found their home within the cerebral cortex they send out axons that stretch into other parts of the brain
Chemoattractant
Chemorepellent
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8Lecaudey, et al., 2008
Cellular locomotion is an essential part of life for many organisms
Embryonic development in animals
Collective movement of groups of cells
How are cohorts of cells able to stay together as they migrate through tissue (also made of cells) and how do they know when (or if) they’re to come
apart?
Zebrafish cells
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Cellular locomotion is an essential part of life for many organisms
Wound healing and tissue remodeling
Cells sense the loss of epithelial integrity (neighbors) which triggers cell motility and gene transcription
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Cellular locomotion is an essential part of life for many organisms
Immune cells - Macrophages and Neutrophils
Migrate toward chemical signals from bacteria and other pathogens
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Cellular locomotion is an essential part of life for many organisms
Immune cells - Macrophages and Neutrophils
Migrate toward chemical signals from injured, inflamed, and dead tissue (called Necrotaxis)
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Cellular locomotion is an essential part of life for many organisms
Pollen Tube Growth
Required to transport non-motile sperm to ovule tissue QuickTime™ and a
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Misregulation of cell migration contributes to disease
• Congenital birth defects• Chronic inflammatory diseases
(asthma & arthritis)• Cancer (metastasis)• Atherosclerosis & heart disease
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Rolling leukocytes are recruited to sites of injury or inflammation
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Atherosclerosis
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How do cell’s move?
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Cellular migration is a cycle of 4 processes
1. Polarization of the cell (defining front vs. back)
2. Protrusion of the leading edge
3. Formation of adhesive contacts with the surface
4. De-adhesion and retraction of the trailing edge
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Cell polarity is regulated by signaling molecules that create a “leading
edge” and “trailing edge”1. Membrane receptors
(GPCRs, RTKs) detect an asymmetric signal from outside the cell
2. Receptors activate Ras-like small G proteins (Rho-family proteins)
3. Rho-family proteins induce cytoskeletal changes at the leading (Rac, Cdc42) and trailing (Rho) edges of the cell
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Rho family members are Ras-like proteins that regulate cell morphology and polarity
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Rho protein localizes to the trailing edge of crawling neutrophils
Actin / Rho
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Signaling during cell polarization
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Cell polarization requires the orientation and capture of microtubules at the
leading edge
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2. Protrusion
• Protrusion is driven primarily by forces that are produced by actin polymerization
• There are 2 types of protrusive structures in motile cells: lamellipodia (sheet-like) and filopodia (finger-like)
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The structure of protrusions is dictated by actin organization
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Actin dynamics in lamellipodia
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Lamellipodia are composed of branched networks of short actin filaments
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Actin dynamics in lamellipodia
• ARP complex - nucleates growth of new filaments
• Capping proteins - halt growth of filaments to keep them short
• Depolymerizing proteins - break down network away from leading edge
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Filopodia dynamics
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http://www.youtube.com/watch?v=VWGA7kIeE0Q
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Filopodia are composed of long, unbranched, and bundled actin
filaments
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The model for filopodia formation
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3. Formation of adhesive contacts with the substrate
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Cells bind to the ECM (Extra-Cellular Matrix) using transmembrane receptors
called integrins
Fibronectin
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Cell Migration Consortium http://www.cellmigration.org/index.shtml
Integrins bound to ECM cluster to form “focal adhesions”
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Integrins form an indirect linkage between the ECM and actin network
• This link to the substrate allows the cell to exert force and gain traction in motility
• The amount of tension between the cytoskeleton and the ECM is how cells “feel” the rigidity of their substrate (Durotaxis)
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The ECM is secreted and maintained by fibroblasts
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A Cancer cell migrates in vitro through a 3-D collagen matrix
Lecaudey, et al., 2008
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4. De-adhesion and retraction of the trailing edge
• Cells use actin and myosin II to pull on the trailing edge
• Myosin II is activated at trailing edge by Rho
• When force of tension in the cell is greater than the strength of adhesions, the rear of the cell shortens elastically and contracts further
• Old adhesions in the rear are degraded by a calcium-dependent protease called calpain
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Myosin II is activated at the rear of migrating neutrophils
Actin / Myosin II Actin / Rho
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Fish keratocyte motility
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An exaggerated example of a leading and trailing edge:
Actin
Myosin
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A model for how forces generated by the actin cytoskeleton move cells
forward