Treponema pallidum invades intercellular junctions of endothelial cell monolayers
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Transcript of Cell Communication. Cell Junctions Neighboring cells in tissues, organs, or organ systems often...
![Page 1: Cell Communication. Cell Junctions Neighboring cells in tissues, organs, or organ systems often adhere, interact, and communicate through direct physical.](https://reader033.fdocuments.us/reader033/viewer/2022051216/5697bfde1a28abf838cb210c/html5/thumbnails/1.jpg)
Cell Communication
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Cell Junctions
• Neighboring cells in tissues, organs, or organ systems often adhere, interact, and communicate through direct physical contact
• Intercellular junctions facilitate this contact• There are several types of intercellular junctions
– Plasmodesmata– Tight junctions– Desmosomes– Gap junctions
© 2011 Pearson Education, Inc.
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Plasmodesmata in Plant Cells
• Plasmodesmata are channels that perforate plant cell walls
• Through plasmodesmata, water and small solutes (and sometimes proteins and RNA) can pass from cell to cell
© 2011 Pearson Education, Inc.
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Tight Junctions, Desmosomes, and Gap Junctions in Animal Cells
• At tight junctions, membranes of neighboring cells are pressed together, preventing leakage of extracellular fluid
• Desmosomes (anchoring junctions) fasten cells together into strong sheets
• Gap junctions (communicating junctions) provide cytoplasmic channels between adjacent cells
© 2011 Pearson Education, Inc.
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Figure 6.32
Tight junctions preventfluid from movingacross a layer of cells
Tight junction
Tight junction
TEM0.5 m
TEM1 m
TEM
0.1 m
ExtracellularmatrixPlasma membranes
of adjacent cells
Spacebetween cells
Ions or smallmolecules
Desmosome
Intermediatefilaments
Gapjunction
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Overview: Cellular Messaging
• Cell-to-cell communication is essential for both multicellular and unicellular organisms
• Biologists have discovered some universal mechanisms of cellular regulation
• Cells most often communicate with each other via chemical signals
• For example, the fight-or-flight response is triggered by a signaling molecule called epinephrine
© 2011 Pearson Education, Inc.
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Concept 11.1: External signals are converted to responses within the cell
• Microbes provide a glimpse of the role of cell signaling in the evolution of life
© 2011 Pearson Education, Inc.
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Quorum Sensing in Bacteria
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Individualrod-shapedcells
Spore-formingstructure(fruiting body)
Aggregation in progress
Fruiting bodies
1
2
3
0.5 mm
2.5 mm
Figure 11.3
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Evolution of Cell Signaling
• The yeast, Saccharomyces cerevisiae, has two mating types, a and
• Cells of different mating types locate each other via secreted factors specific to each type
• A signal transduction pathway is a series of steps by which a signal on a cell’s surface is converted into a specific cellular response
• Signal transduction pathways convert signals on a cell’s surface into cellular responses
© 2011 Pearson Education, Inc.
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Figure 11.2
Exchange of mating factors
Receptor factor
a factorYeast cell,mating type a
Yeast cell,mating type
Mating
New a/ cell
1
2
3
a
a
a/
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• Pathway similarities suggest that ancestral signaling molecules evolved in prokaryotes and were modified later in eukaryotes
• The concentration of signaling molecules allows bacteria to sense local population density
© 2011 Pearson Education, Inc.
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Local and Long-Distance Signaling
• Cells in a multicellular organism communicate by chemical messengers
• Animal and plant cells have cell junctions that directly connect the cytoplasm of adjacent cells
• In local signaling, animal cells may communicate by direct contact, or cell-cell recognition
© 2011 Pearson Education, Inc.
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Figure 11.4 Plasma membranes
Gap junctionsbetween animal cells
Plasmodesmatabetween plant cells
(a) Cell junctions
(b) Cell-cell recognition
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• In many other cases, animal cells communicate using local regulators, messenger molecules that travel only short distances
• In long-distance signaling, plants and animals use chemicals called hormones
• The ability of a cell to respond to a signal depends on whether or not it has a receptor specific to that signal
© 2011 Pearson Education, Inc.
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Figure 11.5
Local signaling Long-distance signaling
Target cell
Secretingcell
Secretoryvesicle
Local regulatordiffuses throughextracellular fluid.
(a) Paracrine signaling (b) Synaptic signaling
Electrical signalalong nerve celltriggers release ofneurotransmitter.
Neurotransmitter diffuses across synapse.
Target cellis stimulated.
Endocrine cell Bloodvessel
Hormone travelsin bloodstream.
Target cellspecificallybinds hormone.
