Chapter 9 Cell Signaling PDF

Summary

This document presents an overview of cell signaling concepts covered in a biology class. It details the various types of signaling, including endocrine, paracrine, and autocrine signaling pathways.

Full Transcript

Chapter 9
Cell Signaling
4 Requirements for Signaling:
1. 3.
2. 4.
Communication between Cells
in Multicellular Life
1. Signaling cell—ex, cells
in adrenal glands
2. Signaling molecule—ex,
adrenaline
3. Receptor protein—ex, on
cells of organs
4. Responding cell—
example, cells causing
physiologic changes like
increased heart or
breathing rate
 Communication in Bacterial Cells:
Uptake of DNA from the Environment
Cell Signaling Steps
Use the numbered terms listed to fill in
the blanks of the following statement:
In communication between cells, the
_____ produces the signaling
molecule, also known as the _____; the
_____ produces the _____, to which the
signaling molecule binds.
1. ligand A) 2; 1; 4; 3
2. signaling cell B) 1; 2; 3; 4
3. receptor C) 2; 3; 1; 4
4. responding cell
D) 4; 3; 2; 1
Signals Can Travel Short and Long Distances
Endocrine Signaling – Long Distance Signaling

Mainly molecules traveling through the bloodstream.
(ex, Estrogen and testosterone)
Paracrine Signaling - Small, Water-Soluble
Signals that Move to Neighboring Cells
Growth factors are types of paracrine signaling
molecules.
 Growth Factors Promote Cell Growth
Cells grow well in the presence of blood serum, but
not as well in blood plasma due to presence of
something called Platelet-Derived Growth Factor
(PDGF)
Autocrine Signaling – Signaling and
Responding Cell are the Same
Important during embryonic development.
Contact-Dependent: Transmembrane Protein in One
Cell is Signal, Binds to Receptor on Another

Example is Delta-
Notch signaling in
development

Undifferentiated
cells with Delta
contact those with
Notch become
neurons, Notch cells
become glial cells
Consider the following scenario:
You observe a cell that has a receptor protein that binds a signaling
molecule that is produced by the same cell. What kind of signaling is
occurring in this cell?

A. autocrine signaling
B. contact-dependent signaling
C. paracrine signaling
D. endocrine signaling
In a normal, healthy cell, what is the BEST reason that
paracrine signaling does not activate the responding
cell?

A. Responding cell’s receptors have a mutation.
B. Neighboring cells are usually too far away for
paracrine signaling
C. Concentration of the signaling molecule is too
high.
D. The responding cell does not have the proper
receptor.
 Receptors – Proteins that Bind
Signaling Molecules
Found inside cell or on cell surface as a
membrane-bound protein.
Signaling molecules = ligand.
Ligands bind to the ligand-binding site of
receptor.
When ligands bind the receptor, there is a
change in conformation of the receptor, and we
say the receptor is activated.
 Intracellular Receptors – Nonpolar Molecules
(Steroid Hormones) Can Cross Membrane and Bind
in Cytoplasm or Nucleus
 Cell-Surface Receptors – Polar Ligands Can’t
Cross the Membrane and Instead Bind to Surface
Receptors

Cell-surface receptor/ligand complex undergoes a
conformational change and the receptor is activated.
You isolate a cell and strip off proteins
on the cell’s surface using a protease.
You then add a specific signaling
molecule. The cell responds.
How did this cell respond?
A. Receptor is a ligand-gated ion channel.
B. Signal does not need a receptor.
C. Signal can directly activate second messengers
and does not need to activate the receptor.
D. The receptor for this signal is inside the cell, and
the signaling molecule is nonpolar and can diffuse
into the cell.
 3 Types of Cell Surface Receptors
Thousands of different proteins exist on surface of
any given cell. The proteins involved in cell
signaling can be classified into three main groups:

1. G protein-coupled receptors
2. receptor kinases
3. ion channels
G Protein-Coupled Receptor – Inactive until Bound

Once ligand binds, it can bind the G protein.
G protein-coupled receptor is active when ligand is
bound to the receptor and the receptor has bound
the G protein.
 G Protein
Activation –
Ligand
Binding
Activates
Receptor,
which binds
G Protein
 Heart Muscles Stimulated by G Proteins

A second messenger cAMP transmits signal from
G protein to inside cell.
Protein kinase A activates other proteins in cell, so
response to the signal inside the cell is complete.
Amplification of Adrenaline Signal
Each adrenaline-
bound receptor
activates multiple G
proteins.

Each adenylyl
cyclase produces
LOTS of cAMP
(second messenger).

Each active protein
kinase A activates
multiple proteins.
 G Protein Signal Termination

When concentration of adrenaline eventually
wanes, adrenaline will diffuse from receptor and
receptor will revert to inactive form.
Receptor no longer activates G protein, GTP is
converted to GDP, and adenylyl cyclase no longer
produces second messenger cAMP.
 The Role of Phosphatases

Enzymes in cytosol degrade cAMP, which stops the
activation of more protein kinase A molecules.
Phosphatases remove phosphate groups from
activated proteins, making them inactive.
 Receptor Kinase – When Ligand
Binds, Receptor Kinase Dimerizes
and Phosphorylates Another Protein

Insulin, wound healing
 Receptor Kinase
Activation and Signaling
 MAP Kinase and the Ras/Raf/Mek/Erk
Protein
Cell repair started via PDGF from damaged cells.
PDGF binds its receptor, dimerization occurs
Phosphorylated receptors activate proteins in cell.
In MAP kinase pathway, the protein Ras is activated.
MAP Kinase Pathway
GTP-bound Ras triggers
a kinase cascade.

Activated kinase enters
nucleus where
expression of genes
associated with cell
division is turned on.

Termination of this
pathway occurs when
GTP is replaced by GDP
on Ras.
 Ligand-Gated Ion Channel
Ion channels alter flow of ions across membrane.
When ligand binds an ion channel, the ion channel
opens and ions can flow across the cell membrane.
 Cell Signaling and Cancer
Some cancers can form when a signaling molecule
is overproduced or produced in altered forms.
Mutations that make Ras always bound to GTP,
cause 30% of all cancers - stimulate cell division
and can result in tumor formation.
Some cancers can be caused when a receptor
remains bound to its ligand.
An excess of receptors can also cause cancer
because there is an increase in cellular response.
Which answer choices could account for the
increased cell proliferation in the patient?

A. None of the other answer options is correct.
B. Concentration of a signaling molecule in the
patient is higher than usual.
C. Cells taken from the patient exhibit a reduced
level of signal amplification.
D. Cells taken from the patient have fewer growth
factor receptors than normal.
 Integration of Signaling Pathways
Focusing on one single pathway at a time helps
us understand the control of that pathway.
In the context of the cell, one pathway may
stimulate a cellular response and also inhibit
another signaling pathway.
Different pathways may also have different
effects in different organisms. For example, in
mammalian cells, the MAP kinase pathway
promotes cell division, whereas in yeast cells, it
triggers sexual reproduction.
 GDP  GTP

RAF

MEK

Adenyl Cyclase

ERK

Nuclear –
changes gene
expression