(c) Endocrine (hormonal) signaling
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The Three Stages of Cell Signaling: A Preview
• Earl W. Sutherland discovered how the hormone epinephrine acts on cells
• Sutherland suggested that cells receiving signals went through three processes
– Reception– Transduction– Response
© 2011 Pearson Education, Inc.
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© 2011 Pearson Education, Inc.
Animation: Overview of Cell Signaling Right-click slide / select “Play”
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Figure 11.6-1
Plasma membrane
EXTRACELLULARFLUID
CYTOPLASM
Reception
Receptor
Signalingmolecule
1
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Figure 11.6-2
Plasma membrane
EXTRACELLULARFLUID
CYTOPLASM
Reception Transduction
Receptor
Signalingmolecule
Relay molecules in a signal transductionpathway
21
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Figure 11.6-3
Plasma membrane
EXTRACELLULARFLUID
CYTOPLASM
Reception Transduction Response
Receptor
Signalingmolecule
Activationof cellularresponse
Relay molecules in a signal transductionpathway
321
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Concept 11.2: Reception: A signaling molecule binds to a receptor protein, causing it to change shape
• The binding between a signal molecule (ligand) and receptor is highly specific
• A shape change in a receptor is often the initial transduction of the signal
• Most signal receptors are plasma membrane proteins
© 2011 Pearson Education, Inc.
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Receptors in the Plasma Membrane
• Most water-soluble signal molecules bind to specific sites on receptor proteins that span the plasma membrane
• There are three main types of membrane receptors
– G protein-coupled receptors– Receptor tyrosine kinases– Ion channel receptors
© 2011 Pearson Education, Inc.
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• G protein-coupled receptors (GPCRs) are the largest family of cell-surface receptors
• A GPCR is a plasma membrane receptor that works with the help of a G protein
• The G protein acts as an on/off switch: If GDP is bound to the G protein, the G protein is inactive
© 2011 Pearson Education, Inc.
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Figure 11.7b
G protein-coupledreceptor
21
3 4
Plasmamembrane
G protein(inactive)
CYTOPLASM Enzyme
Activatedreceptor
Signalingmolecule
Inactiveenzyme
Activatedenzyme
Cellular response
GDPGTP
GDPGTP
GTP
P i
GDP
GDP
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• Receptor tyrosine kinases (RTKs) are membrane receptors that attach phosphates to tyrosines
• A receptor tyrosine kinase can trigger multiple signal transduction pathways at once
• Abnormal functioning of RTKs is associated with many types of cancers
© 2011 Pearson Education, Inc.
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Figure 11.7c
Signalingmolecule (ligand)
21
3 4
Ligand-binding site
helix in themembrane
Tyrosines
CYTOPLASM Receptor tyrosinekinase proteins(inactive monomers)
Signalingmolecule
Dimer
Tyr
Tyr
Tyr
Tyr
Tyr
Tyr
Tyr
Tyr
Tyr
Tyr
Tyr
Tyr
Tyr
Tyr
Tyr
Tyr
Tyr
Tyr
Tyr
Tyr
Tyr
Tyr
Tyr
Tyr
Tyr
Tyr
Tyr
Tyr
Tyr
Tyr
Tyr
Tyr
Tyr
Tyr
Tyr
Tyr
P
P
P
P
P
P
P
P
P
P
P
P
Activated tyrosinekinase regions(unphosphorylateddimer)
Fully activatedreceptor tyrosinekinase(phosphorylateddimer)
Activated relayproteins
Cellularresponse 1
Cellularresponse 2
Inactiverelay proteins
6 ATP 6 ADP
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• A ligand-gated ion channel receptor acts as a gate when the receptor changes shape
• When a signal molecule binds as a ligand to the receptor, the gate allows specific ions, such as Na+ or Ca2+, through a channel in the receptor
© 2011 Pearson Education, Inc.
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Figure 11.7d
Signalingmolecule (ligand)
21 3
Gate closed Ions
Ligand-gatedion channel receptor
Plasmamembrane
Gate open
Cellularresponse
Gate closed
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Intracellular Receptors
• Intracellular receptor proteins are found in the cytosol or nucleus of target cells
• Small or hydrophobic chemical messengers can readily cross the membrane and activate receptors
• Examples of hydrophobic messengers are the steroid and thyroid hormones of animals
• An activated hormone-receptor complex can act as a transcription factor, turning on specific genes
© 2011 Pearson Education, Inc.
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Figure 11.9-1Hormone(testosterone)
Receptorprotein
Plasmamembrane
DNA
NUCLEUS
CYTOPLASM
EXTRACELLULARFLUID
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Figure 11.9-2Hormone(testosterone)
Receptorprotein
Plasmamembrane
Hormone-receptorcomplex
DNA
NUCLEUS
CYTOPLASM
EXTRACELLULARFLUID
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Figure 11.9-3Hormone(testosterone)
Receptorprotein
Plasmamembrane
Hormone-receptorcomplex
DNA
NUCLEUS
CYTOPLASM
EXTRACELLULARFLUID
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Figure 11.9-4Hormone(testosterone)
Receptorprotein
Plasmamembrane
Hormone-receptorcomplex
DNA
mRNA
NUCLEUS
CYTOPLASM
EXTRACELLULARFLUID
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Figure 11.9-5Hormone(testosterone)
Receptorprotein
Plasmamembrane
EXTRACELLULARFLUID
Hormone-receptorcomplex
DNA
mRNA
NUCLEUS
CYTOPLASM
New protein
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Concept 11.3: Transduction: Cascades of molecular interactions relay signals from receptors to target molecules
in the cell
• Signal transduction usually involves multiple steps
• Multistep pathways can amplify a signal: A few molecules can produce a large cellular response
• Multistep pathways provide more opportunities for coordination and regulation of the cellular response
© 2011 Pearson Education, Inc.
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Signal Transduction Pathways
• The molecules that relay a signal from receptor to response are mostly proteins
• Like falling dominoes, the receptor activates another protein, which activates another, and so on, until the protein producing the response is activated
• At each step, the signal is transduced into a different form, usually a shape change in a protein
© 2011 Pearson Education, Inc.
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Protein Phosphorylation and Dephosphorylation
• In many pathways, the signal is transmitted by a cascade of protein phosphorylations
• Protein kinases transfer phosphates from ATP to protein, a process called phosphorylation
© 2011 Pearson Education, Inc.
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• Protein phosphatases remove the phosphates from proteins, a process called dephosphorylation
• This phosphorylation and dephosphorylation system acts as a molecular switch, turning activities on and off or up or down, as required
© 2011 Pearson Education, Inc.
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Receptor
Signaling molecule
Activated relaymolecule
Phosphorylation cascade
Inactiveprotein kinase
1 Activeprotein kinase
1
Activeprotein kinase
2
Activeprotein kinase
3
Inactiveprotein kinase
2
Inactiveprotein kinase
3
Inactiveprotein
Activeprotein
Cellularresponse
ATPADP
ATPADP
ATPADP
PP
PP
PP
P
P
P
P i
P i
P i
Figure 11.10
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Small Molecules and Ions as Second Messengers
• The extracellular signal molecule (ligand) that binds to the receptor is a pathway’s “first messenger”
• Second messengers are small, nonprotein, water-soluble molecules or ions that spread throughout a cell by diffusion
• Second messengers participate in pathways initiated by GPCRs and RTKs
• Cyclic AMP and calcium ions are common second messengers
© 2011 Pearson Education, Inc.
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Cyclic AMP
• Cyclic AMP (cAMP) is one of the most widely used second messengers
• Adenylyl cyclase, an enzyme in the plasma membrane, converts ATP to cAMP in response to an extracellular signal
© 2011 Pearson Education, Inc.
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Figure 11.11
Adenylyl cyclase Phosphodiesterase
Pyrophosphate
AMP
H2O
ATP
P iP
cAMP
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Figure 11.11a
Adenylyl cyclase
Pyrophosphate
ATP
P iP
cAMP
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Figure 11.11b
Phosphodiesterase
AMP
H2O
cAMP
H2O
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• Many signal molecules trigger formation of cAMP
• Other components of cAMP pathways are G proteins, G protein-coupled receptors, and protein kinases
• cAMP usually activates protein kinase A, which phosphorylates various other proteins
• Further regulation of cell metabolism is provided by G-protein systems that inhibit adenylyl cyclase
© 2011 Pearson Education, Inc.
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Figure 11.12
G protein
First messenger(signaling moleculesuch as epinephrine)
G protein-coupledreceptor
Adenylylcyclase
Second messenger
Cellular responses
Proteinkinase A
GTP
ATPcAMP
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Calcium Ions and Inositol Triphosphate (IP3)
• Calcium ions (Ca2+) act as a second messenger in many pathways
• Calcium is an important second messenger because cells can regulate its concentration
© 2011 Pearson Education, Inc.
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Figure 11.13
Mitochondrion
EXTRACELLULARFLUID
Plasmamembrane
Ca2
pump
Nucleus
CYTOSOL
Ca2
pump
Ca2
pump
Endoplasmicreticulum(ER)
ATP
ATP
Low [Ca2 ]High [Ca2 ]Key
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• A signal relayed by a signal transduction pathway may trigger an increase in calcium in the cytosol
• Pathways leading to the release of calcium involve inositol triphosphate (IP3) and diacylglycerol (DAG) as additional second messengers
© 2011 Pearson Education, Inc.
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© 2011 Pearson Education, Inc.
Animation: Signal Transduction Pathways Right-click slide / select “Play”
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G protein
EXTRA-CELLULARFLUID
Signaling molecule(first messenger)
G protein-coupledreceptor Phospholipase C
DAG
PIP2
IP3 (second messenger)
IP3-gatedcalcium channel
Endoplasmicreticulum (ER)
CYTOSOL
Ca2
GTP
Figure 11.14-1
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Figure 11.14-2
G protein
EXTRA-CELLULARFLUID
Signaling molecule(first messenger)
G protein-coupledreceptor Phospholipase C
DAG
PIP2
IP3 (second messenger)
IP3-gatedcalcium channel
Endoplasmicreticulum (ER)
CYTOSOL
Ca2
(secondmessenger)
Ca2
GTP
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Figure 11.14-3
G protein
EXTRA-CELLULARFLUID
Signaling molecule(first messenger)
G protein-coupledreceptor Phospholipase C
DAG
PIP2
IP3 (second messenger)
IP3-gatedcalcium channel
Endoplasmicreticulum (ER)
CYTOSOL
Variousproteinsactivated
Cellularresponses
Ca2
(secondmessenger)
Ca2
GTP
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Concept 11.4: Response: Cell signaling leads to regulation of transcription or cytoplasmic activities
• The cell’s response to an extracellular signal is sometimes called the “output response”
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Nuclear and Cytoplasmic Responses
• Ultimately, a signal transduction pathway leads to regulation of one or more cellular activities
• The response may occur in the cytoplasm or in the nucleus
• Many signaling pathways regulate the synthesis of enzymes or other proteins, usually by turning genes on or off in the nucleus
• The final activated molecule in the signaling pathway may function as a transcription factor
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Figure 11.15Growth factor
ReceptorReception
Transduction
CYTOPLASM
Response
Inactivetranscriptionfactor
Activetranscriptionfactor
DNA
NUCLEUS mRNA
Gene
Phosphorylationcascade
P
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Fine-Tuning of the Response
• There are four aspects of fine-tuning to consider– Amplification of the signal (and thus the response)– Specificity of the response– Overall efficiency of response, enhanced by
scaffolding proteins– Termination of the signal
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Concept 11.5: Apoptosis integrates multiple cell-signaling pathways
• Apoptosis is programmed or controlled cell suicide
• Components of the cell are chopped up and packaged into vesicles that are digested by scavenger cells
• Apoptosis prevents enzymes from leaking out of a dying cell and damaging neighboring cells
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Figure 11.20
2 m
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Apoptosis in the Soil Worm Caenorhabditis elegans
• Apoptosis is important in shaping an organism during embryonic development
• The role of apoptosis in embryonic development was studied in Caenorhabditis elegans
• In C. elegans, apoptosis results when proteins that “accelerate” apoptosis override those that “put the brakes” on apoptosis
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Figure 11.21
Mitochondrion
Ced-9protein (active)inhibits Ced-4activity
Receptorfor death-signalingmolecule
Ced-4 Ced-3
Inactive proteins
(a) No death signal
Death-signalingmolecule
Ced-9(inactive)
Cellformsblebs
ActiveCed-4
ActiveCed-3
Otherproteases
NucleasesActivationcascade
(b) Death signal
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Figure 11.21a
Mitochondrion
Ced-9protein (active)inhibits Ced-4activity
Receptorfor death-signalingmolecule
Ced-4 Ced-3
Inactive proteins
(a) No death signal
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Death-signalingmolecule
Ced-9(inactive)
Cellformsblebs
ActiveCed-4
ActiveCed-3 Other
proteases
NucleasesActivationcascade
(b) Death signal
Figure 11.21b
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Apoptotic Pathways and the Signals That Trigger Them
• Caspases are the main proteases (enzymes that cut up proteins) that carry out apoptosis
• Apoptosis can be triggered by– An extracellular death-signaling ligand – DNA damage in the nucleus– Protein misfolding in the endoplasmic reticulum
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• Apoptosis evolved early in animal evolution and is essential for the development and maintenance of all animals
• Apoptosis may be involved in some diseases (for example, Parkinson’s and Alzheimer’s); interference with apoptosis may contribute to some cancers
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Figure 11.22
Interdigital tissueCells undergoing
apoptosisSpace between
digits1 mm
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Figure 11.UN01
Reception1 2 3Transduction Response
Receptor
Signalingmolecule
Relay molecules
Activation of cellularresponse